BIS2C final
what developed after hagfishes but before lamprey
vertebrae
What are some major features of sponges? Name all of it. skeleton made with spicules and collagen derivatives suspension feeders no gut non-motile monoblastic
skeleton made with spicules and collagen derivatives suspension feeders no gut non-motile monoblastic
Class Gastropoda
slugs and snails, stomach foot, torsion
What are lancelets
small filter-feeding marine animals that have segmented body muscles and chordate features present in adults
Chlamydias
small, gram -, cocci, obligate parasites, pathogenic, eukaryotic chloroplasts
microphyllous leaves
small, simple leaf with a single vascular strand. Lycophytes. Originated from sterile lateral sporangia.
Agrobacterium
soil bacteria, infects flowering plants, entry through wounds (crown gall)
segmentation
some bilaterians are characterized by having repeated segments, some segments fuse into tagma for specialized functions (arthropods,annelids)
heterocyst
specialize for N fixation
Pupa:
stage in a holometabola insect Egg → larva → pupa → adult
Gastrula:
stage in embryonic development in which the blastopore is fully developed, and there are three layers of cells
notochord
stiff, hollow cord made of collagen that serves as a point of support and muscle attachment; derived from mesoderm, replaced with vertebrae in vertebrates; helps to provide efficient locomotion
nematocyst
stinging organ that contains toxins; can be chemically or mechanically activated; found in cnidarians (in the cnidocytes)
Cubozoa (box jellies)
stings known to be toxic
fiber cells
structural elements of xylem
chytrid
swimming spores; single posterior flagellum; causes a disease in amphibians that is leading to mass extinctions
Fish scales are homologous
teeth (dermal)
Coelom:
the body cavity in metazoans, located between the intestinal canal and the body wall
coelom
the body cavity in metazoans, located between the intestinal canal and the body wall
What demonstrates the concept of "deep homology"
the cephalopod eye is convergent with that of vertebrates, shares some common genes that are involved in the eye development in the two groups
Ancestral State
the character state of the most recent common ancestor.
thorax
the chest; between neck and abdomen
Chelicerae:
the feeding organs of chelicerata
cephalothorax
the fused head and thorax of spiders and other chelicerate arthropods -Chelicerata: 2 tagmata (cephalothorax, abdomen)
carapace
the hard upper shell of a turtle, crustacean, or arachnid
What is a carapace?
the hard upper shell of a turtle, crustacean, or arachnid.
carapace:
the hard upper shell of a turtle, crustacean, or arachnid; Crustacea: carapace covers thorax and head
thorax
the middle segment in hexapods. This is where the legs and wings attach. head->thorax->abdomen
What specific evidence supports choanoflagellates as the sister group of Metazoa? (3)
the presence of collar cells DNA sequence data (phylogenetic analysis) homologous cell signaling/adhesion genes.
Nematocyst:
the stinging organ that contains toxins in cnidaria
extinction
the taxon no longer exists.
Creoarcheota
thermophilic and acidophilic
the function of an outgroup
to root an unrooted tree
LGT
transformation, transduction (phage mediated), conjugation (sex pillus-plasmids)
tetrapod
transition to life on land: use lungs, modification of skin, internal fertilization, jointed fins modified to limbs, evolution of shelled eggs w/ membranes
incongruent phylogenetic trees
trees don't match up
nematoda
triploblastic spiral mosaic bilateral complete one way gut decomposers synap: amphids
What are some major features of annelids?
trochophore larvae (free swimming larva)
Molluscan Reproduction
trochopore larva --> veliger larva --> adult - direct development in some - land snails --> monoecious
diploblasty
two tissue layers (endoderm and ectoderm); cnidarians and ctenophores
What is bilateral symmetry?
two-sided symmetry
Molluscan life cycle
typically: trochophore larva>>veliger larva>> adult however some do have direct development Ex. freaky land snails are monecious and pierce each other with "love darts" before they exchange sperm
polytomy
uncertain about relationship
yeast
unicellular crown fungi
suction feeding
used by fish; unidirectional flow (water goes in the mouth and out the pharyngeal slit); uses suction
systematics
used formal methods to estimate evolutionary relationships
Principle of Continuity
used in sponges; out pore is smaller than combined area of all smaller pores; water moves slower inside the sponge in order to maximize nutrient absorption; water moves fastest at the exit pore (osculum)
Synapomorphies in angiosperms:
vessel elements, companion cells, Flowers, Double fertilization, Triploid endosperm, carpel, fruits
virion
virus outside host
The communication in cephalopods is largely
visual: chromatophores are cells with pigment that change in shape leading to color change
first cell of the diploid sporophyte generation is _____
zygote
What is the body plan of echinodermata?
• There is a oral side (with the mouth) and an aboral side • The gut is complete with regional specialization. • There is no head or brain; diffuse neural net • Respiration by diffusion
What is is in the digestive system in earthworms?
•Complete, 1-way processing gut •Pharynx •Esophagus •Crop •Gizzard •Intestine
Vertebrates
- enlarged brain - cranial skeleton - vertebral column of bone or cartilage
Innovation of wings
- evolved ONCE within insects -evolved early in phylogeny as well (MRCA is wingless, ex. silverfish) -wings evolved from dorsal appendages on the base of legs in crustaceans the dorsal appendages are used for respiration suggesting that wings arose from gill-like structures
Pharyngeal slits
- openings between the pharynx and the exterior - associated with filer feeding or respiration
What are distinguishing features of crustaceans?
-3 tagmata (head, throax, adbomen) -2 pairs of antennae -dorsal carapace covers head and thorax -nauplius larval stage
Protostomes:
-Blastopore becomes mouth -Have spiral, mosaic cleavage -Unequal division of cells → embryo has distinct top and bottom -Cell fate determined early mRNAs determine cell development -If a protostome embryo lost a few cells during early development, the embryo would cease to develop and die
c. Chondrichthyans
" cartilaginous fish" - so sharks, skates, and ray - loss of bone - skeleton made of cartilage - powerful jaws, excellent swimmers - mostly predatory - can grow very large ( ex. Megalodon that was 50 ft long >> whale sharks ( filter feeder) 40 ft >> Great white sharks 20 ft
Protosomes
"mouth first" MRCA HAD: 1) blastopore becomes mouth 2) mesoderm arising near lip of blastopore 3) schizocoely 1. Arrow worms 2. Lophotrochozoans 3. Ecdysozoans
protostome
"mouth first;" blastopore becomes the mouth; mollusca, annelida, nemotoda, and arthropoda; usually mosaic (spiral) cleavage
What are some characteristics of Annelids?
"segmented worms;" paired setae, segmentation, well-developed organ system, use coelom as hydrostatic skeleton to support movement, processing gut, protostome, lophotrochozoan
Scyphozoa
"true jellies"
phylogram
# of character changes
Lamprey
- blood-sucking parasites of fish - no bone, no jaw - sucker like mouth and rasping teeth - larvae are mud dwelling, filter feeders
Cnidarians
- carnivorous - gain additional nutritional benefits from symbiotic photosynthetic protists
Chondrichthyans (sharks)
- cartilaginous fish - skeleton made of flexible cartilage (bone lost secondarily) - generally predators, some scavengers - powerful jaws, excellent swimmers
Lancelets
- cephalochordates - small filter feeding marine animals - chordate features present in adults - segmented body muscles
What are Chondrichtheyes?
- chordata - sharks, skates, rays • Skeleton made of flexible cartilage • Mostly predaceous, some scavengers • Powerful jaws, excellent swimmers
What are lampreys?
- chordata • No bone, no jaws, but cartilaginous vertebrae are present • Sucker- like mouth with rasping teeth • Many species are ectoparasites of fish
What are ostracoderms?
- chordata - armored jawless fish • Extinct, armor- plated, Silurian to Devonian (~400mya) • Jawless but the armor plates were made of bone • Para- or polyphyletic • Filter feeders or scavengers
What are Cubozoa?
- cnidaria • Also called box jellies or sea wasps. • Sting is very toxic, may cause death in humans. • Some species with well-developed eyes.
Evolution of a jaw
1. Jawless fishes --> gill arches, cartilaginous gill supports 2. Early jawed fishes --> anterior gills become modified as bony jaws 3. Modern jawed fished --> additional gill arches added and teeth acquired
4 extant Reptiles clades
1. Lepidosaurs 2. Turtles 3. Crocodiles 4. Dinosaurs
Divisions of protostomes
1. Lophotrochozoans 2. Ecdyozoans
What are the two body morphologies of cnidaria?
1. Medusa: free-living form, 'sea jelly', oral end down 2. Polyp: sessile form, 'anemone', oral end up
What are the two types of body types for sponges?
1. encrusting 2. upright
Bilaterally symmetrical animals
Distinct anterior (front) and posterior (back) ends; cephalization; differentiation of anterior end into a head, with concentration of sensory organs; Segmentation: serial repetition of body parts in well-defined segements (subset of taxa-arthropods)
Unique SYNAPOMORPHIES of metazoa
Distinctive male gametes: spermotozoa Blastula Septate junctions Collagen in extracellular matrix
segmentation
Division of an animal body into segments; characteristic of Annelida, Arthropoda, and Chordata
Tagmosis
Division of body into functional subunits; regional specialization of groups of body segments (tagmata)
Cnidarian feeding
ALL are CANIVOROUS small prey is captured with cnida convered tentacles and brought into the gastrovascular cavity where extracellular digestion occurs. Then by products of digestion are brought by phagocytosis into nutritive cells where digestion is completed intracellularly
Key characteristics of the kingdom Fungi?
Absorptive nutrition; cell walls contain chitin and glucans and they reproduce by production of spores; thallus (body) can be multicellular or unicellular; Multicellular have filaments called hyphae
General features of mollusca
Bilaterally symmetrical (secondary asymmetry in some) • Reduced coelom • Body plan: mantle, foot, and visceral mass • Mouth with a radula (lost in some groups)
Mollusca
Bilaterally symmetrical (some are secondarily asymmetrical) coelomate protostomes with complete guts, reduced coelom, open circulatory system (hemocoel), characteristic body plan (mantle, visceral mass, and foot), mouth with radula (rasping tongue-like organ), well developed nervous system, excretory system in form of nephridia; include Chitons and gastropods (snails, slugs, nudibranchs, clams, mussels, oysters, squids, octopuses, nautiluses)
Characteristic features of molluscs
Bilaterally symmetrical coelomate protostomes with: 1. Complete gut 2.Reduced coelom 3.Open circulatory system with typically three-chambered heart and associated vessels 4.Body plan of : mantle, visceral mass, and foot 5.Mouth with radula 6.Well-developed nervous system 7.Excretory system in the from of nephridia
What is segmentation?
Body parts that are repeated in animals with bilateral symmetry
Visceral mass in Mollusca
Body proper, with digestive, circulatory, excretory and reproductive organs
Why are choanoflagellates important to study for the evolution of multicellularity in animals?
Choanoflagelletes have many features that were previously thought to only occur in animals such as colonial structures, single flagellum, collar, signalling, and cell adhesion. This means that these features evolved prior to the MRCA of choanoflagelletes and animals even if multicellularity may have evolved in the stem leading to common ancestor animals.
How did insect wings evolve?
Dorsal appendages at the base of the legs; in crustaceans the dorsal appendages are used for respiration; this argues that pro-wings arose from gill-like structures in a larval aquatic stage, and were retained and modified in adults for other purposes
the diagnostic features of Flowering Plants (Angiosperms) (5)
Double ferilization Endosperm Carpel Flowers fruit Reduced megagametophyes
Know the diagnostic features of Seed plants
Seed Pollen Heterospory Retention of megagametophyte
the diagnostic features of Seed plants (4)
Seed Pollen Heterospory Retention of megagametophyte
Differences between LGT and Sexual Reproduction
Sexual: Two identical organisms, one way to be done, entire genome is transferred LGT: Can occur between two different species or domains, donor-receptor relationship, doesn't transfer the full genome, there are many different ways to do LGT
Echinodermata reproduction
Sexual; mostly dioecious with external fertilization; regeneration of body parts is common--->means of asexual reproduction
opistokont traits
Shared Traits: All shared traits of eukaryotes Shared DERIVED Traits: Flagellum (if present) single and posterior
What are features of humans?
Shared with other primates 1. grasping fingers on all four limbs 2. flat fingernails 3. binocular vision & forward eyes Only humans 4. increased brain size 5. modifications to the skull to enable speech 6. extensive use and construction of tools
Chondrichthyans (cartilaginous fish)
Sharks, skates, rays; skeleton made of flexible cartilage (bone lost secondarily); generally predators, some scavengers; powerful jaws, excellent swimmers
Examples of flatworms/platyhelminthes
Sheep liver fluke Parasite-induced behavior modification
Cone snails
Shoot harpoon-like radula (laden with toxin) at prey
What are microRNAs
Short stretches of RNA involved in gene regulation Found in all lineages except ctenophores
Glass sponges and demosponges
Siliceous spicules
Choanoflagellates
Small group of aquatic heterotrophic eukaryotes; cell similar in structure to sponge choanocytes; microbial (some are unicellular and some are colonial but none are multicellular); cell ovid, with a collar of microvilli surrounding a single flagellum; sister group of Metazoa
Gastropods
Snails, limpets, slugs, whelks, conchs, sea slugs, sea hares, etc; Shell in one piece (univalve), usually coiled; torsion; mostly herbivores, but include some carnivores
Hemiptera
True bugs; plant feeders
3. Scyphozoa
True jellyfish that were named for their extensive mesoglea
Bilateral symmetry
a single plane divides animal into left and right mirror-image halves
catch collagen
a special type of connective tissue in sea stars that changes the rigidity of the body very quickly; controlled by the nervous system (not muscles)
Tagmata:
a specialized grouping of multiple segments into a coherently functional morphological unit
Blastula:
a stage in the embryonic stage of all animals; a hollow ball of cells
derived state
a state that is different from the ancestral state as it has been derived along the branch leading to the taxa
1. Lancelets
aka cephalochordates - small filter feeding marine animals in which the adults show chordate features - sister to tunicates + vertebrates - non vertebrate clade - has endostyle
Ecdysis
all Ecdysozoa molt a chitinous skeleton,
Tagmata
arthropods have multiple segments which have been fused into tagma that perform specialized functions.
Collagen
associated with all types of connective tissues, the skeletal plates are connected by collagen
how the outgroup is selected
based on independent evidence)
whittaker 5 kingdoms
based on nutrition
darwin tree
based on vertical gene transfer
radial cleavage:
cells stack directly on top of each other -Characteristic of deuterostomes
invariant characters
characters that all share the same character state
derived
characters that change/appear in ingroup
ancestral
characters that were in common ancestors (out group)
unique chacters
characters where all but one species have the same character state
lactococcus lactis
cheese
syconoid sponges
choanocyte lie in canals
leuconoid sponges
choanocytes lie in chambers like clusters of grapes
porifora
choanocytes, spicules, many small in, one out, high velocity
compound tunicate
chordata suspension feeder complete one way gut bilateral traits: notochord
solitary tunicate
chordata suspension feeder complete one way gut bilateral traits: notochord
hagfish
chordate, scavengers, no bone, no jaws, tongue with rasping teeth, tie themselves in knot, slime
eukaryotes infect
eukaryotes
chordata
ex: solitary tunicate, compound tunicate triploblastic radial regulative cleavage bilateral one way complete gut chew and digest synap: dorsal tubular nerve cord, notochord, post anal tail, endostyle thyroid gland
Polyphyly
excludes MRCA of included species, unnatural
synapomorphies of ecdysozoans
exoskeleton molting
What are some major innovations of arthropoda?
exoskeleton, jointed appendages
fruit
expanded ovary
haplontic
expansion of haploid phase (fungi and some algae). The diploid stage is unicellular, spores produced by meiosis. Only the haploid stage is multicellular, gametes produced by mitosis.
symmetry
explains the body structure of an organism; can have asymmetry, radial symmetry, pentaradial symmetry, or bilateral symmetry
Endostyle
cilliated groove on ventral side of pharynx ( secretes mucus to gather food particles) - found in lancelets and tunicates - present in larval lapreys but further becomes thryroid gland
Lophotrochozoa
clade of protostomes that exhibit a trochophore larvae stage and/or a lophophore feeding structure
the information conveyed by the branch lengths of cladograms is ________ and chronograms is ________
cladograms --> nothing chronograms --> time
Class Bivalvia
clams, oysters, mussels (two shells; also called Pelecypoda = hatchet foot), no radula, burrowing foot
What type of circulatory system do earthworms have?
closed
basidium
club shaped structure that produces spores in basidiomycota; spores develop on the outside
Multiple fruits
cluster of flowers
what evolved on branch leading to cnidaria (2)
cnidae nerve net
giant green sea anemone
cnidaria predator incomplete two way gut radial symmetry traits: diploblastic, no polyp stage, cnidocytes, photosynthetic symbiont
upside down jelly
cnidaria predator incomplete two way gut radial symmetry traits: diploblastic, no polyp stage, cnidocytes, photosynthetic symbiont
strawberry anemone
cnidaria predator incomplete two way gut radial symmetry traits: diploblastic, no polyp stage, cnidocytes, photosynthetic symbionts
moon jelly
cnidaria predator incomplete two way gut radial symmetry traits: diploblastic, polyp and medusa forms, cnidocytes
gorgonian
cnidaria predator incomplete two way gut radial symmetry in polyps and asymmetric in colony traits: diploblastic, polyp and medusa stage, cnidocytes
unrooted tree
constrains but doesn't completely specify the possible set of ancestor-descendant relationships. Not a phylogeny. No root node. Used to estimate phylogeny (most phylogeny estimation programs perform evaluations on unrooted trees). Evolutionary relationships change depending on where the optimal unrooted tree is rooted. For a given number of species, N, there are many more rooted than unrooted trees (2N-3). For internal nodes, all possible state assignments=#states^(#internal nodes)
Macrophagy
consumption of larger food particles (than possible with filter feeding ie sponges) -consequence of acquisition of gut and nervous systm
Amniotes
contains: mammals, and reptiles Key innovations to go further terrestrial 1. impermeable skin 2. efficient kidneys 3. amniote egg
fruiting body
formed from hyphae, contain spores which are dispersed for reproduction; mushrooms are an example of a fruiting body
ascus
found in ascomycota fungi species; cylindrical, develops ascopores on the inside
trochophore
free swimming feeding larval stage
planula larva
free swimming, flattened, ciliated from barious spicies mainly in cnidarians.
trochophore larva
free swimming, specialized with mouth stomach intestine and anus (mollusca and annelida)
Medusa:
free-living form of cnidarians ("sea jelly") Has mouth facing down Sexual form
planula larva
free-swimming, ciliated larval form typical of the cnidarians; bilateral symmetry; not feeding
planula larva
free-swimming, flattened, ciliated, bilaterally symmetric larval form of various cnidarian species
medusa
free-swimming; cnidarians; sexual life cycle stage
jaws evolved
from bony plates in the skin that held the gill slits open
wings evolved
from dorsal appendages at base of legs (used for respiration in crustaceans
Are pharyngeal slits a synapomorphy of chordata or deuterostomes?
deuterostomes
Cuticle (waxy layer to reduce desiccation) Pigments for UV protection Mutualistic fungal associations Sporic life cycle
diagnostic features of land plants
congruence
different characters support the same tree
cephalothorax
fused head and thorax of chelicerata (horseshoe crabs, scorpions, mites, ticks, and spiders)
tagmata
fused segments
tagmata
fused segments which perform specialized functions; insects have 3 (head, thorax, abdomen); chelicerata have 2 (cephalothorax and abdomen)
Lungs
gas filled organs that function in respiration evolved early in Chordata
Diploblasty
ectoderm + endoderm
triploblasty
ectoderm + mesoderm + endoderm; triploblastic animals are either Acoelomate, Pseudocoelomate or Coelomate
high GC gram +
elaborate branching filaments, chains of spores at tip of filament, tuberculosis
What is triploblasty?
embryo with three layers. Ectoderm + endoderm + mesoderm
What is diploblasty?
embryo with two layers. Ectoderm + endoderm
macroparasites
endemic
what evolved on branch leading to cnidaria and bilateria (1)
gastrula
What is modularity?
has similar advantages to multicellularity, it leads to regional functional specialization of the body.Leads to improved performance in animals
catch collagen:
holds skeletal plates together in echinoderms Can be tight or loose to make organism tough or soft
Spiracle:
holes in hexapod's body Part of tracheal system (breathing in insects)
horsetails
hollow for air and strength
6. Cnidocyte
specialized cells with unique stinging/adhesion properties called cnida, most common are NEMATOCYST -the coiled cnida will be discharded suddenly by hydrostatic pressure that penetrats prey and injects poison
Medusa
one of two body morphologies in Cnidarians. Free-living form, "sea jelly" oral end down
Polyp
one of two body morphologies in Cnnidarians, sessile form, "anemone' oral end up
incomplete gut
one opening; two way gut; cnidarian
hemimetabolous
insect development in which changes between larvae and adult are gradual; nymphs; larvae very similar to adults
Endoderm
inside embryonic tissue
Endoskeleton:
internal calcareous support structure
animal derived traits
internal digestion, muscle & movement, extracellular matrix molecules (collagen), unique cell junctions, multicellularity
Lungs:
internal organ where oxygen from the atmosphere is diffused into the circulatory system
microsporidia
intracellular parasite; eukaryote that lacks a mitochondria
bacteria pathogen
invasiveness, toxigenicity
speciation
one species diverging into separate species
Enterocoely
is process by which animals embryos develop, mesoderm is formed during the developing embryo stage and the middle pinches in
Nematocyst
is the stinging organ that contains the toxins
"diagnostic feature" of a group
it is a trait that is inferred to have evolved in the MRCA of the group, which is equivalent to saying that it is a synapomorphy of the group
Coelom
it is the body cavity in Metazoans that is located between the intestinal canal and the body wall.
New info in Anthropod phylogeny
it used to be thought that insects (hexapods) are sister to myriapods( milipedes) ==supported by morphological characters like appendages and tracheae ( but convergent adaptions to life on land) however, now it is believed that insects are sister to crustaceans ** Crustaceans are paraphyletic and insects arise within them** hella weird
aquatic
plants arose in what type of environment?
What are the polychaetes that were discussed in class?
polychaete worms, rag worms, feather duster worms, spaghetti worms, beard worms, zombie worms
What is the difference between medusae vs polyps? What distinguishing quality that separate them? polyps are sessile while medusae are free-swimming/floating Anthozoa,
polyps are sessile while medusae are free-swimming/floating Anthozoa,
basidiospore
pores produced by the basidium of basidiomycota
sponges
porifera suspension feeder no gut asymmetric traits: choanocytes, spicules
Explain powered flight, lung/air bladder, paired limbs, and amniotic egg.
powered flight generate enough thrust to keep body aloft lung/air bladder are used in buoyancy and respiration amniotic egg allows early development away from water
polychaetes -part of which phylum -5 members
rag worms 1. zombie worms 2. rag worms 3. beard worms 4. spaghetti worms 5. feather duster worms
What is endothermy? Describe its function
raising body temp above ambient temp and then defending that temp (specializing physiological repertoire for one temp = higher performance)
Radula
rasping organ for feeding. use some conveyer belt like action to scoop up food into mouth and down esophagus
RNA retrovirus
regenerates by reverse transcriptase
Tagmosis
regional specialization of body (ie they have different tagmata of head, thorax, and abdomen) - degree varies with kids. ie centipedes have a higher degree than lobsters
ambulacra
regions with tube feet
radial (regulative) cleavage
regulative cleavage; deuterostomes; equal division of cells; stacked appearance; cell fate decided late in development
exotoxins
released by living, highly fatal (tetanus, cholera, plague, anthrax)
endotoxin
released when cell bursts (salmonella) rarely fatal
oxygenic photosynthesis
remove electrons from water
monocots
rep parts in 3, scattered vascular tissue, no secondary growth, parallel veins
Segmentation: -def -homoplasious or homologous?
repeated segments that may fuse into tagma for specialized functions homoplasious
cnidae:
specialized collection of cells for prey capture and defense Associated with stinging
define trochophore
specialized, free-swimming larval stage. Cilia are used for locomotion and feeding.
trochophore larva
specialized, free-swimming larval stage; has a mouth and an anus, can go out and feed; only in aquatic lophotrochozoans
trochophore larva:
spherical or pear-shaped and are girdled by a ring of cilia, the prototroch, that enables them to swim characteristic of marine annelids
what evolved on branch leading to: porifera (1)
spicules
Calcareous sponges
spicules of calcium carbonate
synapomorphies of panarthropoda
segmentation ventral nervous system
What structures are involved in Annelid movement?
segmentation, coelom, paired setae, and complex musculature -longitudinal muscles: contract and make segments fat -circular muscles: contract and makes segments skinny
heterospory
selaginella and seed plants
lycophytes
selaginella, lycopodium
ginkgo
separate plants, dichotomous, bad smell
paired setae
serve as anchoring points for movement -Present in most annelids (lost in leeches) -Come in pairs -Situated on parapodia in polychaetes
Aggregate fruits
several carpels
pandemic
sudden outbreak that spreads (world maybe)
Single-celled filaments called hyphae form the main body of a typical fungus. A disadvantage of having a body composed of single-celled filaments like this is that it is:
susceptible to desiccation
atypical composition of a gene
sushi
Lichens
symbiosis of fungi with photobiont -majority of body is thallus made up of fungal hyphae -food for wildlife -20000+ species form lichens -majority are Ascomycota (evolved independently, at least 8 times but has also been lost several times) -lichen forming fungi are obligately dependent on their photobiont -used as food, medicine, dye, chemical additives
What are synapomorphies of chordata?
synapomorphies (at least in embryo) - Notochord - Dorsal hollow nerve cord - Postanal tail
choanocytes
synapomorphy of Porifera; help with intracellular digestion and phagocytosis; help with water flow through the sponge; "collar cells"
spicules
synapomorphy of Porifera; supportive and defensive structures; vary in structure and chemistry (some are glass); a hard, calcareous skeletal element typical of sponges.
postanal tail
synapomorphy of chordates it is an extension of the body that runs past the anal opening, in some species it is only present in the embryo stage.
postanal tail
synapomorphy of chordates; an extension of the body that runs past the anal opening; may only be present in the embryo stage (humans)
Glass sponges and demosponges
siliceous spicules Demosponges --> have spongin (complex network of collagen) but no spicules; harvested for bath sponges
homoplasy
similarity in a trait among different organisms that has evolved independently, similarity of states contradicts phylogeny
homology
similarity in a trait among different organisms that is due to inheritance from a common ancestor, similarity of states reflects common ancestor, evolutionary history, trait evolution that mirrors phylogeny
principle of continuity
since the osculum is so much smaller than the total SA of the pores, the water shoots out with greater velocity
Classic view phylogeny shows that insects (hexapods) and myriapods are...
sister taxa
chlorophytes
sister to charophytes and land plants.
e2. reptiles
sister to mammals mainly lepidosaurs, turtles, crocodiles, and dinosaurs (including birds)
e3. mammals
sister to reptiles 1. prototherians ( echindna, duck billed playputs)== egg laying 2. marsupials== pouched mammals, isolated in Australia 3. eutherians== placental animals
spicuoles
skeleton pieces
leech characteristics
lack setae produce anesthetics, antigoagulant, and vasodilator
nauplius larva
larva for crustaceans
planula larva:
larva of cnidaria -Bilateral symmetry -Ciliated -Result of sexual reproduction → develops into polyp
Bipinnaria larva:
larva of echinoderms Bilateral symmetry Ciliated
3. Crustaceans
lineage of Anthropods that includes crabs, shrimp, krill, barnacles(sessile version of crab), roly poly ( sow bugs, terrestrial isopods), etc -three body tagmata -specialized appendages for sensing -dorsal carapace
4. Hexapods
lineage of Anthropods that includes insects -most diverse subgroup -just three insect orders contribute half of all described animal species :O (butterflies, ants, and beetles) -three tagmata (head, thorax, abdomen) -one antennae pair -three leg pairs -respiration by tracheae -wings - madibles (hugely modified now though)
1. Chelicerata
lineage of Anthropods that includes spiders, ticks, scorpions, horseshoe crab (crazy cool thing from lab) etc -two body tagmata -4 pair legs with pincers -predators & parasites
radial
lined up cells
Pseudocoelomates (roundworm)
lined with mesoderm but no mesoderm surrounds the internal organs
4. Cubozoa
small group that is extremely toxic. includes box and cube jellies - creepy lookin things with eyes
Cubozoa
small group, cube or box jellies, very toxic, some eyes with epidermal cornea, cellular lens, and multi-layered retina
Nanoarchaeota
small in deep sea vent off iceland
hemimetabolous
small increases in body size (cockroaches, grasshoppers, etc) egg → nymph → adult incomplete metamorphosis
DNA viruses
small pox, herpes
Mesoderm
source of most organs and organ systems
What is tagmatization?
specialization of regions of the body for specific functions
multicellular
specialize, less predation, efficient feeding, increased surface area to volume
Cnidocyte
specialized cell with unique stinging or adhesive structure called a cnida (most common type: nematocysts) - discharged suddenly by hydrostatic pressure, penetrating prey and injecting poison
cnidocyte
specialized cell with unique stinging or adhesive structure called a cnida that is discharged by hydrostatic pressure, penetrating prey and injecting poison
What is a cnidae?
specialized cells most often associated with stinging
What is cnidae?
specialized cells most often associated with stinging.
collagen
main component of connective tissue in many animals; depending upon the degree of mineralization, collagen tissues may be rigid (bone), compliant (tendon), or have a gradient from rigid to compliant (cartilage)
value of vascular cambium
maintain efficient transport rigid structural support (grow taller) formation of bark prevents water loss & infection
Explain arthropods compound eyes.
make up by a bunch of individually oriented ommatidium have wide vision and good motion detection but poor resolution
hyphae
make up the mycelium; high SA to V ratio; increase environmental contact (good for absorptive heterotrophy); forage by growth; susceptible to desiccation
Homosporous
male and female gametangia occur on each individual
Heterosporous
male and female gametangia occur on separate individuals
strobilus
male, modified leaves for scales
Reptile scales are homologous
mammal hair and bird feathers (epidermal)
2. Chordates
mammals, reptiles, fish, amphibians, birds etc 1. Lancelets 2. Tunicates 3. Vertebrates
dinoflagellates
marine, primary producers, golden brown, equitorial and longitudinal flagella, bioluminescent, red tide
extracellular matrix
material of heterogenous composition surrounding cells and performing many functions including adhesion of cells; provides structural and biochemical support to the surrounding cells
celomate
mesoderm lines cavity and gut, earth
What organisms are included in myriapoda?
millipede and centipede
parsimony informative
minimum number of steps for character change will differ
swim bladder
modified lungs (swim bladder and lungs can't occur together, because swim bladders are lungs); used to control buoyancy
aeolid nudibranchs
molluscs grazer complete one way gut bilateral traits: specialized muscular foot for locomotion radula and shell present sequestration of cnidocytes
california sea hare
molluscs grazer complete one way gut bilateral traits: specialized muscular foot for locomotion radula present
kellets whelk snail
molluscs predator complete one way gut bilateral traits: specialized muscular foot for locomotion radula and shell present
dorid nudibranchs
molluscs predator complete one way gut bilateral traits: specialized muscular foot for locomotion radula present sequestration of cnidocytes
bay mussel
molluscs suspension feeder complete one way gut bilateral traits: specialized muscular foot for locomotion radula and shell present
giant rock scallop
molluscs suspension feeder complete one way gut bilateral traits: specialized muscular foot for locomotion radula and shell present
smooth washington clam
molluscs suspension feeder complete one way gut bilateral traits: specialized muscular foot for locomotion radula and shell present
foot
molluscs use to aid in movement
ecdysis
molting
Ecdysis:
molting of a chitinous exoskeleton The animal slowly emerges from its old exoskeleton and remains vulnerable until it hardens
ecdysis
molting of the exoskeleton
Pteridophytes
monilophytes
cloroplast DNA inversion
monilophytes and seed plants
What are mono, diplo, and triploblastic? Give example of each. mono: one germ layer (sponges) diplo: two germ layers (cnidaria and ctenophore) triplo: three germ layers (bilaterians) Germ layer: embryonic tissue layers formed during early environment
mono: one germ layer (sponges) diplo: two germ layers (cnidaria and ctenophore) triplo: three germ layers (bilaterians) Germ layer: embryonic tissue layers formed during early environment
What are the characteristics of echinodermata?
Echinodermata • Synapomorphies - Pentaradial symmetry (as adults) - Endoskeleton of calcareous plates - Water vascular system • Epidermis - Spines or pedicellariae • No head or brain • Reproduction - Dioecious - External fertilization • All marine - Predators, grazers, suspension feeders
What is the endoskeleton in echinodermata?
Endoskeleton of Calcareous Plates • Echinoderms have an endoskeleton derived from mesoderm • The endoskeleton is covered in epidermis • The skeletal plates are connected by catch collagen which can be stiff or flexible which controls body tone without muscle
endosymbiosis levels
Endosymbiosis: when an organism (the host) brings in another organism (the symbiont) inside of its cell, only really works w/ eukaryotic cells as hosts. Primary--symbiont has not experienced a prior symbiosis, secondary--symbiont has undergone primary endosymbiosis
T/F: Universal homologies include DNA, ribsosomes, and mitochondria.
False
What are choanocytes?
Flagellated cells that capture food and create current within the cell. Also known as collar cells
Chitons
Flattened, multiple shell plates, multiple gills
Acoelomate
Flatworm
Endoderm
Gastrodermis
adaptive value of heterospory
Genetic diversity. Separate, unisexual male and female gametophytes reduces the probability of self fertilization, which maintains genetic diversity in the population via outcrossing Parental investment. Provisioning the megaspore & thus female gametophyte with nutrients
What types of feeders are Mollusca?
Herbivores, detritivores, carnivores, filter feeders, parasites
Sponge sexual reproduction
Hermaphrodites but not self-fertilizing; sperm and eggs produced at different times and sperm released into environment through the aquiferous system; reach the egg by crossing cellular barrier of choanocytes; enter the mesohyl; locate the egg and fertilize it
Know the diagnostic features of Flowering Plants (Angiosperms)
Heterospory is a diagnostic feature of land plants, as well as flower, carpel, highly reduced female gametophyte, and double fertilization
Bipinnaria larva
It is the first stage of development for most if not all species of starfishes
Carapace
It is the hard shell on different organisms can be in turtles or lobsters, arachnids
Blastopore
It is the opening post the developmental stage that would eventually become either the protostome (mouth first) or deuterostome (anus first)
parsimony
Occam's razor, prefer the competing hypothesis that minimizes the number of ad hoc/just so assumptions. We prefer evolutionary history that minimizes the number of required changes
Major groups of Annelid
Polychaeta (most likely paraphyletic) and Clitellata
Polychaete Worms
Polychaete (Annelida) • A diverse, ecologically varied group with numerous life histories. • Predators, filter feeders, and suspension feeders.
What is stridulation?
Pulling the file of one wing over the scraper on the wing underneath to create sound
progression of adaptations in chordata (put in order) -bone -bone lost -jaws -vertebrae -cranium
REMEMBER: Corn Vanishes Just By Biting Cranium Vertebrae Jaws Bone Bone lost
main features of ctenophores
Radial symmetry All marine Diploblastic Have neurons and muscles Complete gut No regional specialization Predatory, cannibals
Cnidaria Features
Radial symmetry, around a longitudinal axis with oral (open) and aboral ends; often with tentacles around the oral end; incomplete gut; diploblastic; nerve net: diffuse, non-centralized nervous system; muscle cells present but simple
notochord
synapomorphy of chordates; cartilaginous support structure; support and muscle attachment; derived from mesoderm; often becomes intervertebral discs in most vertebrates (like humans)
Evolution of powered flight in insects: is it a synapomorphy?
synapomorphy of pterygote insects (but was lost in some)
Thorax:
tagma present in many organisms
What organism(s) are in Platyhelminthes?
tapeworms
If petals and sepals are indistinguishable
tepals
Character state
the actual state of the character (post anal tail is absent, animal is not able to fly etc.)
pupa
the encased developmental stage between the larva and the adult in certain insects that undergo complete metamorphosis
Enterocoely:
the process by which deuterostomes develop mesoderms (The endoderm forms pouches that then detach and form hollow cavities)
In hemimetabolous organisms, larvae and adults use (different/the same) food resource
the same
pharyngeal slits:
the slits that water leaves the body through after the pharynx has pulled water in for feeding/breathing -Not a synapomorphy bc evolved in MRCA of all deuterostomes, not just chordata
Nematocysts:
the stinging organ in cnidaria that contains toxins Gets signal → releases coiled stinger Organ within cnidae
extant
the taxa(on) still exists
water vascular system
the water vascular system is used to slowly pull apart muscles along with specialized "catch collagen"
Why are tunicates considered chordata?
their larval stage possesses all of the synapomorphies characteristic of chordates, it just loses them
Colonization of land involved...
use of lungs (modified swim bladder), modification of jointed fins to become limbs
Cnidarian life cycle
usually an alteration between asexual polyp and sexual medusa stage So, 1. Medusae will swim around and release sperm/eggs (can be monoecious or dioecious most times they are sexually variable) >gastulation occurs< 2. then the zygote will develop into a ciliated larva 3. larva settles and forms polyp 4. polyp asexually buds making polyp colonies some of which will produce and release medusae
abnormal sequence similarity
usually low AG ratio, small section of high AG ratio
Mollusc reproduction
varies; most are dioecious; external fertilization (chitons and bivalves) or internal fertilization (gastropods and cephalopods)
rhizoids
water absorbing
problems with parsimony
we assume the cost is the same for all steps, not actually the case ie character developed costs more than character lost
What feature of cubozoan cnidarians is unusual in the context of cnidarian evolution?
well-developed eyes
What is sea star wasting syndrome?
• Mysterious, recurrent disease with periodic outbreaks along the Pacific Coast • High mortality rate, likely cause by a virus (densovirus) • Significant impacts to invertebrate communities
What is important about bird phylogeny?
• Birds and Crocodiles are the last remaining lineages within Archosauria. • Birds are not only part of the clade Reptilia, they are within the Dinosauri
How do vertebrates develop in chordata?
• Bone is secreted by the ends of segmented muscle blocks. • The bone breaks up the notochord and leaves behind intervertebral discs.
What are lobe finned fish?
• Bony fish that lack bony spines (rays) as part of their fins • The fins are joined to the body by a single bone • Coelacanths
What are Scyphozoa?
• Both polyp and medusa forms. • Includes many common jellies; moon jellies - cnidaria
What are hydrozoans?
• Both solitary and colonial (siphonophore) forms. - By-the-wind sailor (solitary) and Portugese man-o-war (colonial) - cnidaria
What causes Lyme disease?
• Caused by three different bacteria (Spirochetes) • Spread by ticks in the genus Ixodes • Produces characteristic 'bulls-eye' pattern
define visceral mass (mollusca)
• Central mass that encloses digestive, circulatory, excretory, and reproductive organs (not including foot).
define radial cleavage
• Characteristic of Deuterostomes • Equal division of cells, stacked appearance • Cell fate determined by proximity to other cells and late in development. • Anus is formed first, then the mouth.
define spiral cleavage
• Characteristic of Protostomes* • Unequal division of cells, embryo has a distinct top and bottom • Cell fate determined early. • Mouth is formed first, then the anus.
What kind of communication do cephalopoda (mollusca) have?
• Communication in cephalopods is highly visual • Chromatophores are able to mimic color and texture
What is special about ants?
• Complex social organization and communication • Division of labor, non-reproductive worker caste
What are nudibranchs (gastropods)?
• Diverse, colorful, no shell, all marine, predaceous
What are the characteristics of pork tapeworm (Taenia)?
• Encysted larvae in undercooked pork (can be in humans as well). • Cysts form in muscle, brain, or eyes. - platyhelminthes
What are the key features of birds?
• Endothermic (produce and maintain heat) • Flight and feathers • Hollow bones • Efficient respiration (air sacs) & high metabolism
What are the general characteristics of echinodermata?
• Epidermis - Spines or pedicellariae • No head or brain • Reproduction - Dioecious - External fertilization • All marine - Predators, grazers, suspension feeders
define mantle (mollusca)
• Fold of tissue along the dorsal surface that covers the visceral mass and encloses the mantle cavity. • Secretes the shell (when present).
What is a dorsal hollow nerve cord?
• Formed by an embryonic folding of the ectoderm • Develops into the central nervous system in vertebrates
What are lungfish?
• Have functional gills and lungs. • Fossil lungfish (380 may) closely resemble extant species. • Some species can survive out of the water for extended periods.
What is the difference in how body cavities are formed in protostomes and deuterostomes
• In protostomes, the coelom forms from a mass of cells which splits. • In deuterostomes, the coelom forms from mesdodermal pouches.
How did jaws evolve in chordata?
• Jaws are derived from gill arches that supported pharyngeal slits. • Transition from cartilaginous supports to bone; the anterior arches modified into jaws.
define foot (mollusca)
• Large, ventral muscle mass. • Used for locomotion, burrowing, and feeding. • Modified as a siphon (bivalves) or tentacles (cephalopods).
What is a ray-finned fish?
• Largest group of bony fish; 30,000 described species • Both freshwater and marine, diverse feeding habits
What are bipinnaria larva?
• Larvae are all bilateral, adults are pentaradial with exceptions. • Sand dollars and sea cucumbers have secondary bilateral symmetry.
How did lungs evolve?
• Lungs, i.e. gas filled organs that function in respiration evolved in the MRCA of Osteichthyans. • The MRCA of osteichthyans lived in oxygen poor conditions and evolved an air pocket off the digestive tract. • There are two modern derivatives: 1) swim bladder, and 2) lungs
How do spiders reproduce?
• Males have modified pedipalps for sperm delivery • Female genitalia is internal, with some external parts • Elaborate courtship and behavior • Eggs are deposited into an eggsac, protected by the female
What are examples of symbiosis in sponges?
• Many sponges have mutualistic algae or cyanobacteria. • Some sponges also have commensal organisms that use them for shelter. - Classic case: shrimp (Spongicola) that is an obligate inhabitant of a glass sponge (Euplectella).
What is the extracellular matrix (ECM)?
• Mixture of non-living material that provides support and facilitates cell-to-cell adhesion. • Most cells need the ECM to survive. • Associated with all types of connective tissues; collagen.
How do Echinodermata reproduce?
• Mostly dioecious with external fertilization; spawning behavior • Asexual reproduction by regeneration
How do mollusca reproduction?
• Mostly dioecious, some hermaphrodites. • External fertilization (chitons, bivalves), and internal fertilization (gastropods, cephalopods). • Wide variety of complex mating rituals in some taxa.
What are paired setae?
• Paired setae are present in most annelids (lost in leeches) • Serve as anchoring points for movement • Situated on parapodia in polychaetes - made of chitin
Ctenophores
"Comb Jellies" -radial symmetry -diploblastic -complete gut -nerve net -simple musculature mainly eat plankton and other ctenophores (cool video from class) recent phylogeny suggest they are sister to all other Metazoa suggesting that nerves and muscles originated twice
What innovations of amniotes have enabled them to successfully adapt to a land-based existence.
1.Impermeable skin 2.Efficient Kidneys 3.Desiccation 4.resistant egg 5.No metamorphic larval stage
Crustacean characteristics
1.Three body tagmata: head, thorax, abdomen 2. Appendages specialized for sensing, locomotion, resp, etc 3. Dorsal carapce (head and thorax) 4. Diverse feeding habits
Characteristics of Chelicerata
1.Two body tagmata: cephalothorax and abdomen 2.Appendages such as chelicerae, pedipalps, usually 4 pairs of legs 3. Mostly predators and parasites 4. Spiders use silk
characterisitics of echinoderms
1.calcareous endoskeleton composed of plates/ossicles often with spines 2. pentaradial symmetry with no head 3. complex water vascular system, derived from coelom: functions in gas exchange, locomotion, and feeding 4. complete gut with regional specialization 5.diffuse nervous system with no brain 5. respiration and excretion by diffusion across epidermis
sister group
2 groups that are each other's closest relatives - share common ancestor
diploblastic
2 layers (ectoderm + endoderm) ex ctenophore and cnidaria
Basidiomycota
2nd largest group of fungi; makes basidium spores; variable fruiting bodies
- sense RNA
3-5. made into sense first. or can bind to sense to stop translation.
Cubozoa:
(box jellies): BOTH stages are present (polyp reduced and medusa). Super predator, deadly, fast swimming and toxic to any cnidarian Specialized organs "eye" like ← can someone explain what we need to know on this??
gram (+/-) are stained purple
+
Annelida
- bilaterally symmetrical - coelomate, protostomes - segmented body - each segment paired with chitinous setae - polychaetes --> segments with parapodia - body wall with inner longitudinal and outs circular muscles - presegmental head and postsegmental terminal area - closed circulatory system, cutaneous respiration - complete gut - well developed excretory system and central nervous system
What are Xiphosura
- chelicerata - horseshoe crab • Few living species, but an extensive fossil record. • Body morphology is largely unchanged (stasis) for 400
What are placoderms?
- chordata - armored fish • Extinct, armor- plated, first vertebrates to have jaws • At least one species gave live birth • The 'teeth' of placoderms are bony plates
Endostyle
- ciliated groove on the ventral surface of the pharynx - found in lancelets, tunicates, and in the larvae of lampreys - in lampreys --> metamorphoses into the thyroid gland in adults; homologous to the thyroid gland found in vertebrates
Oligochaetes
- classic deposit feeders -cross-fertilizing hermaphrodites held together during mating with mucus secreted by clitellum - eggs and sperm placed in a protective cocoon from which small worms emerge
What are myxozoans?
- cnidaria • Highly modified, parasitic cnidarians that specialize on freshwater fish. • Life cycle has multiple hosts (Tubifex worms) and salmonid fish.
sea stars
- common, largely predatory
Holometabolous metamorphosis
- complete egg --> larva --> pupa --> adult - 85% of all insects
Notochord
- dorsal supporting rod, semi-rigid yet flexible - develops in embryo, replaced by vertebrae in most vertebrates
Prothotherians
- egg laying mammals - echidna and platypus
Ctenophores (comb jellies)
- enigmatic group of uncertain position - radial symmetry - diploblastic development - complete gut - nervous system - simple musculature
What are diptera?
- flies (hexapoda) • 150,000 species • One pair of wings modified into counterweights; halteres • Great diversity in life history; herbivores, predators, parasites, etc • Medical significance
sea lilies and feather stars
- flower shaped body, oral surface facing up - sea lilies --> attached to stalk - feather stars --> more mobile
enterocoely
- found in deuterostomes
Schizocoely
- found in protostomes
Hemimetabolous metamorphosis
- incomplete egg --> nymph -->adult
Eusocial insects
- live in colonies with divisions of labor - some individuals reproduce but most belong to a non-reproductive worker caste - termites, ants, some bees and wasps - often ecologically dominant and reach high densities
Brittle stars
- long slender arms - locomotion by arm movement - abundant but secretive
What are the characteristics of the mantis shrimp?
- malacostraca • Amazing predators with specialized morphology • Excellent vision, eyes on stalks and can freely rotate • Two types of hunting strategies: 1) spearing, 2) smashing
Nudibranchs (sea slugs)
- marine gastropods without a shell - many species are brightly called due to toxicity - ingest cnidarian tissue and store undischarged nematocysts in elongated protrusions on their backs (cerata) - expropriates the defensive mechanisms of other animals
What are ephemeroptera?
- mayflies - paleoptera • Two pairs of wings, cannot be folded horizontally. • Aquatic larvae live up to one year before molting to the adult stage which may last only hours.
What are diplopoda?
- millipedes (Myriopoda) • Two pairs of legs per segment • Many different body morphologies • Some are bioluminescent and produce cyanide as defense • All are herbivores
Gastropods
- shell in one piece usually coiled - torsion - mostly herbivores
What are hagfishes?
- slime eels (chordata) • No bone, no jaws, no vertebrae, but they have a cranium. • Predators on polychaetes or scavengers
Choanoflagellates
- small group of aquatic heterotrohic eukaryotes - 140 species, some strictly unicellular others colonial - cell structure similar to sponge choanocytes - cell ovoid, with a collar of microvilli (tentacles) surrounding the single flagellum
Trend of social insects
- social insects are ecologically dominant species because they can reach high densities. - Ex: termites, ants, some bees, some wasps - often have a worker caste system with queen( who are terrifyingly fertile)
Sea cucumbers
- soft-bodied and slug-like - greatly elongated oral/aboral axis, secondarily bilateral - grazers, suspension feeders
Myriapoda (centipedes, millipedes)
- two body tagmata 1. cephalization 2. abdomen - numerous segments - centipedes --> carnivorous with poison fangs, one pair or legs per segment - millipedes --> scavengers, two pairs of legs per body segment
Chelicerata (arachnids)
- two body tagmata 1. cephalization 2. adbomen - characteristic appendages 1. chelicerae (pincers) 2. pedipalps 3. usually 4 pairs of legs - mostly predators and parasites - spiders use silk to snare prey
Anthropoda reproduction
-Dioecious -internal fertilization -often larval stage - complex metamorphosis in some insects and crustaceans
key features of bilateria
-Have bilateral symmetry -Cephalized: have well defined head with a concentration of sense organs -Segmentation: repeated segments that may fuse into tagma for specialized functions -Triploblastic Blastula and gastrula
a. hag fish
-NO bone or JAWS, - tounge with rasping teeth - produce copious amounts of slime -scavege on dead animal carcasses
reproduction of spiders
-Pedipalps modified as sperm delivery organs -Sperm delivered onto web (egg sac) where eggs or deposited -external fertilization -Female protects egg sac
Key innovations of tetrapods (5)
-Use of lungs -Modifications of jointed fins to become limbs -Modifications of skin -Internal fertilization -Evolution of shelled eggs with membranes (not in amphibians)
1. Echinoderms
-aquatic bottom dwelling 1. calcareous endoskeleton : has skeletal plates (aka ossicles that are connected by collagen) with spines or "pincher" structures. derives from the mesoderm and is covered in epidermis 2. Pentaradial Symmetry: no head but oral/aboral axis (however larvae is bilateral symmetry) has reversion to bilateral in sea cucumbers and sand dollars 3. Water Vascular System : Gas exchange, locomotion, feeding 1. Sea lillies, feather starts ( oral side up) 2. sea starts ( predatory) 3. brittle starts ( long slender arm thing) 4. sea urchins ( no arms, but spiky- purple thing from lab) they consume kelp so its important things like otters eat them 5. sea cucumbers( soft bodied slugs, partial bilateral, gross natural defense:their guts)
b. lampreys
-bloodsucking parasite of fish - essentially leech for fish - NO bone or JAWS - sucker like mouth - larvae live in mud
Understand the information conveyed by the branch lengths of -cladograms -chronograms
-cladograms= (nothing) -chronograms= (time)
What are some of its major groups?
-crinoidea - sea lilies & feather stars (652 spp.) -asteroidea - sea stars (1500 spp.) -ophiuroidea - brittle stars (2000 spp) -echinoidea: sea urchins (950 spp) -holothuroidea: sea cucumbers (1150 spp)
Explain what are cnidocytes, nematocysts, muscle, diploblasty? What are their function in cnidarians?
-diploblasty: contains and endoderm and ectoderm -The cnidocyte is the area where the nematocyst is housed in and nematocysts are the things that are shot out of a cnidarian
Gastrulation
-formation of cell layers by invagination of blastula that forms the gastrula - can be diploblastic or triploblastic.
e1. amphibians
-lose water rapidly through skin, - early development requires water often can either be: 1. caecilliams ( limbless) 2. frogs and toads ( tailess) 3. salamanders (tailed) - many population are endagered because of the pathogenic chytrid fungus we talked about previously
Polyp:
-sessile form of cnidaria (aka "anemone") -Mouth faces up -Produces medusa through asexual reproduction
b. Bivavles
-shell in two parts -non sessile -filter feeders= NO radula -use siphon for food and water many are endangered given rising water temps also, some freshwater clams include a parasitic larval stage that mimics a minnow so fish eat it and become infected
Modifications to body plan (look over lecture 30 slide 17)
-shell plates and repeated gills (chitons) - torsion (gastropods) -burrowing foot (bivalves) -tentacles +siphon (cephalopods)
Choanoflagellates
-sister clade to animals -aquatic heterotrophic eukaryotes -has an oval cell body with a collar of microvilli(tenticales) that surround a single flagellum to help locomotion and feeding on trapped bacteria
c. Gastropods
-univalved but usually a coiled shell -torsion (twisting so anus lies above head=gross) -herbivores (some carnivores like cone snails that use harpoon radula at prey)
Explain the mechanism of water pumping in sponges. How are they able to do that?
-water and food particles go in via pores and water comes out cia osculum -Inhalent surface pores collect the water (sponge), the incurrent canals channel water to spherical choanocyte chambers where the flagellated choanocytes pump water in. The excurrent canal system moves the water out of the champers and is expelled through osculum.
complete gut
1 way gut - present in all animal phyla except for porifera and cnidaria
complete gut
1 way gut that is developed in most of the organism following cnidaria and constitutes of a single pathway from where food enters through one end and exits through another.
What are the three phylum that are deuterostomes?
1) Chordates, 2) Echinoderms, and 3) Hemichordates
Hydrostatic skeleton in annelids
1) Contraction of circular muscles---->elongation of body segments 2) Contraction of longitudinal muscles----->shortening of body segments
What are synapomorphies of amniotes?
1) Impermeable skin 2) Efficient kidneys 3) Amniote egg (resists desiccation)
complete gut
1-way; two openings (mouth and anus); Ctenophora, Mollusca, Annelida, Nematoda, Arthropoda, Echinodermata, and Chordata
hexapoda characteristics
1. 3 tagmata: head, thorax, and abdomen 2. 1 pair of antennae 3. 3 pairs of legs 4. respiration by tracheae 5. originally mouthparts with mandibles 6. wings
Cnidarian Clade
1. Anthozoa (sea anemones, corals, sea pen) : no medusa stage, 2. Hydrozoa 3. Scyphozoa (sea jellies) 4. Cubozoa (cube/box jellies)
4 Major Cnidarian Clades
1. Anthozoa --> sea anemones, coral, sea pens 2. Hydrozoa --> hydrozoans 3. Scyphozoa --> sea jellies 4. Cubozoa --> cube or box jellies
Four major groups of Arthropod
1. Chelicerata 2. Myriapoda 3. Crustacea 4. Hexapoda
What are the three types of evidence that choanoflagellates are the sister group of metazoa?
1. Collar cells (choanocytes) also seen in sponges (and other animals). 2. DNA sequence data. 3. Homologous cell signaling and adhesion genes (shh).
Diploblastic lineages
1. Ctenophores 2. Placozoans 3. Cnidarians
Synapomorphies of Eumetazoa
1. Gastrulation: formation of gut for extracellular digestion 2. Diploblasty (later modified to triploblasty) 3. Nervous system 4. Musculature
Sponge lineages
1. Glass sponge (sister to demo) 2. Demosponges (majority of sponge lineages) 3. Calcareous sponges (only clade with calcium carbonate spicules)
What are advantages to multicellularity?
1. Increased Size • Safety from predation • Efficient feeding 2. Division of Labor • Specialization • Increased complexity 3. Dispersal • Specialization of cells devoted to producing gametes. • Gametes tend to travel further.
Innovations that arose in Chordates
1. Internal skeleton with vertebrae 2. Jaws 3. Two pair of walking limbs
Innovations that arose within chordates
1. Internal skeleton with vertebrae 2. Jaws 3. Two pairs of walking limbs
3 Major Chordate Clades
1. Lancelets 2. Tunicates 3. Vertebrates
What key features were gained to transition to land in chordata?
1. Use of lungs 2. Modification of jointed fins to become limbs 3. Modifications to the skin 4. Internal fertilization 5. Evolution of shelled eggs with membranes (not in amphibians
Metazoa
1. multicellular eukaryotes 2. diplontic life cycle 3. Heterotrophs 4. Food ingested (nutrient exchange) 5. Spermatozoa (distinct male gametes) 6. Motility ( at least one stage) 7. Collagen (in extracellular matrix) 8. distinct cell junctions 9. distinct developmet ( zygote>blastula>gastrula) 10. animal specific miRNAs
tissues in the gymnosperm seed (3)
1. new diploid tissue (embryo) 2. remaining haploid gametophyte (surrounding embryo) 3. diploid integument (seed coat) from parent sporophyte
What are synapomorphies of chordates? What function do these characters serve?
1. notochord = cartelagenous support structure that also allows for muscle attachment; from mesoderm; also aids in propulsion 2. dorsal hollow nerve cord = forms from folded ectoderm; becomes nervous system in vertebrates 3. postanal tail = provides propulsion
gromia
1.2 in diameter single cell (in Rhizaria)
chitons: ___ shell plates?
8 shell plates
26. What factors have contributed to the success of insects? Be able to describe this in terms of terms of their morphology, development, feeding, ecology, etc.
85% of all insects demonstrate complete metamorphosis with highly specialized and diverse lifestyles which support their diverse ecology of being predators, herbivores, or parasitoids, pollinators and pests. It has allowed them to develop many unique defenses etc. Complete metamorphosis is also advantageous because adults and larvae have different diets, so they can specialize to their respective food source.
Importance of the human microbiome
90% of the cells in the human body are microbial cells; skin, conjunctiva, oral cavity, intestinal tract, upper respiratory tract, urogenital tract; each person has a different finger tip microbial community; Amniotic fluid bacteria, breast milk, external breast microbes, uterus, and vagina are all important for helping a baby develop an immune system when it is first born; helps with digestion and many other body functions
---now were done with lophotrochozoans and move to ecdysozoan part of protosomes----
:)
incomplete gut
A 2 way gut, present in mostly cnidaria where there is a single opening from where food enters and leaves
closed circulatory system
A circulatory system in which the oxygen-carrying blood cells never leave the blood vessels
open circulatory system
A circulatory system that allows the blood to flow out of the blood vessels and into various body cavities so that the cells are in direct contact with the blood
What is a coelom? What are the three types of coela that we discussed in lecture? What are the differences between coelom formation in protostomes and deuterostomes?
A coelom is the body cavity in between the intestinal cavity and the gut wall. There are three different types of coelom: acoelomate found in flatworms, pseudocoelomate in roundworms, and coelomate in everything else.
What are the characteristics of panarthropoda?
A diverse assemblage of animals characterized by segmentation, a ventral nervous system and a compound eye
Blastula
A hollow ball of cells, all metazoa have this
Nauplius
A larvae in the crustacean life cycle (motile)
Marsupials
A mammal of an order whose members are born incompletely developed and are typically carried and suckled in a pouch on the mother's belly; spotted-tailed native cat, marsupial mole, sugar glider, numbat, crest-tailed marsupial mouse, wombat, kangaroo, etc
+ sense RNA
5 to 3. directly to protein
What are Crinoidea?
600 described extant species, many more in the fossil record • Both shallow water and deep trenches • Oral surface in dorsal, aboral surface is ventral • Sea Lily's are attached to the surface by a stalk - echinodermata
Mantle in Mollusca
Dorsal body wall: fold of tissue that covers the visceral mass and encloses the mantle cavity (containing gills), shell (when present) is secreted by mantle
Know the diagnostic features of Flowering Plants (Angiosperms)
Double ferilization Endosperm Carpel Flowers fruit Reduced megagametophyes
colonial and multicellular
ECM, communication
How do annelids move?
Each segment can change shape for locomotion • Longitudinal muscles contract, causing the segment to get 'fat' • Circular muscles contract, causing the segment to get 'skinny'
Describe movement in an earthworm.
Each segment changes shape to move Longitudinal muscles make segment fat Circular muscles make segment skinny Paired setae serve as anchoring points
Endomycorrihzea
Arbuscular mycorrhizae, Hyphae enter cell walls, but not plasma membrane, Most common, vesicles
What was the function of pro-wings?
Argument that pro-wings arose from gill-like structures in larval aquatic stage, that were retained and modified in adults for other purposes ie thermoregulation, gliding, sailing
What are placoderms and why are they important
Armor-plated predators before which jaws likely evolved
Placoderms
Armor-plated predators with jaws and teeth-like structures; first jawed vertebrate; originated in Silurian, extinct by end of Devonian
Crustaceans
Arthropod; crabs, shrimp, lobsters, barnacles, isopods, copepods, etc; three body tagmata=head, thorax, and abdomen; appendages (some two-branched) specialized for sensing, locomotion, respiration, etc; dorsal carapace; diverse feeding habits (predators, filter feeders, scavengers...)
What are pancrustacea?
Arthropoda. Clade that includes Malacostraca, Cirripedia, and Hexapoda
What groups are in Ecdysozoa?
Arthropods and Nematodes
What groups comprise Ecdysozoa (as learned in lecture)? What is ecdysis? Specifically, what is being shed?
Arthropods and nematodes have comprise of ecdysis which is the molting of chitinous exoskeleton. The old exoskeleton of the animal is being shed for a new one to be had, the new one is vulnerable until it hardens.
Why do we consider arthropods as hyperdiverse? Which groups contain the largest number of species and why do you think this is so?
Arthropods are hyperdiverse because there are different species that are in between them. There is different type of reproduction and metamorphosis within singular species.
What is the difference between segmentation and tagmatization? What animal groups show evidence of segmentation?
Arthropods have multiple segments that have been fused into tagma that perform special functions.That means that animals utilize the segmentation to join and appropriate its usage. All arthropods are segmented
Myriapoda
Arthropods; complete gut; protostomes; triploblastic; bilateral symmetry; centipedes and millipedes; two body tagmata (head and trunk); numerous segments, each with one (centipede) or two (millipede) pairs of legs; centipedes=carnivorous with poison fangs; millipedes=scavengers (some secrete cyanide in defense)
Hexapods
Arthropods; triploblastic; bilateral symmetry; complete gut; protostomes; insects; three tagmata: head, thorax, and abdomen; one pair of antennae (two pairs in other crustaceans); three pairs of legs (located on the thorax); respiration by tracheae; originally=mouthparts with mandibles; wings evolved once
Why do tunicates appear to contradict the synapomorphies of chordates? What evidence supports their placement in Chordata?
As adults they lack all the synapomorphies of chordates, however we see all of these features in the larval stage, which goes through metamorphosis to the adult stage. There is evidence from the larval stage that they were present then lost.
1. Nematodes
Ecdysozoan family includes round worms and many species of ag and medical uses - have pseudocoelomate
Sea Cucumbers (Holothuroidea)
Echindermata; deuterstomes; triploid; soft-bodied and slug-like (ossicles much reduced); greatly elongated oral/aboral axis, secondarily bilateral; grazers, suspension feeders
What group were pharyngeal slits lost in?
Echinodermata
Sea stars (Asteroidea)
Echinoderms; Deuterostomes; Triploblastic; complete gut; pentaradial symmetry; common, largely predatory
Mesoglea
Ectoderm and endoderm
Biofilm steps
Attachment and aggregation (free-swimming prokaryotes bind to a surface, grow and divide) => extracellular matrix production => behavior and communication (signal molecules to attract same species) => generation of heterogeneity (signal molecules to attract different species)
Why does modularity in the body plan promote the evolution of improved performance? A) Modular animals have more parts B) Modularity allows functional specialization of body parts C) Modularity allows animals to be bigger D) Body parts can be damaged without loss of function to entire body
B) Modularity allows functional specialization of body parts
What is quorum sensing?
Bacteria "talk" to each other Bacteria are "multi-cellular" Bacteria can distinguish self from other Discovered by Bonnie Bassler and team Bacteria send out signal and other bacteria can understand them and identify them
mosses
Bryophyta, sporophyte and gametophyte grow at same time
T/F: Cyanobacteria use chloroplasts to perform photosynthesis.
False
Where the great Amazon River flows into the Atlantic Ocean on the coast of Brazil it creates a huge plume of river water in the ocean. Beneath this plume lie vast reefs dominated by sponges. It is the world's greatest sponge honey-hole. Why do the sponges like this location so much? A) The water from the Amazon is warm B) The water from the Amazon kills or discourages would-be competitors C) The Amazon plume is rich in organic particles which sponges eat D) They are the only animals that can withstand flowing river water E) Because it is dark
C) The Amazon plume is rich in organic particles which sponges eat
Which of the following is a synapomorphy for Arthropoda? A) muscle B) vertebral column C) jointed appendages D) triploblasty E) segmented body plan
C) jointed appendages
Describe feeding in sea stars. What are the functions of the water vascular system and catch collagen in their feeding behavior?
Feeding is by use of everting their stomach. Sea stars use a hydraulic system controlled by locomotion and their water vascular system for feeding, water transportation and respiration. Water enters through the pores and circulates through the canals that lead to the tube feet.
Extant clades of Amphibians
Caecilians (limbless), frogs and toads (tailless), and salamanders (tailed)
Alkaloids
Caffeine, nicotine, cocaine, morphine, strychnine, quinine, ephedrine
Chelicerae
Can be either a pair of appendages at the front of the mouth, look like modified pincers.
Are Cnidarians herbivorous, carnivorous, or omnivorous?
Carnivorous
cartilage
Cartilage cells surrounded by ECM, before bone evolved, found in sharks (bone lost)
What are gap junctions?
Cell junction that does communication
What are desmosomes?
Cell junction that link adjacent cells
What are tight junctions?
Cell junction that stitch cells together
Radial Cleavage
Cells accumulate in even, symmetrical layers
Spiral Cleavage
Cells divide at an oblique angle to the animal-vegetal axis, and new cells lie in furrows between existing ones; many Lophotrochozoans
What groups comprise Chelicerata? How are they distinguished from other arthropods?
Chelicerata include spiders, scorpions, horseshoe crabs, and mites and ticks. They have two tagmata (cephalothorax, abdomen), Chelicerae(,pair of appendages in front of the mouth in arachnids and some other arthropods, usually modified as pincer-like claws), Four pairs of walking legs and pedipalps.
Major groups of Arthropoda
Chelicerata, Myriapoda, Crustacea, Hexapoda
arthropods
Chelicerata-arachnids, horseshoe crab, Myriapoda-centipedes, millipedes, Crustacea-crabs, shrimp, lobsters, barnacles, Hexapoda-insects and allies (respiration by tracheae)
Modifications to generalized molluscan body plan
Chitons (shell plates and repeated gills) and gastropods (torsion)
Modification to generalized molluscan body plan
Chitons have shell plates/repeated gills and gastropods have torsion Bivalves have a burrowing foot and cephalopods have arms/tentacles+ siphon for propulsion
Major clades of Mollusca
Chitons, gastropods, bivalves, cephalopods
choanoflagellate cell and colony
Choanoflagellate has a single, posterior flagellum, and each singular choanoflagellate cell colonizes around a single stalk Have a collar Choanoflagellate colonies formed exclusively by dividing cells staying together. Have Rosette and Chain colonies that are formed by the slow swimmers
________ are the sister group of animals
Choanoflagellates
Opisthokonts Include (3)
Choanoflagellates Animals Fungi
What specific evidence supports choanoflagellates as the sister group of Metazoa?
Choanoflagellates are the sister group to metazoa because of the choanocytes that are also seen on sponges, they also have DNA sequence data and have homologous cell signaling and adhesion genes
Symmetry
An animal is symmetrical if at least one plane can divide it into two similar, mirror-image halves
mycorrhizae
An association of the root of a plant with the mycelium of a fungus; increase plant's ability to take in more water
Curare
D-tubocurarine: Muscle relaxant, alkaloid, paralysis
Which group of Cnidarians has the most living species? A. Cubozoans (20) B. Schyphozoans (200) C. Hydrozoans (3000) D. Anthozoans(6000)
D. Anthozoans(6000)
Korarchaeota
DNA isolated from hot springs
thermus aquaticus
DNA polymerase for PCR
Ostracoderms
Heavily armored (bony), extinct jawless fish; probably filter feeders and scavengers
Chelicerata
Horeshoe crabs, scorpions, mites, ticks, spiders; two body tagmata (cephalothorax and abdomen); characteristic appendages (chelicerae=pincers, pedipalps, usually four pairs of legs); mostly predators and parasites; spiders use silk (produced by glands in abdomen) to snare prey
Sheep liver fluke (Dicroceoelim) life cycle
Illustrates parasite-induced behavior modification; fluke eggs shed in sheep feces---->snail becomes infected by eating feces----->ant becomes infected by consuming contaminated snail slime----->some fluke larva migrate to ant brain: induce change in behavior----->ant climbs vegetation (instead of returning to nest), enhancing transmission to grazing sheep
What key innovations to terrestrial environments do amniotes posses
Impermeable skin Efficient kidneys Amniote egg with shell and membranes that resist desiccation
phloem
Information-Superhighway
Cnidarian/nudibranch story
Plumed sea slugs feed primarily on sea anemones and hydroids; have elongated protrusions (cerata) on their back; ingest the nematocysts and transport them undischarged to the tips of the cerata (they are placed in sacs that open to the outside), the nematocysts are then used by the slug for its own defense
What are chitons?
Polyplacopohora: Chitons (mollusca) • Dorsoventrally flattened • 8 shell plates • Graze rocks with radula • All marine, mostly intertidal
Anthozoa:
Polyps only, can be solitary or colonial. (Includes anemones, corals, sea fans) Has the most living species
What is the key feature of opisthokonts?
Posterior flagellum, if present
secondary growth
Produced by lateral meristems Meristematic cells give rise to many tissues Vascular cambium: ring of cells between primary xylem and phloem, allows shoot and root to increase in girth.Produces secondary xylem to interior (gives rise to wood), secondary phloem to exterior (gives rise to bark) Secondary vascular tissues maintain efficient transport as plant ages Rigid structural support allows plants to grow taller, compete more effectively for light & enhance dispersal Formation of bark prevents water loss and infection
Developmental tendencies of protostomes and deuterostomes
Protostomes: mesoderm forms near lip of blastopore; coelom (if present) formed by splitting of mesoderm Deuterostomes: mesoderm and coelom form from out-pocketing of gut wall
Major clades of mammals
Prototherians (echidna, duck-billed platypus), marsupials, eutherians
How do arthropoda reproduce?
Reproduction monoecious or dioecious, internal or external fertilization. Larval or juvenile stage in most, complex metamorphosis among Hexapods
extremophile adaptations
Make proteins more stable, slow down enzyme rates, decrease fluidity of membranes, increase osmolality inside cell
Beard Worms
Polychaete (Annelida) Chemolithoautotrophs that live in deep ocean environments, have no gut, and are in an obligate symbiosis with bacteria.
Rag Worms
Polychaete (Annelida) • Active predators with well- developed jaws and an extendable pharynx.
What is a placenta?
It is the tissue attached to the uterine wall that nourishes the fetus through the umbilical cord.
Explain the evolution of vertebrae, jaws, and bone using examples from the chordate phylogeny from lecture.
Vertebrae is present first in lampreys, then you see that placoderms are the first to have developed jaws with at least the bony plates.. They are derived from gill arches supporting pharyngeal slits. You do not see bones until later on where there is a single bone in the fins of a lobe finned fish. [Bone developed in ostracoderms but this is an extinct lineage. Bone was lost in sharks and relatives.]
Jawless fishes include
hagfishes and lampreys
swim bladder
helps control buoyancy; internal, filled with gas; found in many bony fish
Hemimetabolous life cycles
adults develop wings and sex organs after the last molt
Hemocoel
aka open circulatory system. found in: 1. Anthropods 2. Molluscs
which plants exhibit the haplontic life cycle
algal
virus infects
all
pharyngeal slits
all deuterostomes except echinoderms
parsimony uninformative
all same or only one different
What is multicellularity?
allows individual cells to specialize, and be assembled into functionally specialized body parts.
Life cycle of cnidaria
alternation between the asexual polyp stage and the sexual medusa stage.
The Dikarya and angiosperms both share:
an (n+n) stage
gills
an organ specialized for gas exchange with water
parasite
an organism that lives in or on another organism (its host) and benefits by deriving nutrients at the host's expense
beatles
arthropod scavenger complete one way gut bilateral traits: jointed appendage, exoskeleton composed on chitin, segmented body divided into tagmata
3 phyla with segmentation
arthropods annelida chordata
three sponge body types
asconoid, syconoid, leuconoid -asconoid is smallest bc gets least amount of food -leuconoid is biggest
spores
asexual reproductive cell capable of developing into an adult organism without gametic fusion; diploid and unicellualr
Tapeworm
attachment organ, many boxes that release fertilized eggs, no guts, no heads
which plants exhibit the heterosporic life cycle
Seed Plants Lepto. Ferns spike moss
What is the difference between segmentation and tagmatization? What animal groups show evidence of segmentation?
Segmentation is the division of the animal's body plan into repeated segments. Tagmatization is the fusion of these segments. Arthropods(from ectoderm), annelids(from ectoderm), and chordates(from mesoderm) show evidence of segmentation.
What is an annelid?
Segmented/Bristle worms Sister Group to Mollusca
Solar-powered sea slugs
Sequester alga-derived chloroplasts for use as photosynthetic machines; has acquired one or more nuclear-encoded algal genes in its own genome: LGT between two eukaryotes
Why do tunicates appear to contradict the synapomorphies of chordates?
The larvae of tunicate exhibit all three synapomorphies, but then they go through metamorphosis and lose them all
Know the diagnostic features of Land Plants (Embryophytes)
The sporic life cycle (AoG) is a diagnostic for land plants, they also have vegetative innovation including, cuticle to reduce desiccation, pigment for UV protection and mutualistic fungal association. All of the reproduction innovation are also involved as diagnostic features.
Consider the lichen symbiosis. What is the photobiont? What is the mycobiont? Which of these can live on their own?
The photosynthesizing organism is the photobiont. The fungus is called the mycobiont. Photobionts (algae/cyanobacteria) can live on their own but lichen depends on the photobiont for survival.
water vascular system
The water vascular system is a hydraulic system used by echinoderms, such as sea stars and sea urchins, for locomotion, food and waste transportation, and respiration. The system is composed of canals connecting numerous tube feet.
tracheid
before lycophytes high resistance, steep tension gradient, Air bubble has no effect
what evolved on branch leading to bilateria (2)
bilateral symmetry mesoderm
Symmetry
bilateral symmetry, radial symmetry, pentaradial symmetry, symmetrical
yersinia pestis
black death
Synapomorphies of metazoa?
blastula, multicellularity, diplontic life cycle, extracellular matrix, and unique cell-to-cell junctions
Calcareous sponges
Spicules of calcium carbonate
spider silk
Spinnerets: produce silk -Located on back of abdomen Silk used for many purposes: prey capture protective retreats egg cases molting
Why are sponges often dominant organisms in marine benthic environments and experience limited predation?
Sponge spicules provide physical deterrent; sponges have potent biochemical defenses (biotoxins); they use antimicrobial agents to prevent infection by microbes; they employ chemical warfare (chemical repellants) against organisms that compete for space with them
Are there solutions to these threats?
Stop over-harvesting large animals
coelom
body cavity; located between the intestinal canal and body wall; 3 types (acoelomate; pseudocoelomate; and coelmate)
What is a key feature of sharks and relatives
bone was lost
Osteichthyes.
bony fish, phirranah
cladogram
branch lengths arbitrary, only topographic info
phylogram
branch lengths reflect amount of character change
Chronogram
branch lengths reflect temporal information
a. Polychaeta
branch of Annelids (most likely paraphyletic) -marine worms with well developed: head, tentacles, setae, parapodia, sensory structures -usually dioecious with external fertilization and trochophore larva
organism (can/cannot) have both lung and swim bladder
cannot
The arthropod whose body consists of a head, followed by numerous segments each bearing one pair of appendages, and who has predatory life style using venom claws is:
centipede
What are some characteristics that tend to be associated with bilateral symmetry?
cephalization; complete (1 way) gut = complete gastrulation; segmentation; and a mesoderm forms
Describe the image forming eyes in cephalopods. (Pretend that you are teaching a friend what this is)
cephalopods have a camera lens eye like humans do
Desiccation water transport Gravity intense UV radiation dispersal of gametes
challenges of life on land
missense
changes amino acid
1st codon
changes...least likely tree
Homoplasy
character shared by a set of species bit not present in their common ancestor, an example includes the creation of wings in different animals.
paired setae
characteristic of Annelids (lost in leeches); bristles that serve as anchoring points for movement
pharyngeal slits
characteristic of chordates and hemichordates; pharynx brings water in through the mouth and then passes it back out through the slits; used in feeding and respiration
spiral cleavage
characteristics of protostomes, unequal division of cells, embryo has a distinct top and bottom, cell fate is determined very early
What feature do horseshoe crabs have that separates them from crustaceans?
chelicerae
ascomycota and Arthropoda both share
chitin
Class Polyplacophora
chitons (many plate bearers), shell plates + repeated gills
Name all of its mollusc major groups. chitons bivalves gastropods cephalopods
chitons,bivalves,gastropods,cephalopods
Glaucophytes
chloroplast retains peptidoglycan between membranes.
stentor
cillia, algae symbiosis
hydroid
cnidaria suspension feeder incomplete two way gut radial symmetry in polyps and asymetric in colony traits: diploblastic, two body forms: polyp and medusa, cnidocytes
Explain echinoderm ecology and diversity.
There are about 7000 total echinoderm species outbreaks of sea stars can damage coral reefs (crown of thorns)
Explain the diversity of life-history patterns in insects.
There are over 1,000,000 species and a lot this diversification comes from how some specific insects are pollinators of some specific angiosperms
Clitellum
Thickened band in middle of body that secretes a cocoon for protection of young
Spongin:
collagen-based protein that provides structure and flexibility in porifera
What supports choanoflagellates as the sister group to Metazoa?
collar cells are seen in choanoflagellates and sponges; DNA sequence data; and homologous cell signaling and adhesion genes
define multicellular
collection of many attached cells (usually of same genotype); differentiation and division of labor and reproductive capabilities
what is a postanal tail
combined with notochord and musculature, used for propulsion
leaves
compressed photosynthetic structure emerging laterally from a stem or branch that possesses vascular tissue
cell fate
concentration gradients, induction
Zygomycetes
conjugating, terrestrial, coenocytic, Stalked sporangiophores contain sporangia
incorrect trees
convergence, reversal, evolution rate
selaginella
heterosporous
plasmogamy
cytoplasms of two individuals of different mating types fuse
bird and bat vertebrate 4 limb
homologous
virulence
degree of pathogenicity
dsRNA
diarrhea
conflict
different characters support different trees
periplasmic space
digestion enzymes and transport enzymes
pollen tube
digests through the sporophyte tissue to the megagametophyte
plasmodial slime molds
diploid resting stage in harsh conditions, cool moist habitat.
microbes
disease agents, model systems
Trocophore larva
distinctive band of cillia
Proteobacteria
diverse metabolic, CA photoautotrphic, some nitrogen fixing rhizobium (ecoli)
Spiral cleavage
divide at oblique angle = furrows
Acoelomate (flatworms)
do not have enclosed body cavities
Name all of its major features and synapomorphies discussed in class for chordates and vertebrates.
dorsal hollow nerve, notochord, postanal tail (chordates synapomorphy),pharyngeal slits (deuterostome synapomorphy)
wings most likely formed from?
dorsal leg appendages due to comparative gene esxpression
Why are tunicates chordates?
dorsal nerve chord, postanal tail, notochord present in the larval form which undergoes metamorphosis to the adult stage
What is a notocord
dorsal supporting rod, rigid and flexible develops in embryo, replaced by vertebrae in most vertebrates
holometabolous: (complete metamorphosis)
dramatic changes in form (butterflies, beetles, flies, ants, bees, wasps) egg → larva → pupa → adult
lithotrophy
e- source= inorganic
organotrophy
e- source= organic
Tube Feet
each flexible hollow appendages protruding through ambulacra either used for locomotion or collection of food and operated through a hydraulic pressure within the water vascular system.
tracheae
each of a number of fine chitinous tubes in the body of an insect, conveying air directly to the tissues; what hexapods use to breathe
pedipalps
each of the second pair of appendages attached to the cephalothorax of most arachnids; they are variously specialized as pincers in scorpions, sensory organs in spiders (can also be modified for sperm delivery , and locomotory organs in horseshoe crabs.
sea cucumber
echinoderm deposit feeder complete one way gut pentaradial traits: no head or brain, water vascular system, tube feet, locomotion with movement of tube feet
purple urchin
echinoderm grazing complete one way gut pentaradial traits: no head or brain, water vascular system, tube feet, spines, locomotion with movement of spines
white urchin
echinoderm grazing complete one way gut pentaradial traits: no head or brain, water vascular system, tube feet, spines, locomotion with movement of spines
chocolate chip star
echinoderm predator/scavenger complete one way gut pentaradial traits: no head or brain, water vascular system, tube feet, locomotion with movement of tube feet
leather star
echinoderm predator/scavenger complete one way gut pentaradial traits: no head or brain, water vascular system, tube feet, locomotion with movement of tube feet
pisaster star
echinoderm predator/scavenger complete one way gut pentaradial traits: no head or brain, water vascular system, tube feet, locomotion with movement of tube feet
sand star
echinoderm predator/scavenger complete one way gut pentaradial traits: no head or brain, water vascular system, tube feet, locomotion with movement of tube feet
bat star
echinoderm scavenger complete one way gut pentaradial traits: no head or brain, water vascular system, tube feet, locomotion with movement of tube feet
brittle star
echinoderm scavenger incomplete two way gut pentaradial traits: no head or brain, water vascular system, tube feet may be present, spines may be present, locomotion with movement of arm appendages
land plants
embryophytes, cuticle, stomata
Lw GC Gram +
endospores to protect DNA in harsh times, mycoplasmas are smaller, anthrax, staph
bacteria growth classification
energy source, electron source, carbon source
chemotrophy
energy source= chemicals
phototrophy
energy source= light
tight junctions
ensure directional movement
gnetophytes
ephedra, welwitchia, gnetum, separate sexes, like angiosperms, no swimming sperm
microparasites
epidemic
radial cleavage
equal division of cells stacked appearance, cell fate determined by proximity to other cells and late in development.
archea
ether, lipid monolayer
fungus
eukaryote; chitin in cell walls; absorptive heterotroph; can be a decomposer, parasite, or mutualist; opisthokont (sister to animals and choanoflagellates); spend most of their lives as underground active foragers
bacteria infect
eukaryotes
How is its jaws, bones, and paired limbs evolved?
evolution of bone, jaws, and paired limbs happened after lamprey the anterior arch evolved into jaws (gill slits decrease in number)
non-motile sperm
evolved independently in conifers and gnetophytes as well as angiosperm
vessel elements and DF
evolved independently in gnetophytes and angiosperms
secondary growth
evolved independently in lycophytes and seed plants
vascular tissue
evolved independently in mosses and vascular plants
Parasite-induced behavior modification by platyhelminthes
ex. fluke found on sheep liver fluke eggs in sheep feces, which is eaten by a snail, that becomes infected and dies, which is consumed by an ant that also dies, then the larvae will migrate into ant brain and change behavior to go towards vegetaion so that a grazing sheep will eat it. =Terrifying
Cnidaria
ex. sea anenomes, coral, sea/cube jellies, and hydrozoans 1. radial symmetry 2. one oral (open) aboral end often surrounded with tentacles 3. incomplete gut>>leads to gastrovascular cavity 4. diploblastic: layers seperated by gel like MESOGLEA 5. polyp or medusa body( can alternate between also) 6. cnidocyte 7. nerve net 8. simple muscle cells 9. Some sensory developments (some medusa(cube jellies) have eyes :O
arthropods
ex: cockroach, porcelain crab, hermit crab, tarantula, gooseneck barancle, acorn baranacle, horseshoe crab, crab, scorpion, shrimp, millipede, beatles tribloblastic unique cleavage bilateral complete 1 way gut predator synap: joined appendages, exoskelton...
cnidaria
ex: hydroid, strawberry anemone, moon jelly, gorgonian, giant green sea anemone, upside-down jelly diploblastic irregular cleavage radial symmetry two way incomplete gut use cnidocytes synap: cnidocytes
echinoderms
ex: purple urchin, sea cucumber, sand dollar, brittle star, green brittle star, bat star, pisaster star, leather star, chocolate chip star, sand star, white urchin triploblastic radial regulatory cleavage incomplete and complete pentaradial symmetry suspension feeders synap: water vascular system and pointy skin
molluscs
ex: wavy top turban snail, turban snail, limpets, kellets whelk snail, dorid nudibranchs, chitons, california sea hare, aeolid nudibranchs, giant rock scallop, bay mussel, giant keyhole limpet, smooth washington clam triploblastic spiral mosaic bilateral complete one way gut suspension feeders/predators synap: shell, mantle, foot, and radula
Annelids
ex:feather duster worms, rag worms, and spagetti worms Triploblastic spiral mosaic bilateral complete 1 way gut suspension feeders/predators synap:paired seta
Spiracle
external respiratory opening, in number of pores in the body of an insect, which each of a pair of vestigial slits being the eye of a cartilaginous fish.
complex roots
f Euphyllophytes: complex branching root system derived from stems, root hairs developed form dermis
T/F: If a particular character is homologous within a clade, then it must be a synapomorphy of that clade.
false
mosaic
fate determined early
What are Chelicerae?
feeding appendages in the form of pincers or fangs
carpel
female sex organ of flower plants
parsimony
fewest changes (evolutionary steps)
Cartilage
firm, whitish flexible connective tissue.
bipinnaria larva
first stage in the larval development of most starfish. Movement and feeding is accomplished by the bands of cilia -Larvae are all bilateral, adults are
Triploblastic development
formation of a complete gut and a body cavity or coelom
dorsal hollow nerve cord
formed by an embryonic folding of the ectoderm. Develops into the central nervous system in vertebrates.
Mycorrhizae
fungi and plant roots
liverworts
gemmae cups, rhizoids, haploid, Antheridia, Archegonia
Bacillus thuringiensis
genes code to kill insects
mitochondria are
gram negative
Sea jelly and hydrozoan reproduction
Usually dioecious
Annelid reproduction: Polychaetes
Usually dioecious with external fertilization and trochophore larva
Polychaetes reproduction (clade of annelids)
Usually dioecious, with external fertilization and trochophore larva
Polyp
Usually sessile
Trochophore Larva
simple structure that is oval with flagellum at two ends, and a band of cilia around equator
charales
sister of land
Haustoria
hyphae push into cells and absorb nutrients
Spicules
in Porifera, they serve as supportive and defensive structures. Structure and chemistry are different between sponge clades
tracheae
in arthropoda; used for respiration; network of tubes that extend throughout body; replaces lungs through diffusion; the tracheal system consists of tracheoles, air sacs, tracheae, and spiracles
polyp
in cnidarians; a sessile, asexual life cycle stage
Carapace:
in crabs, shrimp, and lobsters, the thorax and abdomen fuse into the carapace
Schizocoely
in protosomes when the coelom is formed by the splitting of the mesoderm
paraphyly
includes some but not all descendants of a given common ancestor, unnatural
hemimetabolous metamorphosis
incomplete metamorphosis 3 stage: egg-nymph-adult
What is hemimetabolous
incomplete metamorphosis • Adults have wings and develop gradually from nymphs • Three stages: egg, nymph, adult • Nymphs typically have the same diet as adults • Nymphs lack functional wings
Hemimetabolous:
incomplete metamorphosis in paleoptera and neoptera
number of described Animal species
increase GREATLY with appearance of triploblasty - majority of species are in bilateria family
vessel elements
increase efficiency of transport
basal
independant carpals, fruit
cellular slime mold
individual motile cells that aggregate into a multicellular fruiting body
phylogeny
is a history of branching (speciation) events.
Tetrapod
is a subset in chordates, divided in four classes, amphibians, reptiles, mammals, and birds
exoskeleton
is external skeleton that supports the animals body it is common in arthropods.
which plants exhibit the sporic life cycle
land plants
Foot:
large, ventral muscle mass in molluscs Used for moving, burrowing, feeding Modified into siphon (valves) or tentacles
megaphyll
larger, more complex leaf with ramified vascular tissue. Monilophytes and seed plants
ascomycota
largest group of fungi; ascus spores; variety of fruiting bodies; sexual or asexual reproduction
Ray-finned fish
largest lade of bony fish
which sponge body type have evolved multiple times
leuconoid
Mesoderm:
lies between endo and ectoderm and differentiates into muscles and major organs
Pupa
life stage in insects that undergo transformation. This is present in all complete metamorphosis, for example it is the middle stage from a caterpillar to a butterfly.
energy source
light (photo) or chemical (chemo)
model based approach to phylogeny reconstruction
likelyhood of character state changes
2. Myriapoda
lineage of Anthropods that include cent/milipedes -two body tagmata -numerous segments with two pairs of legs -centipedes =carnivorous and scary fangs millipedes =scavangers, held in class
amoebozoans
loboseans, plasmodial slime molds, cellular slime molds, sister to opistikonts
what evolved on branch leading to lophotrocozoa (2)
lophophore trocophore
groups in protostomes
lophotrochozoa (annelida, mollusca) ecdysozoa (panarthropoda, nematoda)
pocket off digestive tract
lungs and swim bladders
Colonization of land
lungs, limbs, modified skin, internal fertilization, shelled eggs
__________ formed dominant parts of Carboniferous forests that later developed into coal deposits?
lychophytes
club mosses
lycopodia
Setae
made of chitin on the outside of worms, they are used to anchor into substrate for movement
mantle
makes the shell; molluscs; fold of tissue that covers the organs of the visceral mass that secretes hard shell
Reasons Bilateral symmetry is significant
means these animals have: 1. Anterior/Posterior Ends 2. Cephalization 3. Segmentation 4. Increased sensory & locomotor ability
-sense ssRNA
measles, mumps, rabies, influenza
ferns
megaphylls, sori
collar cells are synapomorphic of
metazoe and choanoflagettes
Euryarcheota
methanogens, produce methane by reducing CO2, obligate anaerobes
lycopodium
microphyll, homosporous
homoplasy in leaves
microphylls developed in lycophytes, megaphylls in seed plants
mesoderm
middle layer; part of triploblasty; gives rise to muscles and major organ systems
cone
modified stem, female
2 lophotrochozoa
mollusca annelida
what phylum are octopi/squids a part of? -what are their tentacles derived from?
mollusca tentacles derived from foot
turban snail
molluscs grazer complete one way gut bilateral traits: specialized muscular foot for locomotion radula and shell and mantle present
chitons
molluscs grazer complete one way gut bilateral traits: specialized muscular foot for locomotion radula and shell present
giant keyhole limpet
molluscs grazer complete one way gut bilateral traits: specialized muscular foot for locomotion radula and shell present
limpets
molluscs grazer complete one way gut bilateral traits: specialized muscular foot for locomotion radula and shell present
wavy top turban snail
molluscs grazer complete one way gut bilateral traits: specialized muscular foot for locomotion radula and shell present
epidemic
more cases in community than normal
Multicellularity has evolved _______ times in the tree of life
more than 20 times
MRCA
most recent common ancestor
synapomorphies of protostomes
mouth from blastopore mesoderm arising near lip of blastopore schizocoely
Protostomes
mouth is formed first, then the anus. The coelom forms from a mass of cells which splits
Mandibles:
mouth part of arthropods
radula
mouth parts, lost in bivalves mollusca rasping organ used for feeding
Metazoa:
multicellular animals in the opisthokonta clade
What are the synapomorphies of Animals?
multicellularity; unique junctions between cells; extracellular matrix; blastula
Flukes
multiple asexual stages, two hosts-snail and vertebrate. Humans get lung or liver flukes.
Radial Symmetry:
multiple planes of symmetry
What are some of its innovations AND diversity? (Name all that were used in class)
muscular foot, visceral mass, mantle, radula
Basidiomycetes
mushrooms, rusts and smuts, Ectomycorrhizae, at tip
monophyly
natural groupings, includes all descendant species of a common ancestor. A monophyletic group can be defined for each internal node
dorsal hollow nerve cord:
nerve cord dorsal to notochord Derived from ectoderm Develops in the central nervous system in vertebrates
what evolved on branch leading to ctenophores (3)
neurons muscles complete guts
Lamprey
no bone, no jaws, notochord surrounded by cartilaginous arches, vertebra, larvae are mud-dwelling filter feeders
archea bacteria
no cytoskeleton, cell wall, haploid, binary fission, circular chromosomes, plasmid, translation and transcription coupled, no nucleus, operons, single RNA pol, LGT, no organelles
acelomate
no real gut cavity, other tissue between gut and mesoderm, flat
psilotum
no roots, dichotomous, no leaves
cladogram
no scale
Extracellular matrix:
nonliving material found between 2 cells that provides support
extracellular matrix:
nonliving material found between 2 cells that provides support
outgroup
not study. determine ancestral character states
archea infect
nothing
karyogamy
nuclei fuse
carbon source
organic (hetero) or inorganic (auto)
electron source
organic (organo) or inorganic (litho)
Diploblasty:
organism has an ectoderm and endoderm -Ectoderm turns into epidermis in mature stage -Endoderm turns into gastrodermis
Triploblasty:
organism has ectoderm, endoderm, and mesoderm
incomplete gut:
organism has only one opening that food goes both in and out of Food flows both directions inside digestive system
ectoderm
outermost of the embryonic tissue layers, becomes the epidermis and nerve tissue
true
outgroups are not primitive/less derived than species within the ingroup. (T/F)
Ectoderm
outside embryonic tissue
nitrifiers
oxidize ammonia to nitrate
chelicerae
pair of appendages in front of the mouth in arachnids and some other arthropods, often modified as pincer-like claws
chelicerae
pair of appendages in front of the mouth in arachnids and some other arthropods, usually modified as pincerlike claws; characteristic of chelicerates
Gills
paired respiratory organ in fishes by where oxygen is extracted from water flowing over surfaces within and attached to the pharynx
2 ecdysozoa
panarthropoda nematoda
Crustaceans are
paraphyletic
Apicomplexans
parasites, Plasmodium, Toxoplasma, apical complex to enter host
Thorax
part of the mammal body between the neck and the abdomen including the cavity of the ribs and breastbone that allows for the respiration
eudicots
parts in 4 or 5, vascular tissue in rings, branching veins
Accessory fruits
parts other than carpels
What are synapomorphies of echinoderms?
pentaradial symmetry in the adults (bilateral larvae), endoskeleton of calcareous plates, and water vascular system (w/ tube feet)
petals and sepals
perianth
Animal Development
pertains to the cleavage & gastrulation
amoebozoan feeding
phagocytosis, parasites, predators, scavangers
cyanobacteria
photoautotrophs with chlorophyll a, fix N, internal membrane system, eukaryotic chloroplasts
define opsins
photosensitive pigments in the photoreceptors: e.g., rhodopsin and photopsin
chlamydomona
photosynthesis, flagella
blepharisma
pink, cilia, food vaculoes
gram-negative
pink, thin peptidoglycan layer, periplasmic space
First vertebrates to have jaws
placoderms (armored fish) (teeth were bone plates)
most seed plants
pollen, secondary growth, heterospory
Describe some diversity of annelids. (Name all that were used in class)
polychaeta - marine worms (most diverse) oligochaeta - earthworm hirudinea - leeches
Body forms of cnidaria
polyp and medusa, alternate between during life cycle
Hydrozoa:
polyps and medusae, solitary AND colonial. (portuguese man of war)
cycads
potent carcinogen, tropical, separate plants
Marsupials
pouched mammals
Occam's razor
prefer the hypothesis that minimizes the number of ad hoc assumptions.
worms are (proto/deuterostomes)?
protostomes
2 groups of bilateria
protostomes deuterostomes
What are the major groups of bilaterian?
protostomes & deuterostomes
triploblasty
protostomes and deuterostomes; three cell layers; ectoderm, mesoderm, and endoderm
radula
rasping organ used for feeding; scrapes up algae
bacillus
rod
Anthozoa
sea anemones, corals, sea pens, no medusa
Holothuroidea
sea cucumbers
Scyphozoa
sea jellies
Pedipalps
second pair of appendages attached to the cephalothorax in most arachnids, example includes pincers in scorpions, sensory organs in spiders, and locomotion organs in horseshoe crabs.
pedipalps
second pair of chelicerae and in male spiders, are used to transfer sperm to the female (found in spiders, scorpions, horseshoe crabs, etc); used as feeding appendages in females
absorptive heterotrophy
secrete enzymes outside of their "bodies" in order to digest food molecules into smaller molecules that can be absorbed (makes them good biosynthetic factories for: drugs, enzymes, acids, and alcohols)
mantle
secretes shell, produces and contains sense and respiratory organs, encloses mantle cavity for respiration and storage
hyphae
septate or coenocytic
What are the 3 types of cell-to-cell junctions in animals? What is their function?
serve as support and facilitates communication 1. tight junctions: seal between cells 2. desmosomes: link adjacent cells; rivets 3. gap junctions: allow communication
polyp
sessile form that produces medusae asexually and forms colonies
reproduction in echinodermata
sexual: mostly dioecious with external fertilization asexual through regeneration of body parts
synapamorphy
shared derived trait
synapomorphy
shared derived traits
ecdysis
shedding of the exoskeleton due to growth/morphological change
Cone snails
shoot harpoon-like radula laden with toxin at prey
What are the 4 major tissue types in metazoans? Ephithellal: covers external & internal structures, ex: skin on surface Connective: Serve binding & support function Muscular: Cells specialize for forceful movement Nervous: reception of stimuli & conduction of impulses (esp. to muscles)
Ephithellal: covers external & internal structures, ex: skin on surface Connective: Serve binding & support function Muscular: Cells specialize for forceful movement Nervous: reception of stimuli & conduction of impulses (esp. to muscles)
Ectoderm
Epidermis
Unique characteristics of metazoans are also synapomorphies to what clade
Eumetazoa
Social insects
Eusocial insects live in colonies with division of labor; some individuals reproduce (queen, male) but most are non-reproducing workers; ecologically dominant species and reach high densities
Convergence in reptiles
Evolution of snake-like reptiles, case of the ratite birds, and marsupial/eutherian convergence in mammals
evolution of multicellularity
Evolved independently at least 25 times Evolved in fungi and animals, but not in choanoflagellates
What are gastropods?
Gastropods: Snails and Slugs (mollusca) • Single shell (or none) • Feed with a radula • Torsion
Hedgehog gene
Gene involved in cell signaling known in metazoans and choanoflagellates, but not other nonmetazoan taxa
culturingq
Growth of microorganisms in controlled/defined conditions. General approach to collect sample, make environment w/ specific growth conditions (energy, electrons, carbon, etc), dilution/passing until one obtains a pure sample w/ just a single clone.
hornworts
Have stomata, which do not close, split lengthwise to release spores
polytomies
However, phylogenies may contain ______, an internal with 3 or more descendant branches, which may reflect:
What are some threats coral reefs? (Name all that were used in class)
Humans, Bleaching, Overfishing
water vascular system:
Hydraulic system found in Echinoderms, used to control -Locomotion -Feeding -Waste transportation -Respiration
earthworm movement
Hydrostatic skeleton, circular muscles lengthen, longitudinal muscles shorten, Setae anchor
Annelid reproduction: others (Clitellata)
Monoecious with internal fertilization and direct development (no trochophore larva)
Clitellata reproduction
Monoecious, with internal fert and no larba
Aquiferous system
Water flows in through ostia to the internal chambers and out the osculum propelled by the movement of flagella of choanocytes
deuterostome
"anus first," balstopore becomes the anus; echinodermeta and chordata; only form the enterocoelous plan; radial cleavage
Deuterostomes
"doo doo deutersosomes" blastopore becomes anus -mesoderm & coelom form from outpocketing of gut wall 1. Echinoderms 2. Chordates 3. Hermichordates
Hemimetabolous:
"incomplete metamorphosis" Gradual metamorphosis. Change/Growth happens over successive molts
Explain the symbioses in sponges?
...
coral and dinoflagellates
...
What is a coelom?
A fluid-filled cavity
What is a virus (1)?
A non-cellular infectious agent that can replicate only inside the living cells of organisms using the existing cellular machinery and cause the synthesis of specialized elements (virions, virus particles) which can transfer the infection to new cells.
Mandibles
A pair of appendages near the insect's mouth, most anterior to the three pairs of oral appendages. Used to grasp, crush and cut the insects food, also used to defend against predators.
N-1
A phylogeny with N species has ________ speciation events (internal nodes)
Parasitism
A relationship where one species benefits at the expense of the other (ex: Mosquitos and humans)
Bilateral Symmetry
A single plane divides animal into left and right mirror-image halves (vertebrates); segmentation and increased sensory and locomotor ability are associated with bilateral symmetry
catch collagen
A special type of connective tissue that changes the rigidity of the body very quickly
Cnidarian feeding
All carnivorous with some extracellular digestion in gastrovascular cavity and some intracellular Some symbiotic with photosynthetic protists
Requirements of multicellularity
Adhesion: cells must stay/stick together Communication between cells Dependence Differentiation: cells specialize at different tasks
What are advantages to multicellularity? What differentiates it from coloniality?
Advantages: 1. division of labor (possibility of specialized cell function) 2. better SA to V ratio 3. increased size (feeding efficiency and safety from predators) 4. dispersal (some cells are specialized for reproduction) Different from coloniality because some cells give up reproduction in order to specialize
How is DNA transferred to plants?
Agrobacterium, particle bombardment (biolistics)
Emetazoan
All animals except sponges Therefore MRCA (synapomorphies) has diploblastic construction, gastrula, nervous system and musculature
Sponge Features
All aquatic, mostly marine; ~8000 species (7000 species of demosponges); adults sessile, larvae motile; mostly filter feeders on microscopic particles (bacteria, organic detritus, etc), captured on microvilli, digested intracellularly; Asexual reproduction through budding or fragmentation; Sexual: most sponges are hermaphrodites but not self-fertilizing
Know the diagnostic features of Land Plants (Embryophytes)
Alternation of generations Cuticle Microrrhizae Protected embry Sporophyte Sporangia Antheridia and archegonia Air-dispersed spores sporopollenin
the diagnostic features of Land Plants (Embryophytes)
Alternation of generations Cuticle Microrrhizae Protected embry Sporophyte Sporangia Antheridia and archegonia Air-dispersed spores sporopollenin
Radial Symmetry
Animal in form of cylinder, parts arranged around the long axis, and with multiple imaginary planes that divide the animal into equal halves
hard
An episode of simultaneous speciation, where 3 or more descent species are produced from a single speciation event (in which case we call it a _______ polytomy')
endoskeleton
An internal skeleton covered by other, soft body tissues
Endoskeleton
An internal skeleton, such as bony or cartilaginous in skeleton of vertebrates
lichen
An organism resulting from the symbiotic association of a fungus (mycobiont) and either a cyanobacterium or a unicellular alga (a photobiont)
What are the characteristics of deuterostomes?
Ancestral characters of Bilateria: - Triploblasty (ecto-, endo-, meso-) - Bilateral symmetry - Complete, 1-way gut Synapomorphies: - Blastopore becomes anus - Enterocoely - Radial, regulative cleavage
What are cell junctions?
Animal cells that are at cell-to-cell junctions which serve as support structures and facilitate cell-to-cell communication.
opistokonts
Animals, fungi, choanoflagellates
Rag Worm
Annelid predator complete 1 way gut bilateral traits: paired setae, segmented body, eversible jaw
What are polychaetes?
Annelids that are dioecious, do external fertilization, and have trochophore larva
What are Clitellata?
Annelids that are monoecious, internal fertilization, direct development (no trochophore)
overtopping growth
Apical meristem divides asymmetrically, such as there is a main stem and side branches Allows taller growth and enhanced competition for sunlight Allows elaboration of novel organs
How did jaws evolve
Anterior gill arches became modified as bony jaws
Major clades of Cnidaria
Anthozoa (sea anemones, corals, sea pens), Hydrozoa (hydrozoans), Scyphozoa (sea jellies), Cubozoa (cube or box jellies); all Cnidarian are aquatic (mostly marine)
cnidaria
Anthozoa, Hydrozoa, Scyphozoa, Cubozoa, carnivorous, extracellular and intracellular
fungi and animals
Antifungal drugs can affect humans. Most agents that are toxic to fungi are also toxic to the host More side effects=more closely related
Deuterostomes
Anus forms first, mouth second; Chordates, Echinodermata, Hemichordata
3 types of symmetry
Asymmetry Radial symmetry Bilateral symmetry
Alternative hypothesis for ctenophore phylogeny
As sister to all other metazoa
What are the key defining features of the two largest groups of fungi, Ascomycota and Basidiomycota?
Ascomycota and Basidiomycota are both under the Dikaryon clade (have a dikaryotic life cycle). Ascomycota have an ascus and Basidiomycota have a basidium
Sponge reproduction
Asexual: budding or fragmentaion Sexual: since most sponges are hermaphroditic they produce gametes at different times so they dont self fertilize. then will mass release sperm into enviroment "smoking sponges" then the sperm must be captured by other sponges choanocyte, lose its collar and flagellum, and act as a ameboid cell through mesophyl to reach egg. Non specific dispersal means choanocytes consume A LOT of different sperm, but only recognize their own
Sponge reproduction
Asexual: through budding or fragmentation Sexual: hermaphrodites but not self-fertilizing
How do sponges reproduce
Asexually through budding and Sexually
What are the different modes of reproduction in sponges? Asexually through fragment and reforming: take out parts of the body and reform into another sponge. The part that fragments is the gemmule Sexually: Choanocyte differentiate into sperm and are shot out of the osculum
Asexually through fragment and reforming: take out parts of the body and reform into another sponge. The part that fragments is the gemmule Sexually: Choanocyte differentiate into sperm and are shot out of the osculum
Explain multicellularity vs individuality. What makes 2 things the same or different individuals?
Individuality is when one cell is an individual. On the other hand, multicellularity is a group of cell is the individual.
Gastrulation of cnidaria occurs where?
Before planula larva stage
When does gastrulation occur during the Cnidaria life cycle?
Between medusa and planula
What does it mean to be a bilaterian?
Bilateral symmetry
What characteristics tend to be associated with bilateral symmetry? What are some animal examples that violate this association? Why?
Bilateral symmetry is a single plane divided the body into a left and right halves, they are associated with being triploblastic. Typically associated with cephalization. Bivalves violate this association bc lacks a "head". Echinoderms violate this because they are triploblastic but they develop into a pentaradial symmetrical.
define cephalization
Bilateral symmetry is correlated with having a well-defined head with a concentration of sense organ
Cephalization
Bilateral symmetry is correlated with having a well-defined head with a concentration of sense organs.
Keystone species
One that has a disproportionately large effect on the ecosystem dynamics
How have people used fungi in industry?
Biofuels, soy sauce, medicines, etc
Describe the morphological and ecological diversity in molluscs? Think in terms of body morphology and feeding strategies.
Bivalve (filter feeding) vs. snail (grazer) vs. squid (predator) Bivalves have siphon to filter the water Snails, chitons, etc have radula to graze the rocks or any surface they're attached to Squids have tentacles to help them capture prey and bring it to the beak
Modifications to generalized molluscan body plan for others
Bivalves (burrowing foot) and cephalopods (arms/tentacles and siphon for propulsion)
What are bivalves?
Bivalvia: Bivalves (mollusca) • Two shells with strong adductor muscles • No radula, uncephalized • Marine or freshwater, filter feeders
What are the synapomorphies of Metazoa? What evidence supports the unique evolution of multicellularity in metazoans?
Blastula, unique cell junctions, extracellular matrix (collagen) animals are all diplontic, multicellularity, and determinate growth Evidence = tight junctions, gap junctions, and desmosomes
Why are sponges sometimes called the vacuum cleaners of the sea? What principle allows this
Individuals can filter more than 1,500 liters of water per day. Uses the principle of continuity.
What are the two ways cnidaria asexually reproduce?
Budding can detach and become free-living, or stay attached to form colonies. • Fission produce two free living halves.
What are the differences in plasmodial slime molds and cellular slime molds in terms of their life cycles? How do plasmodial slime molds show evidence of problem solving? How do cellular slime molds meet our definition of multicellularity?
Cellular slime mold are from haploid amoeboid cells (haplontic life cycle). Plasmodial slime molds are from diploid amoeboid cells (diplontic life cycle). Cellular molds meet the definition of multicellularity by producing fruiting bodies to help w spore dispersal.
What characteristics tend to be associated with bilateral symmetry? What are some animals examples that violate this association? Why?
Cephalization is often associated with bilateral symmetry. Bivalves, however, do not exhibit cephalization because of the sessile lives they live. They do not have a head. They are also filter feeders.
What are cephalopoda (mollusca)?
Cephalopoda: squid, octopus, nautilus, cuttlefish • Shell external or internal • Foot modified into tentacles • Closed circulatory system • Active predators with well-developed nervous system and eyes • Excellent camouflage, complex communication, internal fertilization
What are examples of returning in the sea in chordata?
Cetaceans and pinnipeds are classic examples of a return to an aquatic lifestyle in vertebrates.
independent
Character evolution and species are two processes are largely _________, but the characters of living species provide evidence that we use to estimate phylogeny.
Lancelets (cephalochordates)
Chordata; Deuterostomes; triploblastic; bilaterally symmetrical; Amphioxus?; small filter-feeding marine animals; chordate features present in adults; segmented body muscles
Amniotes
Chordata; bilaterally symmetric; deuterostomes; triploblastic; reptiles and mammals; Key innovations to exploit terrestrial environment: impermeable skin, efficient kidneys, amniote egg (with shell and membranes that resist desiccation)
Prototherians (echidna, duck-billed platypus)
Chordata; deuterostomes; bilateral symmetry; dioecious; triploblastic; egg-laying mammals
Lamprey
Chordata; deuterostomes; triploblastic; bilateral symmetry; bloodsucking parasite of fish; no bone; no jaw; sucker-like mouth and rasping teeth; larvae are mud-dwelling filter feeders
Hagfishes
Chordata; scavenges on dead animal carcasses; no bone; no jaws; tongue with rasping teeth; can tie themselves in knot for greater leverage when tearing food from prey; produce copious amounts of slime
What are hemiptera?
Cicadas, Stink bugs, Aphids, Assassin Bugs, Lice, Bed bugs, etc. • Herbivores, predators, parasites, incomplete metamorphosis • Some are important vectors of disease (plants and humans)
Endostyle
Ciliated groove on the ventral surface of the pharynx (secretes mucus to gather food particles); found in lancelets and tunicates and in larvae of lamprey (metamorphoses into the thyroid gland in adults, and is regarded as being homologous to the thyroid gland in vertebrates)
alveolates
Ciliates, Apicomplexans, and Dinoflagellates
What is cleavage in metazoans? Compare and contrast cleavage types in protostomes and deuterostomes.
Cleavage is way in which the cells stack there can be two kinds either radial or spiral. It is the division of cells in the zygote post fertilization Radial ; are a characteristic of deuterostomes and are stacked in appearance and determined by proximity to other cells, anus is formed first and the mouth, The spiral characteristic of protostomes unequal division fate is determines very early, mouth then anus is formed.
What is cleavage in metazoans? Compare and contrast cleavage types in protostomes and deuterostomes.
Cleavage refers to the division of cells in the zygote past fertilization. Considerable variation exists but there are two general patterns: radial and spiral. Radial: characteristic of deuterostomes. Equal division of cells, stacked appearance, cell determined by proximity to other cells and late in development. Spiral: characteristic of protostomes. Unequal division of cells, embryo has distinct top and bottom, cell fate determined very early. Sponges and cnidaria have irregular cleavage Taken from lecture 27 Radial cleavage goes along with regulative Regulative→ Cell fate is determined by chemical gradient produced by the cell Spiral cleavage goes along with mosaic Mosaic→ distribution of mRNAs controls the fate of each
Give examples of two animal symbioses learned in lecture. What is being contributed by each symbiont?
Clown fish live with cnidarians anemones and they do not get stung by them because they have a protective coating that prevents the nematocyst from firing. Cnidarians benefit by clownfish luring other fish towards the anemone as a source of food. Also we see in termites and the protists, the termites provide protection and the food source will the protist digest the food (cellulose) and then provide the nutrients to the termite for it to have a nutritional benefit.
How do Cnidarians capture their prey?
Cnida-laden tentacles and conveyed into the gastrovascular cavity.
Hydrozoa
Cnidaria; incomplete gut; diploblastic; radial symmetry; colonial hydroids (Physalia, the Portuguese man-of-war) form large polymorphic floating colonies comprised of various types of polyps and attached medusa
What are some innovations of cnidarians? (Name all that were used in class)
Cnidocytes
What is a coelom? What are the three types of coela that we discussed in lecture? What are the differences between coelom formation in protostomes and deuterostomes?
Coelom = fluid-filled body cavity associated with mesoderm in triploblastic metazoans Acoelomate = no coelom - thin, don't move very fast - flatworms Pseudocoelomate = part of the endoderm still lines the coelom - kinda sloshy on the inside - roundworm/nematode Coelomate = coelom completely lined by mesoderm - all internal organs are well suspended, so they are capable of most active movements - earthworm Protostomes = schizocoely (splitting) - acoelomate, pseudocoelomate, coelomate Deuterostomes = enterocoely (pinching) - coelomate only
schizocoely
Coelom is formed by splitting of early mesoderm cell. Characteristic of protostomes.
Other trends in insect evolution
Coevolution with flowering plants; social insects
Evidence that choanoflagellates are sister group of Metazoa
Collar cells (choanocytes; shared between choanoflagellates and sponges), structure of mitchondria, DNA sequence data, choanoflagellates have homologue of metazoan cell signaling and adhesion genes
What characters define Choanoflagellates + Animals?
Collar cells, cell signaling and adhesion genes.
Name some of its major innovations.
Complete digestive tract, triploblasty + coelom, cephalization, increased sensory & locomotion, organ systems, body complexity
Holometabolous metamorphosis
Complete metamorphosis; Four life stages= egg--->larva--->pupa--->adult; major reorganization at pupal stage
Spongin
Complex network of collagen (some sponges only have this and no spicules and are harvested as bath sponges)
Exoskeleton
Composed of chitin and cuticle in proteins; for protection
Calcareous endoskeleton
Composed of plates or ossicles, often with spines and pincer-like sturctures (pedicellariae); skeletal plates (ossicles) are connected by a form of collagen which can be stiff or flexible---> neuronal control body "tone" without muscle action
What does circular muscles do in annelid movement?
Contracts the muscle, causing the segment to get skinny
How is LGT different from convergent evolution?
Convergent evolution is when two distantly related groups evolve the same adaptation independently; LGT is different because the adaptation is physically transferred between the two groups.
zooxanthellae
Coral dinoflagellate symbiosis, leak carbon products to the coral
What are the general characteristics of Malacostraca
Crabs, shrimp, lobsters • 50,000 species • Marine, freshwater, and terrestrial habitats • Scavengers, filter feeders, and predators
Explain the evolution of vertebrae, jaws, and bone using examples from the chordate phylogeny from lecture.
Cranium(Hagfish) → Vertebrae(cartilaginous in Lampreys) → Bone(ostracoderms) → Jaws(placoderms) Vertebrae evolve from ends of segmented muscle blocks where calcium phosphate is secreted with only remnants of notochord With jaws came the form of "teeth" from bony plates; jaws are derived from anterior gill arches and pharyngeal slits
Major groups of Echinidermata
Crinoidea (sea lilies, feather stars), Asteroidea (sea stars), Ophiuroidea (brittle stars), Echinoidea (sea urchins), Holothuroidea (sea cucumbers)
How do the different hypotheses for the phylogenetic placement of ctenophores affect our understanding of animal evolution? Think specifically about neurons and muscles as discussed in lecture.
Ctenophores have a nervous system w/a brain, muscles (developed from the mesoderm), a complete, one-way gut, mostly acellular mesoglea(the jelly like stuff), and sometimes they use cilia as teeth. Due to their complexity, the traditional phylogeny puts ctenophora as sister group to bilaterians(rest of animals except sponges), to easily explain important features that stand out (e.g brains/muscles). This relationship is termed acrosomata. This view is however directional, and assumes that evolution only goes from simple to complex. Another view involves coelenterata, which group cnidaria and ctenophora as sisters, but this is also a biased hypothesis Because they look alike? Yes! The most modern interpretation puts ctenophora as sisters to all other animals. This implies that the nervous system evolved twice, independently: once in ctenophores, and once in the MRCA of cnidaria and bilateria. It also implies that humans are closer to sponges than to ctenophores. Humans have a skewed view of animals, but many traits have been gained and lost, and many "simple" traits are actually result of reduction (e.g. sponges), so we as scientists have to expect lots of homoplasy.
What feature of cubozoan cnidarians is unusual in the context of cnidarian evolution? What other examples of homoplasy in animals have we discussed in lecture?
Cubozoan evolution is interesting because they are also called boxed jellies with toxic stings, but have very well-developed eyes. We have discussed the wings of different animals and the way the have all morphed for different purposes.
gymnosperms
Cycads, Ginkgos, Gnetophytes, Conifers
What is the ping-pong sponge?
Deep oceanic trenches, hooked spicules.
dorsal hollow nerve cord
Derived from the folding of the ectoderm. Main component of the central nervous system.
Challenges faced by plants in adapting to life on land
Desiccation, water transport, structural support against gravity, intense UV radiation, and dispersal of gametes and progeny
What are Chordates?
Deuterostomes with [notochord, dorsal hollow nerve cord, postanal tail, pharayngeal slits]=at least in embryo;
Evolution of lung
Digestive tract developed air pocket → air pocket evolved into either lung or swim bladder
belladonna poisoning
Dilated pupils, Sensitivity to light,, blurred vision, Tachycardia, Loss of, balance, Rash, Dry mouth and throat, Confusion, hallucinations, delirium, and convulsions
What do we mean by 'dimorphic' in the context of the cnidarian life cycle? Why is this not alternation of generations?
Dimorphic life cycle means that there are two different kinds of forms the medusa and polyp. They start has a polyp asexual stage where they develop the they move to become medusas and free form for sexual reproduction.
Reproduction of Arthropoda
Diocious Internal fert Often larval stage Some have metamorphosis
Ctenophores (comb jellies)
Diploblastic; radial symmetry; enigmatic group of uncertain position; radial symmetry, diploblastic development, complete gut, nervous system (nerve net), simple musculature; plankton feeders (some eat other ctenophores)
Cleavage
Early stages of cell division after zygote formation, resulting in multiple cells (blastomeres) and establishment of a longitudinal axis (animal-vegetal axis)
Coelomate
Earthworm
Oligochaetes
Earthworms and related freshwater species; classic deposit feeders; cross-fertilizing hermaphrodites held together during mating with mucus secreted by clitellum; eggs and sperm placed in protective cocoon from which small worms emerge
What groups comprise Ecdysozoa (as learned in lecture)? What is ecdysis? Specifically, what is being shed?
Ecdysozoa include the protostomes Nematoda and Arthropoda. Ecdysis is when the chitinous exoskeleton is shed, due to growth or morphological change.
advantages of seeds
Efficient dispersal of next sporophyte generation Protection of developing sporophyte plant Dormancy Embryo can rest for long time Development resume when conditions favorable Seed is provisioned w/ nutrients to help establish plant Integument often modified to facilitate seed dispersal
Feeding in fishes
Efficient; unidirectional flow. Water goes in mouth and out the pharyngeal slits
What are the two types of spicules in porifera?
Either made of Silica or Calcium. Has a variety of shapes
Coral and sea anemone reproduction
Either monoecious or dioecious
How does a virus penetrate a host's cell membrane?
Endocytosis (tricking the cell), mechanical penetration (trauma, vector), or they inject their genome with some bacterial viruses (insects?)
4th domain, separate origin, from within other groups
Explain how DNA analysis could be used in microbial forensic studies. What are different models for the origin of viruses?
Trilobites
Extinct group of marine arthropods; abundant and diverse 250-500 mya; bottom dwellers and probably scavengers
What are ostracoderms and why are they important
Extinct jawless fish in which bone likely developed
Unique characteristics of metazoans
Extracellular digestion in gut Zygote-blastula-gastrula
What is a biofilm?
Extracellular polysaccharide matrix Surface attachment Solid surfaces Soft tissue in living organisms Liquid-air interface Structural heterogeneity Genetic diversity- bacteria, archaea, protists, fungi, algae Embedded in the extracellular matrix; can attach to a variety of things; not uniform (structural heterogeneity)
Do Cnidarians have intracellular or extracellular digestion?
Extracellular; occurs in the gastrovascular cavity; digestion is later completed intracellularly by phagocytosis into nutritive cells ( of the gastrodermis)
halophily vs. thermophily
Extreme halophiles in 1 monophyletic group in 1 phylum of archea Hundreds of thermophiles scattered, can't make into monophyletic group
Communication in cephalopods
Largely visual; movements (of tentacles, fins, etc) and body color changes; chromatophores (cells with pigment): change shape---->changes color
nonvascular
Liverworts, Hornworts, Mosses, gametophyte dominant
angiosperms
Mature diploid embryo Nutritive triploid tissue (endosperm to nourish embryo) Protective seed coat Angiosperm seed is enclosed by the ovary wall of the carpel that gives rise to fruit
Why are sponges important to humans? Filtering Activities of sponges are important to marine ecosystems Marine Sponges are one of the most productive areas to prospect for new bio-active compounds
Filtering Activities of sponges are important to marine ecosystems Marine Sponges are one of the most productive areas to prospect for new bio-active compounds
Sea lilies, feather stars (Crinoidea)
Flower-shaped body; oral surface facing up; sea lilies attached to stalk; feather stars more mobile
advantages of flowers
Flowers attract animal for efficient pollination by offering pollinator rewards or deceiving animal pollinators. Plants and their pollinators have coevolved. (Gymnosperms use wind pollination)
Coelom
Fluid-filled body cavity surrounded by mesoderm; animals who have this are triploblastic
Hydrostatic skeleton
Fluid-filled cavity surrounded by muscles. Fluid is essentially incompressible, so action by antagonistic muscles changes shape of the cavity, causing movement; or maintains body support under hydrostatic pressure
Mantle
Fold of tissue along the dorsal surface that covers the visceral mass and enclosed the mantle cavity. Secretes the shell when present
Gastrulation
Formation of cell layers by invagination (in-pocketing) of blastula to form gastrula
Coelomate
Found in protostomes (schizocoelous plan) and deuterostomes (enterocoelous plan). Mesoderm covers ectoderm and endoderm
What is the evidence that some mammals returned to the sea in mammals?
Four pieces of evidence: 1) pelvic bones, 2) bone structure, 3) ear bones, 4) movement
medusa
Free-living, made asexually but function is sexual reproduction, cannot form colonies; oral end is down; not present in anthozoans
Alternation between an asexual polyp and sexual medusa
Free-swimming medusa release sperm and eggs, zygote develops into a ciliated larva (planula), larva settles and develops into a polyp, polyp buds asexually producing a colony of polyps, some polyps later produce (and release) medusae asexually
What are amphibia?
Frogs, Salamanders, Caecilians (chordata) • 7,000 described species; mostly frogs • Life cycle involves metamorphosis from tadpole larva (gills) to an adult (lungs) • Skin is used for respiration, lungs lost in some groups.
absorptive heterotrophy
Fungi digest food outside body by secreting digestive enzymes into the environment to break down large food molecules, then absorb breakdown products
Ectomycorrhizae
Fungus wraps around the plant roots.
What is an example of convergence in mammals?
Given Australia's long isolation (~40 million years) nearly identical body morphology evolved among marsupials and eutherians.
3 types of sponges discussed in class? Glass sponges: silicaceous spicules Demosponges: silicaceous spicules, also tough fibers of protein Calcareous sponges: calcium carbonate spicules
Glass sponges: silicaceous spicules Demosponges: silicaceous spicules, also tough fibers of protein Calcareous sponges: calcium carbonate spicules
General life cycle of Ascomycota and Basidiomycota
HAPLOID (n): Mating type +(fusing of hyphae)=>Mycelium (n)+Mating type -=>Plasmogamy (fusion of cytoplasm)=>DIKARYOTIC (n+n): Dikaryotic mycelium (n+n)=>Fertilization=>DIPLOID (2n): Karyogamy (fusion of nuclei; often delayed step)=>zygote (2n)=>Meiosis=>HAPLOID (n): Spore-producing structure (n)=> (meiospores) Spores (n)=>Mitosis=> Mating type +
What are coral reefs?
Habitat types produced by cnidarians
The presence of bone in which of the following groups best supports the idea that cartilaginous fish (sharks, skates, and rays) secondarily lost bone? -Ostracoderms and placoderms -Tunicates -Ray-finned fishes -Hagfish and lampreys -Ampibians and Reptiles
Hagfish and lampreys
Innovations of Mammals (4)
Hair Sweat glands Mammary glands: the milk-producing gland of female mammals 4-chambered heart
Where does asexual reproduction fit into the Ascomycota and Basidiomycota life cycle?
Happens during the haploid stage, after the spores have gone through mitosis, using conidiophores
LGT, sexual recombination, interactions w/ other organisms
How can organisms acquire functions from external sources?
once
How many times did the symbioses for chloroplasts and mitochondria evolve?
Schizocoely:
How protostomes produce coelom A hollow cavity forms in the mesoderm as mesoderm cells separate from each other
How did the swim bladder evolve?
In actinopterygiians, this primitive lung was modified into a swim bladder for controlling buoyancy
Mesoderm
In bilateria, gastrulation is complete and a mesoderm forms, mesoderm differentiates into muscles & major organ systems
How the mesoderm forms
In protostomes: schizocoely In deuterostomes: enterocoely
Platyhelminthes (flatworms)
Include free-living flatworms (Planaria), flukes, and tapeworms
Hemimetabolous metamorphosis
Incomplete metamorphosis; Three stages= egg--->nymph (similar in structure to adult but with wing pads only)---->adult
Benefits of life on land for plants
Increased access to sunlight for photosynthesis, increased access to gasses, and decreased competition initially
What are trend in vertebrate evolution
Increased cephalization Increased agility of movement New feeding modes such as predation! "Physiological upgrading"
Trends of vertebrate evolution
Increased cephalization, increased agility of movement, new feeding modes (especially predation), "physiological upgrading"
Important innovations that arose within chordates
Internal skeleton with vertebrae, jaws, two pairs of walking limbs
What is a virus (2)?
Intracellular parasites with nucleic acids that are capable of directing their own replication and are not cells
Solar-powered sea slugs
Kleptoplasty --> the stealing of plastids for use of photosynthetic machines
Archea phylums
Krarchaeota, Nanoarchaeota, Creoarcheota, Euryarcheota
Chordates
Lancelets (Amphioxus), sea squirts, jawless fish, jawed fish, tetrapods; Internal skeleton with vertebrate, jaws, two pair of walking limbs
What groups make up chordates?
Lancelets, sea squirts, jawed fishes tetrapods: amphibians, reptiles, mammals
mian features of vertebrates
Large brains Anterior skull Ventral heart Vertebral column
Ratites
Large flightless birds confined to the southern hemisphere; Kiwis, emus/cassowaries, ostriches/rhea (REVIEW PHYLOGENETIC TREE ON SLIDES)
Foot in mollusks
Large ventral muscle mass (modified ventral body wall), chiefly for locomotion, modified for burrowing in bivalves and as arms/tentacles and siphon in cephalopods
Foot
Large, ventral muscle mass. Used for locomotion, burrowing, and feeding, Modified as siphon (bivalves) or tentacles (cephalopods)
Ray-finned fish (Actinopterygii)
Largest clade of bony fish; very diverse feeding habits
What are free-swimming Larvacean Tunicates?
Larvacean tunicates do not undergo the metamorphosis and retain all of the chordate features.
Echinoderm symmetry
Larvae are bilateral → adults pentaradial (with exceptions)
secondary growth
Late in the Devonian, thickened woody stems of xyl, not in monocots, seed plants
What are some advantages to being multicellular?
Leads to regional specialization of the body & an increase in overall performance
Diagnostic features of seed plants
Leaves (megaphyll), roots (complex), overtopping growth, heterospory, seed
Know the diagnostic features of Vascular Plants (Tracheophytes)
Leaves because of the need for water and photosynthesis. It also needs vascular tissue for the transportation of water and nutrients as well as structural support. The vascular tissue includes the xylem moves water and minerals to aerial parts of the plant, and phloem
Amniotes include 3 groups
Lepidosaurs (lizards, snakes, tuataras) Birds Mammals
Major extant clades within reptiles
Lepidosaurs (snakes and lizards), turtles, crocodiles, dinosaurs
Cnidaria Reproduction
Life cycle typically involves alternation of generation between asexual polyp stage and a sexual medusa stage; they are sexually variable
Endophytic fungi:
Living within aboveground parts of plants
What are the difference between lizards and snakes?
Lizards have eyelids and ears.
What are Lepidosaurs?
Lizards, Snakes, Tuataras • Snakes and lizards (Squamata) • Tutataras (Sphenodonta) - chordata
Relevance of coelacanths to tetrapods
Lobed fins developed after ray finned fishes, before coelacanths
Brittle stars (Ophiuroidea)
Long slender arms (multi-branched in basket stars), locomotion by arm movement, abundant but secretive (light-avoiding)
1.Flatworms
Lophotrochozoans family aka Platyhelminthes with includes flukes and tapeworms - DONT have coelomate
Arthropoda
Lots of diversity; bilaterally symmetrical coelomate protostomes, segmented body with structures repeated in each segment, paired jointed appendage, tagmosis, exoskeleton organized into articulating plates, growth by ecdysis, paired compound eyes composed of many photoreceptive units (ommatidia), reduced coelom and open circulatory system (hemocoel), complete gut with regional specialization, well developed nervous system, complex but variable excretory and respiratory systems
Describe mating in spiders. What parts of the male spider are modified for sperm transfer?How do spiders use silk?
Male pedipalps are modified for sperm transfer. Internal fertilization takes place, but the females have both internal and external reproductive organs. Complex mating rituals take place. Spinnerets are at the backside of the abdomen of a spider which produce silk → webbing → capturing prey/protection/ egg cases/ molting
Describe spider reproduction
Males have modified pedipalps for sperm delivery; female genitalia is mostly internal; elaborate courtship and rituals; eggs are deposited into an egg sac
What are the groups in amniotes?
Mammals, Lepidosaurs, Turtles, birds, crocodilians
Significance of nematodes
Many species of medical/agricultural importance
Nudibranchs (sea slugs)
Marine gastropods without a shell; have warning colors because many species are toxic
Ascomycetes
Marine, freshwater, terrestrial, septate, asci with ascospores, penecillin, dutch elm, truffle, conidiophores (spore stalks), throughout
Army Ants
Mass foraging, nomadic ants with specialized queens, colonies contain up to 20 million workers, prey upon invertebrates and occasionally small vertebrates; keystone species=because of intensity of predation and a diverse fauna of dependent organisms
pollen
Microgametophyte consists of 4-8 haploid cells. 2 are male gametes/sperm, rest form protective coating/sporopollenin (protect pollen from desiccation, can be elaborated to enhance dispersal) Efficient transfer of sperm to megagametophyte--fertilization can occur w/o water, sperm can travel further by wind or animal pollinator
extracellular matrix
Mixture of non-living stuff that most cells need to survive. Holds cells together. Made primarily of collagen.
Bivalves
Mollusca; clams, mussels, scallops, oysters; shell in two parts, hinged dorsally; mostly sedentary filter feeders (using gills); no radula; food and water brought in through siphon; foot modified for burrowing
Chitons (Polyplacophora)
Molluscs (Lophotrochozoans); bilaterally symmetric; protostomes; triploblastic; dorsoventrally flattened, multiple shell plates, multiple gills
What are the types of reproduction possible in molluscs? Which groups have internal/ external fertilization?
Molluscs are mostly dioecious(sexual). Some such as chitons and bivalves have external fertilization while others gastropods and cephalopods have internal fertilization.
Ecdysis
Molting of chitinous exoskeleton
What are the differences between monoblast, diploblastic, and triploblastic? Give specific animal examples for each of these body plans.
Monoblast: 1 tissue layer. Only contains ectoderm Ex: Sponges. Diploblastic: 2 tissue layers, ectoderm and endoderm. Ex: Cubazoa (Cnidarian) Triploblastic: 3 tissue layers, ectoderm, endoderm, and mesoderm. Ex: Horseshoe crab (Arthropod)
What are the differences between monoblastly, diploblasty, and triploblasty? Give specific animal examples for each of these body plans.
Monoblastic means that there is a single layer of cells. Diploblasty refers to the lining of having both an ectoderm and an endoderm. Triploblasty is having all three ecto, endo and mesoderm placozoa have a monoblastic layer, they are simple singular organisms. Diploblastic jellyfish, sea anemones etc, while a triploblastic includes humans and roundworms to name a few.
Land Snail reproduction
Monoecious (hermaphrodites)=they exchange sperm. Pierce with "love darts"
great plate count anomaly
More organisms observed than can be cultured. rRNA sequencing from environmental samples. Metagenomics: study of genetic material recovered directly from environmental samples improves phylogenetic resolution
stomata
Mosses & Hornworts have _______ to regulate gas exchange
What are jointed appendages in arthropods and explain its diversity?
Muscles that are attached to inside of skeleton that move the joints jointed appendages are specialized for different functions and different appendages specialize for different functions
What are pedipalps?
Most anterior pair of legs. They are variously specialized as pincers in scorpions, sensory organs in spiders, and locomotory organs in horseshoe crabs.
Reproduction of molluscs
Mostly dioecious, some hermaphrodites Fertilization mostly external in chitons/bivalves, internal in gastropods and cephalopods Often goes: trocophore larva-veliger larva-adult
What are the types of reproduction possible in molluscs? Which groups have internal/external fertilization?
Mostly dioecious, some hermaphrodites; external fertilization(chitons and bivalves) internal fertilization(gastropods and cephalopods)
Molluscan Reproduction
Mostly dioecious, some hermaphrodites; fertilization mostly external in chitons and bivalves, internal in gastropods and cephalopods; OFTEN: trochophore larva---->veliger larva---->adult; direct development in some molluscs
How do sponges feed
Mostly filter feeders, have intracellular digestion
Medusa
Motile form of Cnidaria
Protostomes
Mouth forms first; Arrow worms, Annelida, Arthropoda, Mollusca
What is a Metazoa?
Multicellular animals, eukaryotic heterotrophs that are usually capable of movement.
Metazoa
Multicellular organisms with cell specialization, communication (nutrient exchange) and interdependency; heterotrophs; food ingested, usually followed by extracellular digestion in a gut (intracellular digestion in sponges); diplontic life cycle; distinctive male gametes: spermatozoa; distinctive development: zygote-> blastula -> gastrula (latter not in sponges); motility, at least in certain stages of life cycle; distinctive cell junctions (septate junctions) unique to metazoans; collagen (fibrous protein) in the extracellular matrix; animal specific miRNA
Synapomorphies of animals (4)
Multicellularity Unique junctions between cells Extracellular matrix Blastula
Synapomorphies of metazoans
Multicellularity Diplontic life cycle Zygote-blastula
How many times has multicellularity evolved on the tree of life? What feature is key in meeting the definition of multicellularity, but is not required for coloniality? Given that multicellularity has evolved so many times, what are its main advantages?
Multicellularity has evolved multiple times on the tree of life (36 times to be exact) A key feature for defining multicellularity is the need for specialization in that some cells give up reproduction while others are used exclusively to produce only gametes 'which is not the case in coloniality Some advantages include increased size (safety from predation, efficient feeding), division of labor (specialization, increased complexity) dispersal (specialization of cells devoted to producing gametes, gametes likely to travel further).
. How many times has multicellularity evolved on the tree of life? What feature is key in meeting the definition of multicellularity, but is not required for coloniality? Given that multicellularity has evolved so many times, what are its main advantages?
Multicellularity has evolved multiple times ~36 time. Key features for the definition of multicellularity is the ability for specialization and the expansion of reproduction. Some advantages include an increase in size, division of labor, dispersal of gametes.
What are the synapomorphies of Metazoa? What evidence supports the unique evolution of multicellularity in metazoans?
Multicellularity, unique cell to cell junctions, extracellular matrix, diplontic life cycle, blastula stage in development, determinant of growth
Do all protosomes have coelom?
NO, some do have complete coelom, like earthworms. however some have a pseudocoelom like roundworms or are completely lacking one like flatworms which just have a gut cavity. If there is one, it is formed by mesoderm arising near the lip of the blastopore and splitting
denitrifiers
NO3- to NO2
Synapomorphies of Metazoans
NON UNIQUE 1. Mutlicellularity (in Fungi too) 2. Diplontic life cycle UNIQUE SNAPOMORPHIES 1. spermatozoa 2. collagen 3. septate junctions 4. blastula
Cephalopods
Nautiluses, squids, octopuses, cuttlefish, etc; wholly marine; actively mobile predators; largest and smallest invertebrates; foot modified as tentacles and a siphon; nautilus with shell, in others shell is internal (squid, cuttlefish) or lost (octopus); locomotion by jet propulsion: siphon expels water from mantle cavity; capable of learning and memory tasks; can learn by observation of others (octopus)
Where does mesoderm form for protostomes
Near lip of blastopore Coelom formed by splitting of mesoderm
Arthropoda reproduction
Nearly all are dioecious, fertilization usually internal, development often involves larval stage (some taxa have direct development), complex metamorphosis in some insects and crustaceans
Pseudocoelomate
Nematoda; protostome; triploblastic; Roundworm
What is the significance of Nematoda in terms of diversity, medicine, and agriculture? Give at least one example of nematodes that impact human society.
Nematodes are widely distributed in animals and are abundant in some environments, they are present has internal parasites.
The alternative hypothesis for ctenophore phylogeny suggests
Nerves and muscles evolved two times
Sea urchins (Echinoidea)
No arms, but usually long spines; ossicles (skeletal plates) fit together into a test; omnivores, important as grazers of algae
Synapomorphies of chordata
Notochord Dorsal hollow nerve cord Post-anal tail
chordate
Notochord, Dorsal tubular hollow nerve cord, Post-anal tail, Pharyngeal slits, endostyle/thyroid
Chordate features
Notochord, dorsal hollow nerve cord, postanal tail, pharyngeal slits (openings between the pharynx and the exterior, associated with filter feeding or respiration
Pogonophorans (beard worms)
Now recognized as annelids; bizarre gutless worms, live in chitnious tubes often at great depths; species inhabiting hydrothermal vents have symbiotic bacteria that use hydrogen sulfide as energy source to fix carbon (chemoautotrophs)
What are the main components of a virus?
Nucleic acid, capsid (protein coat), envelope (lipid membrane=not all)
Clitellata
Oligochaetes and leeches; freshwater and terrestrial; lack parapodia and tentacles; clitellum; clade
principle of parsimony,
One approach for inferring phylogeny from character data based on the _________ that uses Occam's razor.
How do earthworms reproduce?
One worm exchanges sperm with another worm, and then both worms fertilize their eggs with donated sperm. The egg and sperm fuse in a mucus cocoon secreted by the clitellum
Acoelomate
Only found in protostomes
Is segmentation homologous?
Opinions vary, but they form from different embryonic tissue layers. Annelid segments form from ectoderm. Chordate segments form from mesoderm (and they aren't fully divided). Arthropod segments form from ectoderm
Difficulty with sponge clade?
Originally sponges were thought to be a paraphyletic group ( with 1. glass sponge 2. demosponge 3. calcareous sponges) suggesting sponges features represented the MRCA of ALL animals. However, now it is believed that sponges are monophyletic so that all their features are just synapomorphies of sponge lineages.
Know the diagnostic features of Euphyllophytes
Overtopping growth Megaphyll leaves Complex roots
the diagnostic features of Euphyllophytes (3)
Overtopping growth Megaphyll leaves Complex roots
Diagnostic features of euphyllophytes (true-leaved plants)
Overtopping growth (with a dominant axis and side branches), megaphyll leaves (larger, "true" leaves with more complex vascularization derived from side branches), complex roots (branching root hairs derived from dermis)
Evidence of return to sea (in whales) (4)
Pelvic bone Bone structure Ear bones Movement
Synapomorphies of echinoderms (3)
Pentaradial symmetry as adults Endoskeleton of calcareous plates Water vascular system
Synapomorphies of echinoderms
Pentaradial symmetry as adults Endoskeleton of calcareous plates Water vascular system
Ecdysis
Periodic molting of exoskeleton
Eutherians
Placental animals; convergence between marsupials and eutherians
Eutherians
Placental mammals
When did jaws evolve?
Placoderms
Why are plant-feeding insects more species-rich than sister taxa that do not feed on plants?
Plant-feeding insects can specialize more than predators and scavangers aka more available niches
Know the diagnostic features of plants (Plantae)
Plants have chloroplasts from a unique primary endosymbiosis with cyanobacteria and chlorophyll a. THIS IS FOR ALL PLANTS
Think about the different types of larvae that we have discussed. What is interesting about the trochophore larva of molluscs? How about the planula larva of cnidarians or the bipinnaria larvae of echinoderms?
Planula larva of cnidarians is a motile, bilateral ciliate that becomes a sessile polyp Trochophore larva of molluscs is specialized and free swimming with a mouth, stomach, intestine, and anus Bipinnaria larvae of echinoderms are all bilateral while the adults tend to be pentaradial (with exception of sand dollars and sea cucumbers; secondarily bilateral)
Leeches
Predators and blood-sucking ectoparasites; lack setae; have anterior and posterior suckers for attaching to prey; blood-feeders produce anesthetics (pain-killers), an anticoagulant, and a vasodilator
catch collagen
Present in echinoderms. Can change viscosity or consistency (can make their bodies hard or soft) without using muscles, so they never get tired. Controlled by the nervous system.
Scyphozoa:
Primarily medusae, NEVER colonial. (Jellyfish)
diagnostic features of Plants (Plantae) (3)
Primary endosymbiosis of chloroplast Cellulose cell wall Chlorophyll a
Major differences between Prokaryotes and Eukaryotes
Prokaryotic: Lack membrane bound organelles, lack a nuclues, divide by binary fission not mitosis, have peptidoglycan in cell wall Eukaryotes: Have membrane bound organelles, have a membrane enclosed nucleus, divide by mitosis, do not have peptidoglycan in cell wall
Radula
Rasping organ for feeding found in mollusca
Radula
Rasping organ used for feeding
define radula (mollusca)
Rasping organ used for feeding (lost in filter feeders
Annelid reproduction: asexual
Regeneration from body fragments
Describe feeding in sea stars. What are the functions of the water vascular system and catch collagen in their feeding behavior?
Sea stars use their catch collagen, which can change viscosity and consistency, as well as their water vascular system, to pull apart the adductor muscles of bivalves, and then they evert their stomachs into the organism and eat it. Controlled by nervous system
Nematoda (Nematodes)
Roundworms; include Caenorhabditis elegans; many species of medical and agricultural importance
Polychaeta
Sand worms, tube worms, clam worms, etc; mostly marine worms, well develop head with tentacles and other sensory structures; well developed parapodia and setae; diverse feeding habits: predators, suspension, deposit
Polychaeta characteristics
Sand worms, tube worms, etc Mostly marine worms Well developed parapodia and setae Diverse feeding habits
distribution of chloroplasts
Scattered distribution. Primary endosymbiosis in the common ancestor plantae, secondary symbiosis in other lineages.
Cnidaria
Sea anemones, corals, seal jellies, cube jellies, hydrozoans
Anthozoa
Sea anemones, sea fans, corals, etc; No medusa stage; both solitary and colonial species
Echinodermata
Sea lilies, sea stars, brittle stars, sea urchins, sea cucumbers; bottom-dwelling marine organisms; predators, grazers, particle feeders; calcareous endoskeleton; pentaradial symmetry around oral/aboral axis; no head; larvae are bilaterally symmetrical; complex water vascular system derived from coelom (functions in gas exchange, locomotion, and feeding); complete gut; diffuse nervous system, no brain; respiration and excretion by diffusion across epidermis
Tunicates (urochordates)
Sea squirts (ascidians) and relatives; sea squirts are bag-like, with enlarged perforated pharynx for filter-feeding
What is a tunicate
Sea squirts and relatives, have enlarged perforated pharynx for filter feeding
If sperm enter the water and enter another sponge, why don't they get eaten?
Specialized choanocytes transport conspecific sperm to archaeocytes.
Cephalopod eye
Single lens eye convergent with that of vertebrates; excellent visual activity; some common genes involved in the two groups (protostomes and deuterostomes); concept of "deep homology"
Incomplete gut
Single opening (serving as mouth and anus) leads to gastrovascular cavity
Spicules
Skeletal elements in Porifera
early vascular plants
Small Relatively simple organisms (lacked leaves, roots, tracheids) Dichotomously branching sporophyte with apical sporangia *Increased spore production relative to branched counterparts *Facilitated evolution of novel organ types
What factors have contributed to the success of insects? Be able to describe this in terms of terms of their morphology, development, feeding, ecology, etc.
Some of the factors include the ability for complete metamorphosis which means that the larval and adult stage do not eat the same things, which allows for them to coexist without having to fight for the food supply since each has their own. They are also have specialized feeding capabilities.
Cnidocytes
Specialized cells with unique stinging or adhesive structure called a cnida; coiled cnia is discharged suddenly by hydrostatic pressure, penetrating prey and injecting poison
Give examples of two animal symbioses learned in lecture. What is being contributed by each symbiont?
Sponges have mutualistic algae or cyanobacteria. Some have commensal organisms that use them for shelter. I.e shrimp that is obligate inhabitant of glass sponge. Shrimp as small larva or juvenile swim in between spaces and eat. As they grow too big to get out, they end up in the sponge for life. Beard worms are chemolithoautotrophs that live in deep ocean environment, w/ no gut and are in obligate symbiosis with bacteria. The bacteria help break down lipids and bone. Zooxanthellae in corals are able to do photosynthesis and provide the coral with carbon while the coral serves as protection, nitrogen and phosphorus giving to the Zooxanthellae
Describe the body plan of sponges. What is the principle of continuity and how does this relate to feeding in sponges?
Sponges: asymmetrical; filter feeders (lined with choanocytes for intracellular digestion) Principle of continuity: (Area-in)(velocity-in) = (Area-out)(velocity-out); smaller exit means higher velocity Water is the slowest inside the sponge so nutrients can be absorbed Sessile adults Motile larvae Totipotency = sponge cells can change into other cells Choanocytes = synapomorphy Spicules = supportive/ defensive = synapomorphy Have taxanomic value Asexual and sexual reproduction
sori
Sporangia on undersides of leaves
Describe the general life cycle of the Ascomycota and Basidiomycota. What stages of the life cycle are primarily haploid, diploid, or a dikaryon? Where does asexual reproduction fit in the lifecycle?
Spores (haploid/n) go through mitosis to form hyphae (haploid/n). Then it goes through a stage in the sexual reproduction call plasmogamy in which the cytoplasm of the two hyphae fuses together and form a dikaryon (n+n). This state is then followed by karyogamy, where the nuclei fuses together (2n) and then undergo meiosis to produce spores.
Two cleavages for invertabrates
Sprial and radial
Notochord
Stiff, flexible rod of collagen that serves as a point of support and muscle attachment. Derived from mesoderm, replaced by vertebrate in vertebrates. The combination of postanal tail, notochord , and muscles provides propulsion.
Current research directions on microbial communities on humans
Studies in obesity, autism, Crohn's diesease
Differentiated cell types in Porifera
Such as choanocytes, pinacocytes, and amoebocytes, but no true tissues or organs
Amphibian decline
Suffered declines due to pathogenic chytrid fungus
Consequences of an exoskeleton
Support for walking on land, protection against predators, chitin reduces water loss, constraints on growth
Compare and contrast the evolution of the swim bladder and lungs.
Swim bladder Primitive lungs were basically "air pockets" which were modified into a swim bladder for buoyancy Lungs Pharyngeal slits are an ancestral feature of lungs Lungs are defined as gas filled organs and evolved early Can be viewed as the same thing because they can't both exists at once CAN have gills and lungs CAN have gills and swim bladder CAN'T have lungs and swim bladder Pharyngeal slits → lungs →(many fish but not all) → swim bladder
What is radial symmetry?
Symmetry about a central axis.
What are the synapomorphies of Chordata? How is each feature used by chordates?
Synapomorphies (at least in the embryo) include: a notochord, dorsal hollow nerve cord, and a post anal tail. The notochord is used for support and muscle attachment. Dorsal hollow nerve cord develops to form the central nervous system in vertebrates,
Chordates Features
Synapomorphies : 1. Notocord- dorsal supporting rod that develops in embryo and is replaced by vertebrate 2. Dorsal hollow nerve 3. post anal tail Other features 1. pharyngeal slits- openings between the pharynx and the exterior. used for respiration/ filter feeding ( also in hemichordates >>not a synapomorphy)
What are the synapomorphies of echinoderms? Describe how the body plan of echinoderms has been modified in the major groups discussed in class.
Synapomorphies are the pentaradial symmetry as adults, the endoskeleton of calcareous plates and the water vascular system.. They also have spines or pedicellariae for movement, they have no head or brain. And are able to reproduce. You see that they have evolved from water lilies to starfish, to sand dollar and sea cucumbers.
What are the synapomorphies of Chordata? How is each feature used by chordates?
Synapomorphies of chordata: Notochord: stiff, flexible rod of collagen that serves as a point of support and muscle attachment. Dorsal hollow nerve chord: forms the central nervous system in vertebrates Post anal tail Some other common features include pharyngeal slits (muscular organ for feeding and respiration), closed circulatory system, and segmentation. The combination of postanal tail, notochord, and muscles provides propulsion.
What are the in panarthropoda?
Tardigrades, Onychophorans, Arthropods
Major eusocial insects
Termites, ants, some bees, some wasps
Glomeromycetes
Terrestrial, arbuscular mycorrhizae, coenocytic, Use glucose from plant as energy, Only asexual reproduction
Functional capabilities of the human microbiome
The ability to digest different kinds of carbs, synthesize vitamins, break down toxins, etc
What is an amniotic egg
The amniotic egg protects the embryo from desiccation • Amniotes lack a metamorphic larval stage as in amphibians - homologous to placenta
What innovations of amniotes have enabled them to successfully adapt to a land-based existence.
The amniotic egg that allowed for the protection for the embryo and prevented desiccation allowed for its coexistence on land. Amniotes lack a metamorphic larval stage as amphibians have. Also have impermeable skin & efficient kidneys.
What is a blastula? What is a gastrula? How do these relate to gut types in animals?
The blastula is a ball of cells that is developed during the embryo stage, it is hollow if you cut a sections from it. The gastrula is a cup looking thing in that forms from the blastula. These relate to the type guts of animals because this is where it is determined whether it is a complete or incomplete gut, and if it is complete it also determines whether the mouth or anus is developed first.
Use the morphology of fruiting bodies to illustrate examples of homoplasy in fungi.
The example from lecture was the subterranean fruiting body, called a truffle. These convergently evolved in ascomycota and basidiomycota in response to drying conditions. Enclosed fruiting bodies (truffles, puffballs) have evolved multiple times within Basiomycota and Ascomycota; beneficial to survive from dry conditions
aortic arches (earthworm)
The heart like pumping organs of earthworms.
Blastopore:
The opening in the gastrula that develops into the mouth in protostomes and the anus in deuterostomes
. Describe movement in an earthworm. What are the roles of segmentation, paired setae, septa, circular muscles, and longitudinal muscles in earthworm movement?
The paired setae are present and serve as anchoring points for movement. The segmentation can change shape and use it for its locomotion, longitudinal segment get fat and circular contract to make it smaller and skinnier and allow for movement.
Describe mating in spiders. What parts of the male spider are modified for sperm transfer? How do spiders use silk?
The pedipalps are the modified as sperm delivery organs which are considered sensory organs but produce and deliver the sperm. Spiders use their silk to climb, make bundles, not all spiders produce webs, the silk come from their openings called spinnerets
Lateral Gene Transfer
The transfer of genetic material to unrelated organisms. Transformation,Conjugation, and Transduction
What is muscular hydrostat function?
The tentacle must have a constant volume. So when there is a change in one dimension, there must be a change in another in order to maintain constant volume
Endosymbiosis
The theory that the eukaryotic cell evolved via the engulfing of on prokaryotic cell by another
What are the three sponge body plans? Given your understanding of these plans, which sponges do you think are smallest? How about largest?
The three sponge body types are asconoid have choanocytes and lined channels are the smallest, syconoid, and leuconoid these are the larges and have choanocytes lined chambers.
How do sponges undergo sexual reproduction
They are hemaphrodites but not self-fertilizing, release gametes at different times
How are coelacanths relevant to the evolution of tetrapods?
They are relevant because they are among the first sigh with some kind of bones or rays in their fins. This allowed for later development of limbs.
What characteristics of fungi make them useful for industrial or medical purposes?
They have secondary metabolites that fight off other bacteria and fungi and they use absorptive nutrition instead of phagocytosis so it makes fermentation easier
Describe the body plan of sponges. What is the principle of continuity and how does this relate to feeding in sponges?
They have spicules that serve as supportive and defensive structures . The principle of infinity says whatever succeeds for the finite also succeeds for the infinite. It also states that X are in times the velocity in = x are out times the velocity. If the are in is large and the are out is smaller than the velocity will be greater out to deal with the .pressure. Principle of continuity: all changes are gradual and natural, i.e. the organic world is recognized as constantly changing and the parts of life are all connected in some way
What do we mean by 'dimorphic' in the context of the cnidarian life cycle? Why is this not alternation of generations?
This is not alternation of generations, because there is no multicellular haploid stage. It is a diplontic life cycle.
Triploblastic
Three cell layers formed in gastrulation: ectoderm, endoderm, and mesoderm
Triploblastic animals
Three cell layers formed, ectoderm, endoderm, and mesderm; Bilaterians (Arrow Worms, Lophotrochozoans, Ecdysozoans, Echinodermata, Hemichordates, Chordates)
Triploblastic
Three tissue layers form 1. Ectoderm 2. Endoderm 3. Mesoderm
Why are tunicates chordates?
Urochordate larvae show alllll chordate characters
Explain tissue and organs. Tissue: group of similar cells organized into a functional unit qa Organs: A body part composed of different tissue organized to perform a distinct function Organ system: An interrelated & integrated group of tissues & organs that work together in a physiological system
Tissue: group of similar cells organized into a functional unit qa Organs: A body part composed of different tissue organized to perform a distinct function Organ system: An interrelated & integrated group of tissues & organs that work together in a physiological system
What are the mechanics of suction feeding? How do fish use reversible jaws and gills to feed underwater?
Unidirectional flow, water goes in the mouth and out the pharyngeal slits (lecture 32) Fish use their reversible jaws by extending them out as they draw water in through their mouth and out through their gills
Major features of Bilateria
Triploblastic construction, bilateral symmetry, anterior/posterior axis, cephalization
Think about the different types of larvae that we have discussed. What is interesting about the trochophore larva of molluscs? How about the planula larva of cnidarians or the bipinnaria larva of echinoderms?
Trochophore larva of molluscs have large ciliated lobes and are small, spherical shaped, and translucent. Planula larva of cnidarians are flat, ciliated and bilat symmetry. Bipinnaria larva of echinoderms are covered in cilia and typically form arms (usually this is the larva of sea stars).
Torsion
Twisting of posterior end of body 180 degrees so that the anus and mantle cavity lie above the head-----> potential fouling problems
Diploblastic
Two cell layers formed in gastrulation = ectoderm and endoderm
Diploblastic animals
Two cell layers formed, ectoderm and endoderm; Cnidaria and Placozoans
Diploblastic
Two cell layers separated by gel-like mesoglea; Placozoa, Coelenterata (Ctenophores and Cnidara)
Diploblastic
Two tissue layers form 1. Ectoderm 2. Endoderm
How many body forms of Cnidaria are there?
Two; polyp and medusa; many alternate between the two body forms
soft
Uncertainty in the phylogeny (in which case we call it a ________ 'polytomy')
ON THE FINAL: Where are the species that were missing?
Unexplored areas, obligate symbionts, species that are morphologically similar but are actually different species (cryptic species), organisms that can't be cultured
What is the colonial theory?
Unicellular organism form colonies, eventually evolving different roles for cells in the colony
Rhizaria
Unicellular, aquatic, long thin pseudopodia, cercozoans, foraminiferans, radiolarians
Water vascular system
Water enters via an opening (madreporite) and it circulates through a system of canals that culminate in a series of tube feet (with suckers); antagonistic muscle action on the tube feet can alternately extend and retract them
Aquiferous system in Porifera
Water flows continuously into numerous incurrent pores (ostia), traverses internal chambers, and exits out of one or more excurrent pores (oscula); propelled by movement of flagella of many choanocytes; varies in complexity among different kinds of sponges
additional
We cannot distinguish between these two types of polytomies from the tree alone: the interpretation of a polytomy as soft or hard requires _______ information
dichotomous
We typically assume that the underlying phylogeny is ________: i.e., that every speciation event gives rise to only two descendant species
ether linkage
What are some features found in most/all archaea but not in bacteria or eukaryotes?
peptidoglycan
What are some features found in most/all bacteria but not in archaea or eukaryotes?
No operons Plasmids rare 3 DNA polymerases 80S polymerase
What are some features found in most/all eukaryotes but not in bacteria or archaea?
rRNA
What did Carl Woese use to infer the Three Domain Tree of Life
Universal common traits/homologies
What evidence would be needed to determine if life on another planet was related to life on earth?
archaea
What kinds of organisms are not known to be pathogens and parasites?
Where are the species? -will be a question on the final-
Where are all these species hiding that we have not discovered yet? 1. unexplored habitats ( dirt, ocean, extreme environments, tropics) 2. obligate symbiosis (symbionts, parasites etc, there hidden in other organisms) 3. cryptic species ( morphologically identical but phylogenetically distict) 4. unculturable microbes: bacteria, archae, fungi, etc : ex. metagenomics
Trochophore
a ciliate, free-swimming larva common to several groups of invertebrates, as many mollusks and rotifers
What are Neoptera?
Winged insects (hexapoda) whose wings fold horizontally
What are paleoptera?
Winged insects (hexapoda) whose wings fold vertically
What is spongin
a collagen based protein that provides structure and flexibility found in sponges.
What is the principle of continuity?
X-area in • velocity in = X-area out • velocity out
What groups comprise Chelicerata?
Xiphosura (horseshoe crab) and Arachnida (Mites and ticks, scorpions, spiders)
What is xylella and how does it get around to other plants?
Xylella is the bacteria responsible for pierce's disease and it gets around through an intermediate such as the glassy winged sharpshooter
Is flight homologous in insects?
Yes, however, wings have been lost multiple times within insects
Coral/zooxanthellae relationship
Zooxanthellae --> coral: photosynthetic products (glycerol, glucose) Coral ----> zooxanthellae: metabolic wastes (nitrogen, phosphorous)
Animal Development
Zygote ----> Blastula ----> Gastrula
Diagnostic features of land plants (embryophytes)
[Sporic (alternation-of-generations) life cycle=>sporophyte=>sporangia=>air-borne spores=>sporopollenin], cuticle, rhizoids, microrrhizae, antheridia, archegonia, protected embryo
holometabolous
a change of state during the life cycle of an organism in which the body is almost completely rebuilt to produce an individual with a very different body form (butterflies, moths, beetles, ants, wasps, flies)
data matrix
a chart of characters and character states that is quantified with numbers
stramenopiles
gliding motility, one nucleus, fission, plant pathogens
What is the blastopore?
the opening of the central cavity of an embryo in the early stage of development.
blastopore:
the opening of the central cavity of an embryo in the early stage of development. Becomes mouth in protostome Becomes anus in deuterostome
Complete gut:
the organism has two holes and the food only goes one way through the digestive system
Cephalothorax:
the part of the chelicerata on which the legs, chelicerae, and pedipalps are attached
pharyngeal slits
the pharynx is a muscular organ that brings water in through the mouth (via cilia) which then passes through a series of openings to the outside (slits). Used both in feeding and respiration
What is an example of a predatory sponge?
'Harp' sponges have evolved a predatory lifestyle, with hooked spicules.
Know which plants exhibit the haplontic life cycle
("algal"lineages)
Holometabolous:
(90% of all insects) single, radical metamorphosis with a pupal. (caterpillar to pupa to butterfly)
What are euarthropoda? What organisms are included in it?
(Eu)Arthropoda are a lineage within Panarthropoda. It includes 75- 80% of all known animal species. 1. Hexapoda (Insects) 2. Chelicerata (Arachnida, etc) 3. Malacostraca (Crabs, Shrimp) 4. Myriapoda (Millipedes, Centipedes)
Know which plants exhibit the sporic life cycle
(Land Plants)
dikaryon
(N + N); formed through plasmogamy; has two genetically-distinct but allelically-compatible nuclei
Know which plants exhibit the heterosporic life cycle
(Seed Plants, Lepto. Ferns, spike moss)
Know which traits evolved independently in Lycophytes and Seed plants
(heterospory and secondary growth)
Understand what we mean when we say that something is a "diagnostic feature"of a group
(i.e., it is a trait that is inferred to have evolved in the MRCA of the group, which is equivalent to saying that it is a synapomorphy of the group).
Know which traits evolved independently in Lycophytes and Euphyllophytes
(leaves and roots)
Know the first cell of the haploid gametophyte generation of Land Plants
(spore)
Understand the function of an outgroup and how it is selected.
(to root an unrooted tree) (based on independent evidence)
Know the first cell of the diploid sporophyte of Land Plants
(zygote)
The 3 types of coelom
*Acoelomate*: lack a coelom (do not have a true body cavity.) -It is usually filled with cells. *Pseudocoelomate*: mesoderm covers half of coelomate *Coelomate*: mesoderm completely encases coelom
adaptive value of vascular system
*Efficient transport of water & nutrients allows plants to colonize more fully terrestrial environments *Rigid structural support allows plants to grow taller and to compete more effectively for sunlight and to enhance spore dispersal
lophotrochozoan
*Lophophore*: horseshoe shaped feeding organ covered in tentacles *Trochophore*: a specialized, free-swimming larval stage -Ciliated -Complete gut -Means the organism is aquatic
Body plan of molluscs
*Mantle*: fold of tissue along the dorsal surface that covers the visceral mass and encloses the mantle cavity -Secretes the shell of the organism when shell is present *Foot*: large, ventral muscle mass -Used for moving, burrowing, feeding -Modified into siphon (valves) or tentacles *Visceral mass*: central mass that encloses the digestive, circulatory, excretory, and reproductive systems *Radula*: rasping organ used for feeding (lost in filter feeders) -Comes out of body to scrape food off of surfaces
which traits evolved independently in Lycophytes and Euphyllophytes
*leaves* Megaphylls in euphyllophytes Microphylls in Lychophytes *roots* Complex roots in euphyllophytes simple roots in lychophytes
virus gene
+ sense ssRNA, - sense ssRNA, dsRNA, dsDNA, ssDNA
Protostomes
- "mouth first" - blastopore develops into mouth - mesoderm forms near the lip of blastopore - coelom formed by splitting of mesoderm
Deuterostomes
- "mouth second" - blastopore develops into anus - mesoderm and coelom form from out pocketing of gut wall
What are Scorpiones?
- Arachnida (scorpions) Telson with a sting and venom gland • Give birth to live young, maternal care • Some medical significance (Buthidae)
What are synapomorphies of deuterostomes?
- Blastopore becomes anus - Enterocoely - Radial, regulative cleavage
What is something that only occur in multicellularity in comparison to colonial organisms?
- Division of labor - Some give up reproduction
What are oligochaetes?
- Earthworms (clitellata) • Includes terrestrial and aquatic species. • Predators, deposit feeders, and detritivores. • Cross- fertilizing hermaphrodites, held together during mating with mucus secreted by clitellum.
2. Anthropods
- HYPERDIVERSE group - 3/4 of all described animal species "bilaterally symmetrical coelomate protosomes" with... -"jointed foot" - found in all habitats - segmented body -paired jointed appendages ( internal muscle attachments) - tagmosis -exoskeleton -periodic molting -paired, compound eyes -open circulatory system -complete gut (like Mollusc) -CNS (like annelida) a. Chelicerata (spiders) b. Myriapoda (millipede) c. Crustacea(crab) d. Hexapoda (insect)
What are Hirudinoidea?
- Leaches (Clitellata) • Mostly blood-feeding ectoparasites, but some are active predators. • Lack paired setae, have anterior and posterior suckers for attaching to prey. • Produce a combination of anesthetics, anticoagulants, and vasodilators during feeding
What are similarities between colonial and multicellularity?
- Multiple cells - Secrete an extracellular matrix (ECM) - Cells attach to each other of the ECM - Cell to cell communication
What are the synapomorphies of echinodermata?
- Pentaradial symmetry (as adults) - Endoskeleton of calcareous plates - Water vascular system
Chitins
- Polyplacophora - dorsoventrally flattened - multiple shell plates - multiple gills
What are Araneae?
- Spiders • Two tagmata (cephalothorax, abdomen) • Spinnerets produce silk • Pedipalps modified as sperm delivery organs • Some medical significance
What are Acari?
- arachnida (arthropoda) - mites and ticks • Dominant arthropods in many ecosystems • Few body segments, chelicerae highly modified • Predators, herbivores, parasites • Some medically significant (Lyme's disease)
What are Trilobita?
- arthropoda • Extinct lineage (500-250 mya) of early marine animals. • Segmented, cephalized, many with well-developed eyes. • Several species used as indicator taxa.
What are chelicerata?
- arthropoda • Two tagmata (cephalothorax, abdomen) • Chelicerae • Four pairs of walking legs and pedipalps • Predators, herbivores, parasites • Some medically significant • Arachnida is the most diverse
What are cirripedia?
- barnacles (pancrustacea) • Sessile, filter feeders, some parasitic • Entirely marine, typically encrust in shallow water • Sequential hermaphrodites with internal AND external fertilization
What are hymenoptera?
- bees, wasps, ants (hexapoda) • 130,000 species • Two pairs of wings connected by hooks; hamuli • Females with ovipositor modified into a sting • Important pollinators in agriculture, many beneficial species
What are coleoptera?
- beetles (hexapoda) - The most diverse insect lineage • One pair of wings modified into protective coverings; elytra
What are the key features of bilateria?
- bilateral symmetry - cephalization - segmentation
Pogonophorans (beard worms)
- bizarre gutless worms - live in chitinous tubes often at great depths - species inhabiting hydrothermal vents have symbiotic bacteria that use hydrogen sulfide as an energy source to fix carbon (chemoautotroph)
3. Vertebrates
- evolved an enlarged brain, crainal skeleton, and vertebral column of bone/ cartilage - very diverse in environment Over view of clades goes a. hagfish b. lampreys c. chondrichthyans d. ray fined fish( bony fish) e. tetrapods
Keystone species
- ex. army ants - ex. sea otters - species with disproportionately large effect on ecosystem dynamics
Trilobites
- extinct group of marine anthropods - bottom dwellers, probably scavengers
Platyhelminthes
- flatworms - planaria - flukes - tapeworms
What are holometabola?
- hexapoda - 85% of all described insect species (~850,000 species) • Diverse ecology (herbivores, predators, parasatoids) • Important as pollinators and pests • Medical significance
What are entognatha?
- hexapoda • Small, wingless insects that usually occur in moist environments. • Reduced respiratory system, many are blind, internal mouthparts. • Likely a paraphyletic group.
What are Lepidoptera?
- holometabola - Butterflies and Moths • 175,000 described species • Highly specialized and diverse lifestyles • Important pests and pollinators, plant coevolution • Many species sequester defensive chemicals from host plants
Anthropoda
- hyper diverse groups - "jointed foot" - bilaterally symmetrical, coelomate, protostome - segmented body with structures repeated in each segment - paired jointed appendages - tagmosis --> division of body into functional subunits - chitinous exoskeleton in multiple articulating plates - growth by periodic molting - paired compound eyes - reduced coelom and open circulatory system - complete gut with regional specialization - well developed nervous system - complete but variable execratory and respiratory system
What are cephalochordata?
- lancelets (chordata) • Filter feeders using pharynx and slits; no siphons • Segmented body muscles
Anthozoa
- large, diverse group - no medusa stage - both solitary and colonial species - corals --> intracellular photosynthetic protists called zooxanthellae
Cephalopod communication
- largely visual - movements and body color changes - chromatophores --> cells with no pigments; changes in shape = changes in color
d. ray- finned fish
- largest clade of bony fish - includes the all important cichlid fish radiation in Africa that every Bio class feels the need to talk about - has efficient undirectional flow
Freshwater Clams
- life cycle includes a larval stage parasitic on fish - mantle edge of clam mimics a small minnow
What are the characteristics of coconut crabs?
- malacostraca • Largest terrestrial arthropod species, 1m in length up to 9lbs! • Mostly scavengers, but will climb palms for coconuts
Ants
- most diverse and abundant group of social insects - have colonized almost all terrestrial habitats - some ant queens have ben recorded to live for 25 years
Hexapods (insects)
- most diverse subgroup - three body tagmata: 1. cephalization 2. thorax 3. abdomen - one pair of antennae - three pairs of legs - respiration by tracheae - originally --> mouth parts with mandibles - wings evolved once within insects
Echinoderm reproduction
- mostly dioecious with external fertilization - asexual --> regeneration of body parts
Polycheata
- mostly marine worms - well developed head with tentacles and other sensory structures - well developed parapodia and setea
What are chilopoda?
- myriopoda (arthropoda), centipedes • One pair of legs per segment • First pair of appendages modified into poison claw (forcipules) • Small to large (2mm- 30cm), often with bright warning colors • All are predaceous
Anthropoda Reproduction
- nearly all anthropods are dioecious - fertilization usually internal - development often involves larval stage - complex metamorphosis in some insects and crustaceans
What are orthoptera
- neoptera -Grasshoppers, Crickets, Mole crickets, Katydids • ~20,000 species, mouthparts modified for chewing • Stridulation
Echinoidea (sea urchins)
- no arms but usually long spines - ossicles fit together into a test - omnivores, important as grazers of algae
Sponge Anatomy
- oculum = opening on top of sponge - pores = place that good goes in - spongocoel = cavity in sponges
Clitellata
- oligochaetes and leeches - freshwater and terrestrial - lack parapodia and tentacles - clitellum --> thickened band in middle of the body that secretes a cocoon for protection of young
What are odonata?
- paleoptera - Dragonflies and Damselflies • Extensive fossil record, some of the largest flying insects (71cm). • Predaceous lifestyle, important part of stream ecology. • Life cycle similar to mayflies, but adults are longer lived.
What are characteristics of cestoda?
- platyhelminthes - tapeworms • No gut or cephalization, no mouth, no respiratory system, etc. • Exclusively internal parasites of animals
Annelida reproduction
- polychaete --> usually dioecious with external fertilization and trochopore larva - others --> monoecious with internal fertilization and direct development
Leeches
- predators and blood sucking ectoparasites - lack setae, have anterior and posterior suckers for attaching to prey - blood-feeders produce anesthetics, anticoagulates, and a vasodilator
Army ants
- rapacious predators - mass foraging, nomadic ants with specialized queens - colonies contain up to 20 million workers - prey upon invertebrates and small vertebrates - keystone species 1. intensity of predation 2. a diverse fauna of dependent organisms
Amphibians
- require moist environments - lose water rapidly through skin - early stages often require H2O - three extant clades 1. Caelilians (limbless) 2. frogs and toads (tailless) 3. Salamanders (tailed)
Nematoda (nematods)
- roundworms - includes model organism Caenorhabditis elegans - many species of medical and agricultural importance
Hagfishes
- scavengers on dead animals - no bone, no jaws - tongue with rasping teeth - can tie themselves in a knot for greater leverage when tearing food away from prey - produce copious amounts of slime
What are holothuroidea?
- sea cucumbers (echinodermata) • 1,200 described species, scavengers and filter feeders • Soft-bodied, secondary bilateral symmetry • Catch collagen allows them squeeze into tight places • Unique defense (evisceration), some are toxic
Echinodermata
- sea lilies, sea stars, brittle stars, sea urchins, sea cucumbers - bottom dwelling marine organisms, predators, grazers, particle feeders -calcareous endoskeleton --> composed of plates or ossicles - pentaradial symmetry, no head - complex water vascular system derived from coelom - complete gut with regional specialization - diffuse nervous system, no brain - respiration and excretion by diffusion across epidermis
2. Tunicate
- sea squirts - bag like with enlarged pharynx for filter feeding - chordates becuase the larvae show all the correct features -has endostyle
What are Asteroidea?
- sea stars (echinodermata) • 1500 described species, both shallow and deep habitats • Mostly predaceous with an evertable stomach • Remarkable capacity for regeneration
What are echinoidea?
- sea urchins and sand dollars • 950 described species • Slow moving, grazers on algae (Aristrotle's lantern) • Protected by spines (urchins) and a calcareous test
Bivalves
- shell in two parts, hinged dorsally - mostly sedentary filter feeders, no radula - food and water brought in by siphon
Cephalopod eye
- single lens, convergent with invertebrates - excellent visual acuity
What are amoebozoans a sister group to? Also know two examples mentioned in class.
- sister group of opisthokonts - include the plasmodial and cellular slime molds.
Crustaceans
- three body tagmata 1. cephalization 2. abdomen 3. thorax - appendages specialized for sensing, locomotion, respiration, etc. - dorsal carapace (hard upper shell) - diverse feeding habits
What are Urochordata?
- tunicates (chordata) • Body surrounded by a tunic; a thick cellulose covering • Mostly sessile, one lineage free-swimming • Feeding through incurrent and excurrent siphons
Ants
- type of social insect -most diverse and abundant - ARMY ANTS - mass foraging with specialized queens. - can have around 20 million workers - predatory - "KEYSTONE SPECIES" because their intensity of predation and diverse organisms are dependent upon them ( ie ant birds)
Tunicates
- urochordates - sea squirts --> bag-like enlarged perforated pharynx for filter-feeding
Cephalopods
- wholly marine, actively mobile predators - largest and smartest invertebrates - foot modified as tentacles and siphon - shell --> nactilus internal shell --> squid, cutlefish lost --> octopus - locomotion by jet propulsion --> siphon expels water from mantle cavity - capable of learning and memory task; can learn through observation
1. Anthozoa
-Cnidarian family >>information for corals below<< - sessile and colonial animals with calcarious exoskeleton ( formed when CaCO3 is secreted at base of polyp with accumulate to form coral reefs) -have intracellular photosynthetic protists called ZOOXANTHELLAE
Hydrostatic skeleton
-Fluid-filled cavity surrounded by muscles - fluid is essentially incompressible - actions by antagonistic muscles changes shape of cavity causing movement or maintains body support under hydrostatic pressure 1. contraction of circular muscles --> elongation of body segments 2. contraction of longitudinal muscles --> shortening of body segments
Know the diagnostic features of Plants (Plantae)
-Primary endosymbiosis of chloroplast -Cellulose cell wall -Chlorophyll a
Explain how are coral reefs formed and where they occur. Islands are formed by volcanic activity
-Rain begins to fall and erodes it slowly and flattens it -Shoreline has lots of hard substrate, this hard substrate is a key limiting resource -larval coral settles here -Becomes a fringing reef -The island sinks and reef constantly is growing up the surface -The reef eventually becomes a donut-like shape which is called an atoll
Spicules
-Synapomorphy of sponges -Serve as support and defensive structures -Calcium or glass
Sponge lineage
-all aquatic -7/8 are demosponges -sessile adults with motile larvae -filter feed on microscopic particles using microvilli and digested intercellulary -can reproduce asexually or sexually
porifera -aquatic or terrestrial -______ at adulthood -_______ larvae -_____ feeders -symmetry? -gut? -Lack ______ stage -how many tissue layers -have ___________ to aid in feeding
-aquatic -sessile at adulthood -motile larvae -filter feeders -Asymmetrical -No gut -Lack gastrula stage -1 tissue layer -choanocytes
Cleavage
-early stages of cell division after zygote formation, resulting in multiple cells (aka blastomeres) and a longitudinal axis -pattern of cleavage vary and function in how much yolk (stored nutrient) is in the egg - can be: radial or spiral
What are some major innovations in vertebrates? (Name all that were discussed in class)
-endothermic -powered flight -lung/air bladder -paired limbs -amniotic egg (allows development of egg on land without the risk of desiccation)
What can we conclude about characters in ctenophora?
-humans are more closely related to sponges than ctenophores -nervous system evolved twice
Bilateria family
-includes Protosomes and Deuterosomes 1. Triploblastic 2. Bilateral symmetry
Trend of Coevolution with flowering plants
-insects evolved before angiosperms so flowers didn't effect origin of clades but the Diversity within them. - plant feeding insects are more-species- rich than those who arent (ie predators/scavengers)
Name some of arthropods major groups.
-mandibulates -hexapoda (insects) -crustacea (crabs, shrimp, lobster) -myriapoda (centipedes, millipedes) -chelicerata -spiders, scorpions, tick, horeseshoe crab -trilobita completely extinct
d. Cephalopods
-marine, mobile predators -largest & smartest invertebrates - tentacles + siphon from modified foot - locomotion by jet propulsion by siphoning water into mantle cavity - capable of memory & learning by observation -convergently evolved the same eyes as vertebrates = supports " deep homology" concept -communication is largely visual ( by changing movement/body shape/ body color)
cnidaria -medusa produces _______ -polyp produces ______
-medusa produces gametes (sexually) -polyp produces medusa (asexually)
Which statement about them below is FALSE? -nematodes are known from every habitat on earth including Antarctica and deep oceanic trenches -nematodes are important agricultural pests -nematodes form mutualisms with fungi -nematodes are important parasites of plants and animals
-nematodes form mutualisms with fungi
What distinguishes an echinoderms? water vascular system with tube feet
-pentaradial symmetry (except in sea cucumbers- bilateral symmetry) -hard calcareous endoskeleton of internal plates with epidermal covering -pentaradial symmetry in adults and bilateral symmetry in larvae larvae are ciliated -loss of pharyngeal slits
how do sponges defend themsleves? (3)
-spicules -chemicals -antimicrobials
After much research what is the "Amino Acid synthesizing machine" called? What else can you tell us about this?
-the xylella produces necessary amino acids that are missing in the host diet -The bacteria in the aphid gut are the synthesizing machine
What three things must viruses be able to do if they are to survive in the real world?
1) Get into the susceptible host 2) Replicate and make more virus 3) Have some mechanism to move the newly made virus to new susceptible hosts
What are the main steps in quorum sensing?
1) Signal producing proteins are produced and released from the bacteria 2) Signal proteins attach to signal receptors on each individual bacteria and they can identify if the receptor is from their own species or from another species
What are three ways sponges defend themselves?
1) Spicules- physical deterrent 2) Biotoxins- biochemical defense 3) Antimicrobials- prevent infection
Four major clades of Cnidaria
1. Anthozoa: sea anenomes, corals, sea pens 2. Hyrozoa: hydrozoans 3. Scyphozoa: sea jellies, have extensive mesoglea 4. Cubozoa (cube or box jellies) very toxic!
Sponge features
1. Asymmetrical 2. Gut-less 3. Aquiferous system 4. Differentiated cell types but no true tissues/ organs 5. cells arranged in gelatinous matrix (mesohyl) with collage and sometimes spicules (skeletal elements)
Sponge features
1. Asymmetrical and gutless 2. Aquiferous system 3. Differentiated cell types but no true tissues or organs 4. Cells arranged in gelatinous matrix with collagen and usually spicules
Features of Porifera (sponges)
1. Asymmetrical gutless animals 2. Aquiferous system: branched water canals 3. Differentiated cell types but no true tissues or organs 4. Cells arranged in gelatinous matrix (mesohyl) with collagen and usually spicules (skeletal elements)
4 Major Anthropod Clades
1. Chelicerata --> arachnids, horseshoe crab 2. Myriapoda --> centipedes, millipedes 3. Crustacea --> crabs, shrimp, lobster, barnacles 4. Hexapoda --> insects, allies
Major Mollusca clades
1. Chitons --> shell plates and repeated gills 2. Gastropods --> torsion 3. Bivalves --> burrowing foot 4. Cephalopods --> arms/tentacles and siphon for propulsion
What specific evidence supports choanoflagellates as the sister group of Metazoa?
1. Collar cells (choanocytes) also seen in sponges. 2. DNA sequence data. 3. Homologous cell signaling and adhesion genes (shh).
Evidence that Choanoflagellates are sister group to Metazoa
1. Collar cells (shared with sponges) 2. Structure of mitochondria 3. DNA sequence data 4. Posses homologues of Metazoan cell signaling and adhesion genes
Why are choanaflagellates considered the sister group of animals?
1. Collar cells are shared between choanoflagellates and sponges 2. Choanoflagellates have homologues of metazoan cell signaling and adhesion genes 3. DNA sequence data
What are the three clades in porifera?
1. Demospongiae* 2. Calcarea 3. Hexactinellida
Chordates main features
1. Deuterostomes 2. Notochord 3. Dorsal hollow nerve cord 4. Postanal tail 5. Pharyngeal slits - all present in embryo
In bilaterally symmetrical animals:
1. Distinct anterior and posterior 2. Cephalization 3.Segmentation
Bilaterally symmetrical animals have..
1. Distinct anterior and posterior ends 2. Cephalization: differentiation of anterior end into a head with concentration of sensory organs 3. Segmentation: serial repetition of body parts in well-defined segments
What are 2 theories about sponges?
1. Early diverging animals 2. Highly derived b/c they lost a lot of features
What are the three types of embryonic layers?
1. Ectoderm = outside layer 2. Mesoderm = middle layer 3. Endoderm = inner layer
What needed to develop before vertebrata?
1. Enlarged brain 2. Cranial skeleton 3. Vertebral column of bone or cartilage
Three examples of convergence in tetrapods
1. Evolution of snake-like reptiles 2.Ratite birds:flightlessness has evolved many times 3. Marsupial/eutherian convergence in mammals
Reproduction
1. External --> chitons and bivalves 2. Internal --> gastropods and cephalopods
(general) Mollusca Body form
1. FOOT: large muscle mass mainly for locomotion that can be modified for burrowing( ex bivalves) or tentacles (ex. cephalopods) squishy large part 2. MANTLE: fold of tissue that covers the visceral mass and mantle cavity. Secretes the shell 3. VISCERAL MASS: proper body with digestive, circulatory, excretory and reproductive organs
Clitellata characteristics
1. Freshwater and terrestrial 2.Lack of parapodia and tentacles 3.Clitellum 4.Deposit feeders 5. Cross-fertilizing hermaphrodites
What are the three synapomorphies of chordates
1. dorsal hollow nerve 2. notochord 3. postanal tail
Characteristic features of Metazoa
1. Multicellular organism with specialization, communication, and interdependency 2. Heterotrophs 3. Food ingested 4. Diplontic life cycle 5. Distinctive male gametes: spermatoza 6. Distinctive development: zygote --> blastula --> gastrula 7. Motility 8. Distinctive cell junctions unique to metazoans 9. Collagen in the extracellular matrix
Characteristic features of metazoans
1. Multicellularity 2. Heterotrophy 3. Extracellular digestion in gut 4. Diplontic life cycle 5. Zygote-blastula-gastrula
Non-unique synapomorphies
1. Multicellularity 2. Diplontic life cycle
4 Characteristics of chordates
1. Notochord 2. Dorsal hollow nerve cord 3.Postanal tail 4.Pharyngeal slits
Extinct species
1. Ostracoderms --> heavily armored jawless fishes 2. Placoderms --> amor-plated predators with jaws and teeth like structures - first jawed vertebrates
Major groups of Annelids
1. Polychaeta: paraphyletic 2. Clitellata: loss of parapodia
Annelida clades
1. Polychaete 2. Clitellata
Difference between polyp and medusa in cnidaria
1. Polyp is sessile and medusa are mobile. 2. Polyp has anus/mouth on the top while medusa has on the bottom. 3. Polyp asexually reproduce while medusa create gametes and are used for sexual reproduction.
Diagnostic features of all plants
1. Possession of a chloroplast arose via primary endosymbiosis of a cyanobacteria 2. The photo pigment chlorophyll a 3. Cell walls with cellulose
3 major clades of mammals
1. Prototherians 2. Marsupials 3. Eutherians
What are the three groups in mammals?
1. Prototherians - Lay eggs, but provide milk, No nipples 2. Marsupials - Have a placenta, young are undeveloped 3. Eutherians - Young are born developed
Types of body symmetry:
1. RADIAL: form of cylinder 2. BILATERAL : wil have distinct anterior and posterior, will be cephalized and segmented
Characteristics of ctenophores
1. Radial symmetry 2. Diploblastic development 3. Complete gut 4. Nerve net as nervous system 5. Simple musculature
Characteristics of cnidaria
1. Radial symmetry with oral/open end 2.Incomplete gut with single opening that is mouth/anus the leads to gastrovascular cavity 3.Diploblastic: two cell layers separated by mesoglea ectoderm and endoderm
Unique synapomorphies
1. Spermatozoa 2. Blastula 3. Septate junctions 4. Collagen
Why are sponges dominant organisms but experience limited predation
1. Spicules=physical deterrent 2. Biotoxins 3. Use antimicrobial agents to prevent infection by microbes 4.Use chemical repellants when competing for space
Major lineages of metazoans
1. Sponges 2. Diploblastic 3. Triploblastic or Bilaterians ( Protosomes and Deuterostomes)
Diagnostic features of vascular plants (tracheophytes)
1. The sporophyte is nutritionally independent of the gametophyte at maturity 2. Tracheid cells with lignified cell walls that provide structural support
What are 3 examples of nematode-caused diseases?
1. Trichinosis (caused by undercooked pork) 2. Elephantiasis (nematode targets the lymph nodes) 3. Root-knot (form galls on the root system of plants)
Major features of Bilateria
1. Triploblastic Blastula-gastrula-complete gut 2. Bilateral symmetry 3. Anterior/posterior axis 4.Cephalization
Myriapoda characteristics
1. Two body tagmata: head and trunk 2. Segments with either one or two pairs of legs 3. Centipedes: carnivorous with poison fangs 4. Millipedes: Scavengers-some secrete cyanide in defense
Trend of wing evolution
1. Wingless (in MRCA ex silverfish) 2. no wing folding ( ex dragon fly) 3. Orthopteroids ( weak, clumsy fliers like grasshopers & roaches) 4. Hemipteroids (functional, but still stupid wings. "true" bugs like beetles, some are completely lost like aphids tho 5. Lastly, insects with complete, well working wings like flies, wasps etc.)
What 4 groups are in Chelicerata? What are some defining features?
1. Xiphosura (horseshoe crabs) 2. Acari (mites and ticks) 3. Scorpiones (scorpions) 4. Aracheae (spiders) -2 tagmata (cephalothroax and abdomen); chelicereae; 4 pairs of walking legs and pedipalps
What are the 3 sponge body plans?
1. asconoid 2. syconoid (choanocyte lined canals) 3. leuconoid (choanocyte lined chambers; most efficient)
Reason choanoflagellates are sister to Metazoa?
1. collar cells (same on sponges and choano..) 2. structure of mitochondria 3. DNA sequence 4. Choanoflagellates have homologues of metazoan cell signaling and adhesion genes (aka the Hedgehog Gene that is not found in any other nonmetazoan taza)
Mollusca key features
1. complete gut 2. reduced coelom 3. open circulatory system (hemocoel) 4. mantle, visceral mass, and foot 5. mouth with radula
tissues of the angiosperm seed (3)
1. diploid embryo 2. triploid endosperm 3. diploid integument (seed coat) from parent sporophyte
Three examples of convergence in amniotes
1. evolution of snake form: there are limbless lizards that look completely the same except the lizards will have vestigial limbs and eyelids 2. ratite birds: are large flightless birds in S. hemisphere like kiwis, emu and ostrich. possibly evolved three independent times in each one of clades mentioned above 3. marsupial convergence: marsupials were isolated in Australia but still convergently evolved similarly to eutherians( placental animals) occupy similar niches
3 examples of convergence
1. evolution of snake-like reptiles 2. case of ratite birds --> large flightless birds confined to the southern hemisphere 3. marsupial/eutherian convergence in mammals
Unique to Metazoans:
1. extracellular digestion in gut 2. zygote>blastula>gastrula
Synapomorphies of Eumetazoa
1. gastrulation 2. diploblasty 3. nervous system 4. musculature
Evolution of jaws
1. gill arches: cartilaginous gill supports 2. anterior gill arches modified as bony jaws 3. additional gill arches added, teeth acquired
Trend of Metamorphosis
1. hemimetabolous life cycle with three stages egg>>nymp>>adult developed to the last subgroup with: 2. homometabolous life cycle with four stages egg>>larva>>pupa>>adult that has MAJOR reorganization at pupal stage like butterflies -every morph can specialize for their specific function
Key innovations to exploit terrestrial environment
1. impermeable skin 2. efficient kidneys 3. amniote egg (with shell and membranes that resist desiccation)
What are 3 innovations of amniotes?
1. impermeable skin 2. efficient kidneys (conserve water) 3. amniotic egg (protects embryo from desiccation; lack metamorphic larval stage)
Trends in Vertebrates
1. increased cephalization 2. increased agile movements 3. new feeding modes 4. " physiological upgrading"
Trends in vertebrate evolution
1. increased cephalization 2. increased agility of movement 3. new feeding modes, especially predators 4. physiological upgrading
five major groups of echinodermata
1. sea lilies, feather stars 2. sea stars 3. brittle stars 4. sea urchins 5. sea cucumbers
How do they stay dominant?
1. spicules provide physical determent 2. have potent biochemical defenses 3. they us antimicrobial agents to prevent infections by microbes 4. they employ chemical warfare against organisms that compete for space with them
Why are sponges dominant and experience limited predaion?
1. spicules provide physical deterrent 2. potent biotoxins 3. antimicrobial agents to prevent infection 4. chemical warfare against organisms that compete for space with them
Consequences of an exoskeleton
1. support for walking on land 2. protection again predators 3. chitin reduces water loss
Major eusocial insects
1. termites 2. ants 3. some bees 4. some wasps
What are three types of cell junctions?
1. tight junctions 2. desmosomes 3. gap junctions
Bilateria features
1. triploblastic 2. bilateral symmetry 3. anterior/posterior axis 4. cephalization
Cnidarian body forms
1. tube shaped polyp; usually sessile with oral end up 2. bell shaped medusa; motile, oral end facing downward - most cnidarians alternate between these two body forms during their life cycle
What are some innovations that mark the transition of life onto land (of metazoans)?
1. use of lungs 2. modification of jointed fins into limbs 3. skin modification (can't be too permeable) 4. internal fertilization 5. evolution of shelled eggs
Colonization of land involved..
1. use of lungs --> modified from the swim bladder 2. modification of jointed fins to become limbs
2 types of novel cell junctions?
1.Adhesive cell junctions, which are molecular devices that hold the cells together 2.Gap cell junctions-serves as a tunnel between 2 cells and allows for the communication between the cells
What are the three sponge body plans? Given your understanding of these plans, which sponges do you think are smallest? How about largest?
1.Asconoid- simple pores, 1 big opening 2.Syconoid- folded the outside membrane to increase SA, have choanocyte-lined canals 3.Leuconoid- efficient in terms of H20 filtration ability, have choanocyte-lined chambers Leuconoid would be largest because it has the most surface area and is able to absorb more nutrients. Most likely to have evolved multiple times. Asconoid is the smallest.
What are the 2 bacteria found are called and what do each make?
1.Baumannia: makes vitamins and cofactors 2.Sulcia: makes essential amino acids
Four major clades of molluscs
1.Chitons 2.Gastropods 3.Bivalves 4.Cephalopods
Name all of the major evolutionary innovation of metazoans and describe what each of them are.
1.Collagen: fibrous protein, resides in ECM -- prevent tissues from being pulled apart; major ingredient in leather i.e. the skin of eels and cows 2.Novel cell junctions: adhering (bind cells together) & gap (form intercellular channels for communication). Formed by specialized proteins that are partly in the cell membrane 3.Multicellularity?
Traits associated with bilateral symmetry
1.Segmentation 2. Increased sensory and locomotor ability
Characteristics of arthropodia
1.Segmented body 2. Paired jointed appendages with internal muscle attachments 3. Strong tendency towards TAGMOSIS 4. Chitinous exoskeleton in multiple articulating plates 5.Ecdysis: molting of exoskeleton 6.Paired compound eyes with ommatidia 7. Reduced coelom and open circulatory system 8.Complete gut 9. Well developed nervous system 10. Complex/variable excretory and respiratory systems
Characteristic features of annelids
1.Segmented body 2. each segment paired with bundles of CHITINOUS SETAE 3.Parapodia: each segment with paired appendages 4. Body wall with inner longitudinal and outer circular muscles 5.Differentiated posterior and anterior 6.Closed circulatory; cutaneous respiration 7. Complete gut 8. Well developed excretory and CNS
Mutalisms with coral
1.ZOOXANTHELLAE zooxanthellae give coral photosyntheic produces (ie glucose and glycerol) and receive metabolic wastes (ie N and P) from coral. 2. CLOWNFISH fishes mucus contains chemicals that deter firing of nemacysts (industrially useful) so they have a place to live
e. tetrapods
== terrestrial vertebrates had to evolve: lungs, and jointed fins became limbs e1. amphibians e2. reptiles e3. mammals
Mutualism
A type of interaction between species that benefits both species (Ex: Rhizobium and plants)
Commensalism
A type of interaction in which species in which one participant benefits while the other is unaffected (Ex: clown fish and sea anemones)
What are ctenophores the sister group to?
All other animals
pure cultures
Allows one to connect processes and properties to single type of organism, enhances ability to do experiments, provides possibility of large volumes of uniform material for study, can supplement appearance based classification with other types of data.
Reproduction in Cnidaria
Alternation between an asexual polyp stage and a sexual medusa stage Medusa release sperm and eggs Zygote develops into ciliated larva Larva settles and develops into polyp Polyp buds asexually into colony of polyps Some polyps later produce and release medusae asexually
Basic virus "life cycle"
Attachment to host cell membrane, penetration of host cell membrane, uncoating, replication, self-assembly of virus particles, and release from the cell
Leaf cutter ants
Attine ants; cut leaves, feeds to fungus at nest, then eats the fungus (hyphae). fungus=nutrition source for larvae. Fungus gets food and ants get food for larvae
What is a blastula? What is a gastrula? How do these relate to gut types in animals?
Blastula: a hollow ball of cells that forms when the zygote grows into a juvenile larva Sponges only have blastocoel (no gut) Blastula stage usually has a single cell layer around a central fluid-filled cavity Gastrula: an embryo at the stage following the blastula, when it is a hollow cup-shaped structure having 3 layers of cells. If the Gastrula remains "cup shape" it is an incomplete two-way gut If the Gastrula creates two equal halves of ecto- & endo-derm then it is a complete, one-way gut
What is bleaching and what causes it?
Bleaching is when the symbiodinium (photosynthetic algae that have a symbiosis with corals) is expelled the color is lost Causes: temperature, exposure to air, sedimentation, freshwater run-off, nutrient loads, senobioties
Describe the nervous system of earthworms?
Brain on one end
Sponges move water to feed, using choanocytes. Medusae move water to swim, using what structures? A. Nematocysts B. Sticky tentacles C. Muscle D. Nerve cells E. Polyps
C. Muscle
Corals
Cnidaria (Anthozoa);incomplete gut; diploblastic; sessile and colonial, with calcareous exoskeleton; the calcium carbonate deposits secreted at the base of each polyp accumulate and form coral reefs; corals have intracellular photosynthetic protists (cryptomonads and dinoflagellates) called zooxanthellae
Scyphozoa
Cnidaria; incomplete gut; diploblastic; radial symmetry;true "jellyfish" (sea jellies), named for extensive mesoglea
Cubozoa
Cnidaria; radial symmetry; diploblastic; dieoscious; cube or box jellies (sea wasps), small group, sting is very toxic
2. Hydrozoa
Cnidarian clade containing useful lab animal : Hydra and huge crazy Portugese man-of-war
cephalization:
Concentration of sensory organs on an animal. Commonly associated with bilateria, except for bivalves.Major trend in Metazoan. Lost in some groups depending on feeding strategy/ ecology.
What does longitudinal muscles do in annelid movement?
Contract the muscle which cause the segment to get 'fat'
What are the distinguishing features of crustaceans? How do these compare to the features of insects (hexapods)? How would you best describe the relationships of insects to crustaceans?
Crustacean Features: 3 tagmata 2 pairs of antennae Nauplius larval stage Appendages modified for variety of functions Hexapoda Features: 3 tagmata 1 pair of antennae 3 pairs of legs Respiration by tracheae Mandibles Basically, Insects = terrestrial crustaceans
What are the distinguishing features of crustaceans? How do these compare to the features of insects (hexapods)? How would you best describe the relationships of insects to crustaceans?
Crustaceans have three tagmata the head, thorax, and abdomen, two pairs of antennae, dorsal carapace that covers the thorax and head, and a nauplius larval stage. Hexapods also have three tagmata same has crustaceans, one pair of antennae, three pairs of legs, respiration by trachea and mouthparts with mandibles.
Diffusion seems to be a major limitation on the size of cells. Which of the following changes to a spherical cell would increase its capacity to deliver oxygen to the inside of the cell? A) Make it larger B) Make it smaller C) Change the shape to that of an M&M (an ellipsoid) D) Make the cell membrane thicker E) Both B & C
E) Both B & C
mandibles
Feeding part of insects; four different parts 1) biting-chewing part 2) Piercing-sucking part 3) siphoning part in butterflies and moths 4) Sponging part in flies • mantle: Fold of tissue along the dorsal surface that covers visceral mass and
gymnosperms
Fleshy megasporangium (2n) protected by integument Megaspore grows into multicellular haploid female gametophyte (n) A pollen grain (n) enters through the micropyle and develops a pollen tube (germinates) The germinated pollen grain releases a sperm nucleus, fertilizing the egg nucleus and initiating seed formation Mature diploid embryo (baby plant) Nutritive haploid tissue (to help support establishing plant) Protective seed coat (from previous sporophyte)
Amphibians include (3)
Frogs, salamanders, caecilians
How do Cnidarians get additions nutritional benefits?
From symbiotic photosynthetic protists
Chloroplasts: cyanobacterium Mitocondria: proteobacterium
From what lineage on the Tree of Life did chloroplasts and mitochondria evolve?
Why do we consider arthropods as hyperdiverse? Which groups contain the largest number of species and why do you think this is so?
Hexapoda (insects → different lecture slides says this group is most diverse with beetles); three orders of insects comprise more than 50% of described animal species (lecture 30); its diversity is supported by the fresh-water and terrestrial species that are a part of it Chelicerata (arachnids are the most diverse group within chelicerata) Crustacea (crabs, shrimp) Myriapoda (millipedes, centipedes)
4 main groups of anthropoda
Hexapoda (insects) Chelicerata (arachnida) Malacostraca (crabs, shrimp) Myriapoda (millipedes, centipedes)
Bivalves
Hinged two part shell Sedentary filter feeders Siphon
different nucleotide bases in DNA
If life on Earth had multiple origins, what might one see if one compared features of organisms from the separate origins to each other?
swim bladder
In many fish, this primitive lung was modified into a swim bladder for controlling buoyancy.
What is the relationship of LGT to phylogeny reconstruction?
It complicates phylogenetic analysis because many different genes can be passed between different species. Makes it hard to tell what is convergent evolution, derived, ancestral, or if it was LGT
How do the different hypotheses for the phylogenetic placement of ctenophores affect our understanding of animal evolution? Think specifically about neurons and muscles as discussed in lecture.
It is difficult to place them because they have independently developed many different characteristics by themselves including a complete gut, mesoderm and a nervous system, things that are share with later species.
Why is quorum sensing important?
It's important because it explains how bacteria know when to start attacking a host (send a chemical signal to say they have enough bacteria to take over) and they can identify each other and other bacteria in their midst. Allows for communication between bacteria
Synapomorphy of arthropodia
Jointed appendages
Two common examples of fungal symbioses typically described as mutualisms are lichens and mycorrhizae. Define and describe the ecology of these interactions. What are the benefits that each partner gets out of the symbiosis?
Lichens = symbiotic relationship b/w a fungus and green algae, cyanobacteria, or both. When first discovered, they were believed to be primitive plants bc of the presence of chlorophyll Mycobiont = fungal component of a lichen Photobiont = algal and bacterial component of a lichen Fungus receives carbs from photobiont's photosynthetic capabilities; If cyanobacteria is part of symbiosis, fungus also receives nitrogen bc cyanobacteria = capable of fixing atmospheric nitrogen to nitrate and ammonium Photobiot receives water and minerals from fungus. Also receives protection from environment Mycorrhizae symbiosis: fungus gets sugar while the plants get minerals and protection from root pathogens
vessels
Low resistance, Bubble block flow
Compare and contrast the evolution of the swim bladder and lungs.
Lungs are gas filled organs that allows for the function of respiration, the MCRCA of bony fish did not have much oxygen so it evolved an air pocket in the digestive tract that became the swim bladder, controlled buoyancy.
Diagnostic features of flowering plants
Megagametophyte is highly reduced (embryo sac is 7 cells with 8 nuclei and the megagametophyte lacks an archegonium), double fertilization, ovary walls become fruit, flowers
Where does mesoderm form for dueterostomes
Mesoderm and coelom form from outpocketing of gut wall
enterocoely
Mesoderm begins to form as two "pockets" of tissue, then begin to grow larger, and extend towards each other. When the two "pockets" of cells meet, the mesoderm is formed - a complete layer of tissue right in between the endoderm and ectoderm layers, leads to the formation of a coelom
Reasons Triploblastic is significant:
Mesoderm is the source of most organs and coelom makes it possible to have a hydrostatic skeleton 1. Complete Gut 2. COELOM: fluid-filled body cavity within mesoderm (thats between endo/ectoderm)
Porifera (sponges)
Monophyletic group; asymmetrical gutless animals; Aquiferous system: branched water canals; Differentiated cell types but no true tissues or organs; cells arranged in gelatinous matrix (mesohyl) with collagen and usually spicules (skeletal elements)
Sponges relationship with others
Mutualism with cyanobacteria or algae living in mesohyl area Commensalism with other organisms using them as shelter (Nemo) ex. shrimp that is an obligate inhabitant of glass sponges because they are physically trapped in sponge once couple is pregnant bc too fat to leave
Symbioses of sponges
Mutualism with cyanobacteria or algae living in sponge mesophyl, exchanging nutrients Commensalism with other marine organisms inhabiting sponges for shelter ie shrimp as obligate inhabitant of glass sponge
Types of symbiosis
Mutualism, commensalism, parasitism
Can protostomes have monozygotic twins?
No; cells are fated too early so the offspring would lose important mRNA
Oomycetes
Non-photosynthetic, absorptive heterotrophs
Exoskeleton significance
PRO -support for walking on land - protection from predators - chitin reduces water loss CON - constraints growth so it must be molted off == ECDYSIS
. Describe movement in an earthworm. What are the roles of segmentation, paired setae,septa, circular muscles, and longitudinal muscles in earthworm movement?
Paired setae serve as anchoring points for movement. Segments divide coelom into separate fluid filled compartment and divisions are called septa. Each segment of earthworm can change shape for locomotion. The circular muscles when it contract causes segment to get 'skinny'/lengthen while longitudinal muscles contract causes the segment to get 'fat'/shorten.
What are the differences in plasmodial slime molds and cellular slime molds in terms of their life cycles? How do plasmodial slime molds show evidence of problem solving? How do cellular slime molds meet our definition of multicellularity?
Plasmodial Slime Molds are coenocytic, feed by scavenging, and have an unusual life cycle. As conditions change, spores on stalked fruiting bodies develop. Cellular Slime Molds are individual motile cells that aggregate into a multicellular fruiting body. Some give up their ability to reproduce when they form a fruiting body, which makes them multicellular.
Know the diagnostic features of Seed plants
Pollen, no outside layer of the seed 'naked seed', does not produce flowers or fruit, pollinated by wind
Whale Fall Worms (Zombie worms)
Polychaete (Annelida) • Chemolithoautotrophs related to beard worms with similar features (no gut). • Live on 'whale falls' the decaying remains of whales. • Bacteria are able to metabolize bone and lipid
Feather Duster Worms
Polychaete (Annelida) • Filter feeders that live inside tubes made of sand or bits of shell.
Spaghetti Worms
Polychaete (Annelida) • Sediment feeders with long, ciliated tentacles that reach out and capture settling detritus
Annelida
Polychaetes, earthworms, leeches, etc; bilaterally symmetrical coelomate protostomes with segmented (metameric) body, with segments marked externally and internally; body structures repeated in each segment (modular units); each segment with paired bundles of chitinous setae (absent in leeches); each segment with paired appendages (parapodia) (present in polychaetes only); inner longitudinal and outer circular muscles; presegmental head and postsegmental terminal part (pygidium); well developed excretory system and central nervous system
List all of the types of symmetry across animals and give examples for each one.
Radial symmetry: Can be divided multiple times (sea anemone) Bilaterial symmetry: can be divided one time (frogs) Pentaradial symmetry: divided into 5? (Echinodermata) Symmetry: plane where animal divide in similar halves
radial, regulative cleavage
Radial: cells divide in stacked formation Regulative: cells do not have a specific purpose early on, so if removed other cells can compensate -deuterostomes
Amphibians
Require moist environments; lose water rapidly through skin; early stages often require water;
Segmentation
Some bilaterians are characterized by having repeated segments segments. Some of these segments are fused into tagma for specialized functions.
spiral, mosaic cleavage
Spiral: cells divide in spiral structure Mosaic: cell fate is determined early, so if they are removed, the embryo will die -protostomes
Bacteria
Spirochotes, Chlamydias, High GC gram +, Cyanobacteria, Lw GC gram +, Proteobacteria,
Characteristic features of Metazoa
Synapomorphies: Multicellularity, diplontic life cycle, zygote-> blastula Unique: Extracellular digestion in gut, zygote-> blastula-> gastrula, zygote-> blastula Heterotrophy is neither a synapomorphy or unique to Metazoa
What are the synapomorphies of echinoderms? Describe how the body plan of echinoderms has been modified in the major groups discussed in class.
Synapomorphies: water vascular system, calcite endoskeleton, tube feet, pentaradial symmetry
What is the difference between protostomes and deuterostomes?
The formation of the blastopore into the "mouth first" is indicative of protostomes, and the formation of the blastopore into the "anus first" is indicative of the deuterostomes.
How are coelacanths relevant to the evolution of tetrapods?
The limbs of tetrapods were derived from the fins of lobe-finned fish such as coelacanths. These limbs are easily homologized with the tetrapod limb. Coelacanths are apart of Sarcopterygii (lobe finned fish) and its bones are easily homologized with tetrapods probably because the fins are joined to the body only by a single bone
Symbiosis
The living together of two or more species in a prolonged and intimate relationship
Kleptoplasty
The stealing of plastids for use as photosynthetic machines
sister species
The two descendants of a speciation event are called ______ (or sister groups), and are each other's closest relatives.
What is missing from vertebrate phylogeny?
The two extinct lineages that fit between lampreys and sharks a. ostracoderms " heavily armored, jawless, with BONES b. placoderms " armor- plated predators with JAWS and 'teeth'" were the first jaws vertebrates and are scary af looking ( were also huge)
What are the mechanics of suction feeding? How do fish use eversible jaws and gills to feed underwater?
There is an undirected flow, where water grows in the mouth and then out of the pharyngeal slits, this is efficient feeding via suction, where the food stays within the mouth cavity. The water exits through the gills.
Key points about the human microbiome
There is quite a bit of variation from person to person, but one's own microbiome is fairly stable over time; The microbiomes of various body sites are similar to everyone (thus your skin microbiome is more similar to other people's skin microbiomes than to your gut microbiome); When microbiomes are classified by the bacterial species they contain, they look very different from person to person; If microbiomes are classified by the presence of various functional capabilities, they look more similar from person to person
What groups comprise Chelicerata? How are they distinguished from other arthropods?
These are four pairs of walking legs and pedipalps, they are medically significant they include scorpions, mites and ticks, spiders and horseshoe crabs. They are distinguished because of their two tagmata and chelicerae which are the appendages by its mouth that become specialized depending on the organism.
Why are cnidarians considered dimorphic?
They have two distinct body forms: medusa (free-living "sea-jelly," oral side down) and polyp (sessile "anemone," oral end up) -medusa produced asexually by the polyp -polyp produced sexually by the medusa
choanoflagellates
They help us understand the development of multicellularity in animals They are colonial Morphology is similar to cells in sponges Basically choanoflagellates show what the MRCA of the animals most likely looked like due to the similarities in choanocytes in sponges and in animal cells as well Presence of a collar and flagella in these cells
Why do tunicates appear to contradict the synapomorphies of chordates? What evidence supports their placement in Chordata?
They lack a dorsal hollow nerve cord, notochord, and postanal tail, which are all the synapomorphies of chordates, during their adult life. They are placed within chordata because all of the synapomorphies are present during their larval form. (They undergo metamorphosis to form the adult stage).
Know the diagnostic features of Vascular Plants (Tracheophytes)
Tracheids Independent sporophyte
the diagnostic features of Vascular Plants (Tracheophytes) (2)
Tracheids Independent sporophyte
Similarities of LGT and Sexual Reproduction
Transfer of genetic information, variety of genes, selection takes place, requires two organisms, recombination occurs, both create new genetic combinations
T/F Bilaterians all share three embryonic tissue layers.
True
T/F: Tracheids and vessel elements conduct water and minerals, but not sugars.
True
Gastropods
Univalve, usually coiled Torsion Mostly herbivores, some carnivores
evidence all life on earth shares common descent
Use of ACTG in DNA, ACUG in RNA, 3 letter genetic code, central dogma, 20 core amino acids, ribosome for translation, RNA polymerase proteins
What did the colonization of land involve
Use of lungs modified from the swim bladder Modification of lobed fins to become limbs
Explain the role of PCR and phylogenetic analysis rRNA genes in figuring out the mystery of glassy winged sharpshooter.
Used PCR to analyze DNA in order to figure out what type of symbiosis the xylella had with the glassy winged sharpshooter
Homoplasy:
a feature is shared among organisms but was not present in their MRCA
choanocytes
a flagellated cell with a collar of protoplasm at the base of the flagellum, numbers of which line the internal chambers of sponges.
choanocytes
a flagellated cell with a collar of protoplasm at the base of the flagellum, numbers of which line the internal chambers of sponges. (synapomorphy of Porifera).
What is a hydrostatic skeleton?
a fluid-filled internal cavity surrounded by muscle tissue
phylogeny
a graphical description of the evolutionary relationships between taxa(on) and phyla
exoskeleton
a hard covering on the outside of the body to which muscles are attached (usually made of chitin?)
Vertebrate phylogeny
a major transition from water to land and back again
What is the tracheal system?
a network of air tubes that branch throughout the body
What is mesoglea?
a non-cellular jellylike material in cnidarians that helps support organisms
clitellum
a raised band encircling the body of oligochaete worms and some leeches, made up of reproductive segments.
ingroup
a set of species that is helpful in estimating evolutionary relationships
Choanocytes
a synapomorphy for Porifera a flagellated cell with a collar of protoplasm at the base of the flagellum, numbers of which line the internal chambers of sponges. Transport conspecific sperm to archaeocytes.
Character
a trait that can be quantified and put on a data matrix (ability to fly, presence of a post anal tail etc. )
What is cartilage?
a type of flexible connective tisssue
trochophore larva
a type of free-swimming planktonic marine larvae with several bands of cilia
mutualism
a type of symbiosis between species that benefits both species; lots of fungal associations with plant roots fit this classification
What is Echinodermata?
a weird group with no head, radial symmetry, and highly modified body form
invasiveness
ability to multiply in host
How many times has multicellularity evolved in the tree of life?
about 30
choanoflagellate derived traits
absorptive heterotrophy, chitin cell walls
fungi
absorptive nutrition, chitin, chitridiomycota, zygomycota, glomeromycota, ascomycota, basidiomycota
mesoglea:
acellular/non-living layer in cnidaria that aids with structure and oxygen diffusion in cnidaria
Gap junctions
allow communication
spiracles
allow open circulatory system to contact air
sporic
alternation of multicellular haploid and diploid generations (land plants) Gametophyte: multicellular haploid organism that makes gametes Gametangia: the multicellular sex organs of the gametophyte that produce the gametes via mitosis Archegonia: produce female gametes (eggs) Antheridia: produce male gametes (sperm) Gametes fuse at fertilization to produce single cell diploid zygote that gives rise to multicellular diploid sporophyte
endemic
always in community, but low frequency
nagleria
ameboid (feed), flagellate (move)
What is the blastula?
an animal embryo at the early stage of development when it is a hollow ball of cells.
blastula
an early stage of animal embryos; often a hollow sphere of cells surrounding a central cavity (the blastocoel)
Nonvascular land plants never evolved to the size of vascular plants, most likely because they lack:
an efficient system for conducting water and minerals
What is the gastrula?
an embryo at the stage following the blastula, when it is a hollow cup-shaped structure having three layers of cells.
gastrula
an embryo at the stage following the blastula, when it is a hollow cup-shaped structure having three layers of cells.
Gastrula
an embryo stage following the blastula when it is a hollow cup structure with three layer of cells
postanal tail:
an extension of the body after the anus Synapomorphy of chordates
spiracle
an external respiratory opening; found in cartilaginous fish and some insects
lungs
an internal organ specialized for respiratory gas exchange with the air
gooseneck barnacle
arthropod suspension feeder complete one way gut bilateral traits: jointed appendage, exoskeleton composed on chitin, segmented body divided into tagmata
Explain the evolution of vertebrate feeding. from water to land and back to water
ancestral - suction feeding & pharyngeal slits retained unidirectional flow derived - teeth and behavior as specialization re-derived - never re-evolve pharyndeal slits & bidirectional flow
polarity
ancestral or derived
Coelom
and the internal organs are surrounded by mesoderm.
stamen
androecium (filaments and anthers)
Which of the following groups does not have motile sperm? Hornworts Conifers Lycophytes Ferns Angiosperms
angiosperms
what organisms display diplontic life cycle
animals
opisthikont
animals, fungi, choanoflagellates, single posterior flagella
which plants exhibit the diplontic life cycle
animals, humans
spaghetti worms
annelid deposit complete 1-way gut bilateral traits: paired setae, segmented bodies, tentacles
feather duster worm
annelid filter complete 1 way gut bilateral traits: paired setae, segmented bodies, feathery feeding images
indications of LGT
anomalous phylogenetic distribution, incongruent phylogenetic trees, abnormal sequence similarity, atypical composition of a gene
examples of LGT
antibiotic resistance, virulence attributes, metabolic properties
deuterostomes
anus formed first, cell fate determined by proximity late in development; mesoderm pouches so can only be coelomate, radial and regulative cleavage; enterocoely
Deuterostomes
anus is formed first, then the mouth, the coelom forms from mesodermal pouches.
nauplius
aquatic crusteacean larvae stage with 3 pairs of appendages
Chytrids
aquatic, flagella, swimming spores
Turtles are now sister to
archosaurs, so they are equally related to crocodiles and birds
natural evolutionary groups
are completely consistent with the phylogeny Natural groups are monophyletic groups, which includes all of the descendants of a given common ancestor
Placoderms
armor-plated, predators, jaws, teeth, extinct
porcelain crab
arthopod suspension feeder complete one way gut bilateral traits: jointed appendage, exoskeleton composed on chitin, segmented body divided into tagmata
tarantula
arthropod predator complete one way gut bilateral traits: jointed appendage, exoskeleton composed on chitin, segmented body divided into tagmata
scorpion
arthropod predator complete one way gut bilateral traits: jointed appendage, exoskeleton composed on chitin, segmented body divided into tagmata, fluorescence under UV light
millipede
arthropod predator/grazers complete one way gut bilateral traits: jointed appendage, exoskeleton composed on chitin, segmented body divided into tagmata
crab
arthropod predator/scavenger complete one way gut bilateral traits: jointed appendage, exoskeleton composed on chitin, segmented body divided into tagmata
horseshoe crab
arthropod predator/scavenger complete one way gut bilateral traits: jointed appendage, exoskeleton composed on chitin, segmented body divided into tagmata
shrimp
arthropod predator/scavengers complete one way gut bilateral traits: jointed appendage, exoskeleton composed on chitin, segmented body divided into tagmata
cockroach
arthropod scavenger complete one way gut bilateral traits: jointed appendages, exoskelton composed of chitin, segmented body divided into tagmata
hermit crab
arthropod scavenger/predator complete one way gut bilateral traits:jointed appendage, exoskeleton composed on chitin, segmented body divided into tagmata
acorn barnacle
arthropod suspension feeder complete one way gut bilateral traits: jointed appendage, exoskeleton composed on chitin, segmented body divided into tagmata
angiosperms
basal angiosperms, monocots, eudicots
What is pierces disease?
bacterium: Xylella fastodiosa
b. clitellata
branch of annelids - terrestrial & freshwater - NO tentacles or parapodia - have CLITELLUM ( thickened band in middle of body that is gross and secretes a cocoon for protection of young) 1. Oligochaetes (what we commonly think of as worms) 2. Leeches (horrible creaters that lack setae, and have suckers at both ends that attach to prey to suck blood) they actually produce pain-killers (anesthetics), anticoagulant( blood thinner), and vasodilators ( widens blood vessles)
3. Aquiferous system
branched water canals in sponges where water flows continuosly into numerous pores, goes through internal chambers and finally exists our of other pores (aka Osculum) -process is propelled by movement of flagella of many choanocytes -highly varied in complexity ( how folded/ many pores are there?
Radial Cleavage
cells divide parallel to longitutinal axis and accumulate in even, symmetrical layers
spiral cleavage:
cells form in spiral structure, instead of stacked characteristic of protostomes
fused sepals
calyx
cartilage
can be a type of connective tissue or in some animals they make up the whole skeleton --> characteristic of chondrichtheyes (sharks/skates/rays) which lost bone
regulative
can be split
autotrophy
carbon source= inorganic
heterotrophy
carbon source= organic
condrichthyans
cartilaginous fish - sharks, skates, rays
Radial Cleavage
cell accumulate in even, symmetrical layers
hedgehog gene
cell signaling, in coanoflagellates and metazoans
Colonial:
cells are attached but there is no division of labor
What is totipotency?
cells can change into other cells.
Radial cleavage
cells divid parallel or 90 degrees to symmetrical layers
Spiral Cleavage
cells divide at an oblique angle to the a-v axis and new cells lie in furrows between existing ones
Spiral Cleavage
cells divide in oblique angles and new cells furrow between existing ones
2 deuterostomes
echinodermata chordata
Nuidibranch= coolest gastropods
cnidarian family that: - are brightly colored to warn of toxicity - may have originally evolved by altrusic behavior for kinship. - PLUMED SEA SLUGS are super amazing and actually feed off of sea anenomes/hydroids then inject the undigesting nematocysts, and use them as defense on their back spikes( called cerata) -there are also solar powered sea slugs that feed on algae, and preserve undigested chloroplasts that continue to function (aka kleptoplasty) literally the stealing of photosynthetic machines: works because of LGT between eukaryotes!!!! crazy cool
shapes
coccus (gut), bacillus (E.coli), helical
Coelomates (earthworms)
coelom and internal organs are lined and surrounded with mesoderm
coelomate
coelom and internal organs are surrounded by mesoderm
enterocoely
coelom is formed by pinching of early mesoderm cells
plasmodial slime mold
coenocytic (lots of cytoplasm and nuclei connected); feed by scavenging; no cytokinesis in their life cycle
trends in insect evolution
coevolution with flowering plants and social insects
What is the extracellular matrix in metazoa
collagen (nonliving)
Multicellular:
collection of many attached cells that differentiate and divide labor and reproductive capabilities
extracellular matrix
collection of molecules secreted to support surrounding cells biochemically
define Colonial
collections of many attached cells (usually of the same genotype); no differentiation or division of labor or reproduction capabilities
ctenophores
comb jellies, enigmatic group, radial symmetry, diploblastic development, complete gut, body is propelled by cilia in rows called ctenes or comb rows.
holometabolous metamorphosis
complete metamorphosis 4 stage: egg-larva-pupa-adult
Holometabolous:
complete metamorphosis in most insects
Why are holometabolous insects so diverse compare to other hexapods?
complete metamorphosis permits specialization of stages for feeding (larva) and reproduction and dispersal (adult)
Holometabolous
complete metamorphosis where a pupa stage is included example are butterflies, beetles, moths and flies
eukaryotes
complex cytoskeleton, Loss of a cell wall, Phagocytosis, nuclear membrane
Spongin
complex network of collagen WITHOUT spicules. found in demosponges what is harvested as bath sponges (replaced by luffa) because they arent as rough as spicules (coral)
chitin
compound found in cell walls (in fungi) or exoskeletons (in arthropods)
cephalization
concentration of sense organs (generally forming a well-defined head); tends to be correlated with bilateral symmetry
phloem
conducts products of photosynthesis throughout the plant. Comprised of sieve tube cells that are alive at functional maturity. Many cell components lost at functional maturity (incl. nucleus). Nurtured by companion cells. Nutrients transported actively via the pressure flow model, moved from sites of production to sites of storage.
xylem
conducts water and minerals from soil to aerial parts of the plant. Secondary thickening of cell walls (lignin) provides structural support. Tracheid cells are the principal water conducting element of the xylem and are dead at functional maturity. Transpiration-cohesion-tension system. Passive transport. Tracheids occur in the xylem of all vascular plants.
conifers
cones, drought resistant
unnatural evolutionary groups
conflict with the phylogeny (evolutionary relationships) There are two kinds of unnatural groups: Paraphyletic groups exclude some of the descendants of a given common ancestor (e.g., the original definition of Reptilia) Polyphyletic groups exclude the most recent common ancestor of the included species (e.g., the proposed grouping of mammals and birds in the group "Homeothermia" based on their of possession of convergent traits)
Explain the mechanisms that allow tentacle extension. (Use all the examples that were used in class)
contraction of internal muscles cause the tentacle to elongate because the tentacle is a muscular hydrostat (constant volume), to elongate, the skin that is full of collagen fibers wraps around the muscle. Muscle fibers are constructed in a radial way so when they contract it makes that section of the tentacle skinnier, but they also have longitudinal muscle fibers which help the tentacle revert back to it's short position. (All in Animals 6, slide 21-26)
Similarities observed between myriapods and hexapods represent
convergent adaptations to life on land
anomalous phylogenetic distribution
convergent traits
corals have (medusa/nematocytes) but not (medusa/nematocytes)
corals have nematocytes but dont have medusa
fused petals
corolla
carapace
covers head and abdomen in some crustaceans
What developed after tunicates but before jawless fishes
cranium
The new view phylogeny based on DNA sequence data shows that insects (hexapods) are more closely related to...
crustaceans
Only solely dioecious cnidarian
cube jellies
tube feet
echinoderms; part of the water vascular system which functions in gas exchange, locomotion, and feeding; hydraulic power
disease examples
dinoflagellates (red tide) alveolates (chromoalveolates) eating clams from the area. they have concentrated dinoflagelates which cause paralysis, numbness and maybe death Giardia lamblia (Giardiasis) Diplomonads (excavates) get from water with feces, diarrhea, upset intestines Leishmania major (leishmaniasis) Kinetoplastids (excavates) eats skin to make lesions, loss of cartilage Trypanosoma cruzi (Chagas' disease) Apicomplexans (Alveolates) (Chromoalveolates) nervous system, heart and digestion affected. eyelids swell
Cube jelly reproduciton
dioecious (some "copulate")
sporophyte
diploid
What are septa?
divisions of segments that divide coelom into separate fluid
Acoelomate
do not have enclosed body cavities (ex: flatworms and other "thin animals")
silent
doesn't change amino acid
3rd codon
doesn't change...more likely tree
Cleavage
early stages of cell division after zygote formation
Cleavage
early stages of cell division after zygote formation, resulting in multiple cells (blastomeres) and establishment of a longitudinal axis (animal-vegetal axis)
What organisms do Clitellata include?
earthworms and leeches
what evolved on branch leading to ecdysozoa (1)
ecdysis
green brittle star
echinoderm scavenger incomplete two way gut pentaradial traits: no head or brain, water vascular system, tube feet may be present, spines may be present, locomotion with movement of arm appendages
sand dollar
echinoderm suspension/deposit feeder complete one way gut pentaradial traits: no head or brain, water vascular system, tube feet, spines, locomotion with movement of spines and tube feet
choanocytes
flagella to move water and food
eukaryote motion
flagellate, ciliate, amoeboid (naked or testate)
a. Chitons
flattened with multiple shell plates and multiple gills
Platyhelminthes
flatworms, lophotrochozoans, incomplete gut, planaria, flukes, tapeworms
tube feet:
flexible, hollow sacs on the bottom of echinoderms that are controlled by the water vascular system and aid in locomotion
perfect flowers
flowers that have stamens and carpels
imperfect flowers
flowers that have stamens or carpels
Hydrostatic Skeleton
fluid filed cavity surrounded by muscles. since fluid is imcompressible movement can maintain the body shape and provide suport -what allows worms to move because they can contract their circular muscles to elongate, or their longitudinal muscles to shorten segments
Coelom
fluid-filled body cavity surrounded by mesoderm
Mantle:
fold of tissue along the dorsal surface that covers the visceral mass and encloses the mantle cavity Secretes the shell of the organism when shell is present
Cephalopods
foot modified as tentacles and a siphon nautilus with shell, in others shell is internal (squid/cuttlefish) or lost locomotion by jet propulsion:siphon expels water from mantle cavity
Gastrulation
formation of cell layers by invagination (in-pocketing) of blastula to form gastrula
Gastrulation
formation of cell layers by invagination of blastula to form gastrula
common to 3 domains
glycolysis, DNA conservative rep, peptides and same genetic code, plasma membrane, ribosomes
spirochotes
gram -, motile, chemoheterotrophs, axial filaments rotate, pathogenic, lyme disease, syphilus
sepals
green under petals
monophyletic
group including MRCA and all decedents
tagmata
group of segments that are fused; has a specialized function
polyphyletic
group that excludes MRCA
outgroup
group that is used in comparison to the ingroup, used to root unrooted trees
paraphyletic
group with MRCA and not all decendents
pseudocelomate
gut and mesoderm separated by cavity, round
carpel
gynoecium (stigma, style, ovary)
gametophyte
haplid
Exoskeleton:
hard covering of an organism that provides structure and protection
exoskeleton
hard covering on the outside of the body, to which muscles are attached; Nematodes and arthropods
What are characteristics that arthropods have?
hard cuticle, jointed appendages, and compound eyes.
golden rice
has carotenoids
Explain how sea stars feed
have an evertable stomach that they extend when feeding by pushing it through small openings; use their water vascular system to slowly pull apart the muscles of their prey (catch collagen helps keep them rigid)
chloroplast bacteria
have host membrane and one bacterial membrane
What are some major features of cnidarians? (Name all that were used in class) have nematocysts irregular cleavage radial symmetry diploblastic
have nematocysts irregular cleavage radial symmetry diploblastic
Hemimetabolous
having no pupal stage in the transition from larva to adult
How can worms move through earth?
head first into the soil, use longitudinal and circular muscle to burrow,each body segment moves individually
Ostracoderms
heavily armored, extinct, jawless, bony plates in the skin and around the gills
which traits evolved independently in Lycophytes and Seed plants (2)
heterospory secondary growth
What is the most diverse subgroup of arthropods
hexapods
the majority of animals are ___________ (clade) the 3 groups responsible for this are
hexapods coleoptera (beetles) lepidoptera (butterflies and moths) hymenoptera (bees, wasps, ants)
mandibles
hexapods; mouthparts with mandibles (used for biting and chewing)
pathogen defense
hide, change, inactive
archea eukarya
histones like, TATA box based promoter, related to RNA POLII, homology of genes
chloroplasts in plantae are an example of (homology/homoplasy)?
homology
bird and bat wings
homoplasious
bird heat to human heart
homoplasious
rhizomes
horizontal "roots"
define Lophophore
horseshoe shaped feeding organ covered with hollow tentacles
cell fate
how the cell specializes
Molluscan diversity
hugely diverse group in terms of: - SIZE (micro to giant squid) - HABITAT (aquatic and terrestrial) -FEEDING (herb, carn,detritivores, filter feeders, and parasitic) -REPRODUCTION (mostly dioecious, but some hermaphoditic)
water vascular system
hydraulic system used to control: locomotion via tube feet, feeding, respiration, and waste transportation; water enters through a pore (madreporite) and circulates through canals that lead to tube feet w/ suckers
dioecious
imperfect flowers on different plants
monoecious
imperfect male and female flowers on the same individual plant
Swim bladder:
important for controlling buoyancy Not used in respiration
pupa
in certain insects (the Holometabola), the encased developmental stage between the larva and the adult
Pedipalps:
in chelicerata, attached to Cephalothorax and help move food around
Describe the morphological and ecological diversity in molluscs? Think in terms of body morphology and feeding strategies. There are different morphological characteristics that we use that are able to distinguish
in the diversity of molluscs. SOme molluscs have shell while others don't this protective feature determines their ability to protect themselves. Some nudibranchs do not have shells but they have nematocyst that are used for their defense instead of a shell. While also there are solar powered that steal algae and incorporates them into themselves to have chloroplast to create their own food supply. Use of radula present (some molluscs do not have radula).
endoderm
innermost of the embryonic tissue, becomes the gut and associated structures
Ecdysozoans
innovations: exoskeleton molting and regulated by ecdysone 1. Nematodes 2. Anthropods
Lophotrochozoans
innovations: trochophore larva and spiral cleavage includes 1. flatworms 2. mollusks 3. annelids
insect life cycles trend towards
more complex metamorphosis
Are animal traits unique to animals? muscle tissue (but not all animals) hox gene (might only be in bilaterians) combinations of multicellularity, eukaryotic, heterotroph, motile, muscle tissue, and hox genes are what defines animals but not all are unique to animals.
muscle tissue (but not all animals) hox gene (might only be in bilaterians) combinations of multicellularity, eukaryotic, heterotroph, motile, muscle tissue, and hox genes are what defines animals but not all are unique to animals.
Mycorrhizae
mutualism between fungi and plant root; mycorrhizae gets nutrients; =GROWTH ENHANCEMENT -evolved many times -used in ag to establish exotic plantations, restoration benefits to plants: 1) protection from root pathogens 2)increased root longevity 3) protection from soil heavy metals 4) communication through mycorrhizae in different plants? -fun fact: they can turn parasitic as well if the fields have sufficient Nitrogen
vegetative fungi body
mycelium made up of filaments (hyphae)
cellular slime mold
myxamoebas, haploid, make slugs when starved
Placenta
nutritive tissue in mammals that allow embryo to take nutrition from its mother, it also provides oxygen and removes waste from the baby's blood.
trait
observable features of an organism can be discrete (e.g. wings present or not present) or continuous (e.g. plant height). All traits novelties when first arise (by mutation in a single individual). For phylogeny estimation, we are concerned w/ traits that are heritable, discrete, fixed within species, potentially variable between species. Trait evolution occurs over branches of tree.
stigmarian roots
of lycophytes: simple dichotomously branching root system derived from rhizomes. Spirally arranged rootlets derived from microphyllous leaves
spiral
offset cells
how many times did wings evolve within insects
once
Snakes evolved...
once from lizard-like ancestor
Simple fruits
one carpel
define Unicellular
one cell does everything
Unicellularity:
one cell does everything
plantae chloroplasts
one incidence of endosymbiosis
dorsal hollow nerve cord
one of the synapomorphies of chordates; formed from rolled ectoderm; turns into the spinal cord in humans
double fertilization
one sperm gives rise to diploid zygote, one sperm gives rise to triploid endosperm Initially the pollen tube consists of 2 haploid cells, the generative cell and the tube cell. The generative cell divides mitotically, producing 2 haploid sperm cells. One synergid cell degenerates when the pollen arrives. The sperm cells are released from the pollen tube. One sperm cell fertilizes egg, one fertilizes the two polar nuclei
Keystone species
one that has a disproportionately large effect on the ecosystem dynamics
peptidoglycan
only bacteria
Psudocoelomate
only found in protostomes
All living gymnosperms except gnetophytes
only tracheids
micropyle
opening in integument
Blastopore
opening in the gastrula, fate depends on which group
blastopore
opening of the blastula; will eventually become the mouth or the anus
Pharyngeal slits
openings between pharynx and exterior, associated with filter feeding or respiration
paramecium
oral groove/gullet
Explain the Echinoderm body plan
oral side (mouth) and aboral side; complete gut w/ regional specialization; no head or brain (diffuse neural net); respiration by diffusion
placenta
organ in female mammals that provides for the nourishment of the fetus and elimination of the fetal waste products; Marsupials and Eutherians
Radula:
organ in molluscs for scraping surfaces
Deuterostomes:
organisms in which the anus forms first from the gastrula, and then the mouth Have radial, regulative cleavage Cell fate is determined late in embryo stage
What are spinnerets?
organs that contain silk glands
What is pancrustacea? What is an alternative hypothesis?
pancrustacea: monophyletic group within arthropods that contains hexapods and crustaceans other hypothesis: hexapods were in their own group, and crustaceans were paraphyletic
3. Annelids
part of Lophotrophozoan family==worms - segmented body (marked internally and externally) -repeated body structures -bundles of chitinous setae -paired appendages - has outer (circular) and inner (longitudinal) muscles -hydrostatic skeleton -presegmental head&tail -closed circulatory system - complete gut - well developed excretory & CN system a. Polychaeta b. Clitellata
2. Mollusca
part of lophotrophozoan family ==shell+squid - complete gut -reduced coelom -open circulatory system (hemocoel) -mouth with radula -body includes: mantle, visceral mass, and foot -well developed nervous system -excretory system a. Chitons b. Gastropods c. Bivalves d. Cephalopods
euglena
photosynthesize, flagella
Lichens
photosynthetic organisms, photobiont and mycobiont, 98% ascomycota, harsh environments, sensitive to toxins
land plants and green algae
photosynthetic, chlorophyll a and b, starch as storage, cellulose in cell walls
Schizocoely
process by which animals embryos develop, it occurs when a coelom is formed from the splitting of the mesodermal embryonic tissue
ecdysis
process where the animal slowly emerges from its old chitinous exoskeleton and remains vulnerable until it hardens; animal grows every time it molts (arthropods and nematodes)
Invaginations of the cuticle
produce joints and tracheae
Evaginations of the cuticle
produce wings and appendages
sporopollenin
protected pllen from dehydration and chemical damage
collagen
protein base support structures; makes up the extracellular matrix; most abundant protein in any animal; provides strength and elasticity
mammal clades
prototherians-echidna, duck-billed platypus- Monotremes lay eggs, skin secretes milk, marsupials-have a placenta but young are born undeveloped have to travel from birth canal to pouch for nipples, eutherians-are born well developed
Pseudocoelomate
pseudocoel is lined with mesoderm (no mesoderm around internal organs)
amoeba
pseudopodia, phagocytosis
monilophytes
psilotum, ferns, horsetails
in holometabolous metamorphosis major reorganization occurs at what stage?
pupal
transversions
purine to prymadine
transitions
purine to purine
gram-positive
purple, thick peptidoglycan cell wall
deuterostome traits
radial cleavage blastopore to anus enterocoely
echinoderm synapomorphies
radial symmetry ad adults, calcified internal plates, loss of pharyngeal slits
cleavage in deuterostomes -what kind -late/early? -how is it determined
radial, regulative late by cellular gradient
what evolved on branch leading to deuterostomes (2)
radial, regulative cleavage enterocoely
Amniotes include
reptiles and mammals
amniotes
reptiles and mammals
Tracheae
respiration by tracheae
clitellum
secretes a cocoon for protection of young
seed tissue
seed coat (2n) from sporophyte, gametophyte (n) tissue as nutrients, embryo (2n)
synapomorphies of lophotrochozoans
spiral cleavage trochopohore larva
cleavage in protostomes -what kind -late/early? -how is it determined
spiral, mosaic early by mRNAs
what evolved on branch leading to protostomes (2)
spiral, mosaic cleavage schizocoely
schizocoely
splitting of mesoderm leading to coelom
4. Differentiated cell types
sponge feature -they have different cells like choanocytes, pinacocytes and amoebocytes but they lack true tissues and organs
porifera
sponges monoblastic irregular cleavage asymmetric no gut filer feeder synap:choanocytes and spicules
What is the Syconoid body type?
sponges have choanocyte- lined canals.
What is the Leuconoid body type?
sponges have choanocyte- lined chambers
5. Spicules
sponges skeletal elements that are either 1. siliceous spicules (silica) like glass sponges and demosponges 3. calcareous (calcium carbonate)
first cell of the haploid gametophyte generation is the ________
spore
fungus life cycle
spore (N) --> mitosis --> hyphae (N) --> plasmogamy (fuse) --> dikaryon (N+N) --> karyogamy --> basidiomycota (2N) or ascomycota (2N) --> meiosis --> basidium (N) or ascus (N) --> mitosis --> spore
ascospore
spores produced in the ascus of ascomycota
after ferns
sporophyte dominant
malarial cycle
sporozoite in salivary gland of mosquito. go to human liver, become trophoooites and feed, undergo schizogony to become merozoites. burrow in blood cells, rupture cells, eat hemoglobin as trophozoites, some merozoites become gametocytes in blood and are picked up. become gametes and fuse in mosquito gut. undergo meiosis and schizogony and become sporozoites
Desmosomes
spot welds
Class Cephalopoda
squids, octopus, cuttlefishes (head foot), arms/tentacles + siphon for propulsion
Bipinnaria larva
starfish larvae; bilateral; free-swimming; cilliate; deuterostome
methionine
start codon
Notochord:
stiff, flexible rod of collagen that serve as a point of support and muscle attachment -Derived from mesoderm -Replaced by vertebrae in vertebrates -Combination of post-anal tail, notochord, and dorsal hollow cord -Present in both vertebrates and invertebrates
What is a nematocyst?
stinging organ that contains the toxins.
nonsense
stop codon
tryptophan
stop codon
Worm systems and reproduction
they have excretory organs in each segment they have a CNS with brain, ganglia, and nerve cord Asexual Repro: regeneration of body fragments Sexual: varied (mono/die, direct/indirect)
Clitellum:
thick band of tissue in middle of the body that secretes a cocoon for young present in clitellata (earthworms and leeches)
What are clitellum
thick band of tissue in the middle of the body that secretes a cocoon for young.
What is the plant response to sap feeders?
thorns,wax coating to make it harder to penetrate,some plants have removed certain nutrients in their phloem in order to stop animals
Triploblastic
three cell layers: ectoderm & endoderm & mesoderm - innovation occurs before protostomes&deuterostomes ( after cnidarians)
chronogram
time
homoplasy
trait not inherited by a common ancestor; independent evolution of a trait
max likelyhood
transitions/transversions, codon position
Triploblasty
triploblastic animals have one of three different types of internal, fluid filled body cavities: Acoelomates: do not have enclosed body cavities. Pseudocoelomate: is lined with mesoderm, but no mesoderm surrounds the internal organs.
triploid endosperm
triploid tissue that nourishes developing embryo. Highly reduced female megagametophyte: embryo sac w/ 7 cells and 8 nuclei In ovule, meiosis produces 4 haploid megaspores, all but one undergo apoptosis. Surviving megaspore undergoes 2 mitotic divisions pollen grain microgametophyte 2 cells: tube cell and generative cell
mycobacterium tuberculosis
tuberculosis
Diploblastic
two cell layers: ectoderm & endoderm which is seperated by the blastocoel - innovation occurs after sponges, before ctenophores
starfish
two stomachs, predators, diodecious, external fertilization, regeneration, Asteroidea
spiral (mosaic) cleavage
typical of protostomes (synapomorphy of lophotrochozoans; lost in arthropods); unequal division of cells; embryo has distinct top and bottom; cell fate determined very early by mRNA
schizocoely
typically found in protostomes and some deuterostomes; mesoderm cells begin forming on the inside; the mesoderm forms as a solid mass of migrated cells from the single layer of the gastrula, the new mesoderm then splits, creating the pocket-like cavity of the coelom
polytomy
uncertainty in the estimated phylogeny. We generally assume the underlying tree is dichotomous (each speciation event involves 2 immediate descendant species)
yeast
unicellular fungi (although some alternate between unicellular and multicellular depending on the environment); lots of uses like beer, wine, and baking
Kinetoplastids
unicellular parasites, two flagella, single mitochondrion, Trypanosomes
Echinoidea
urchins, sand dollars
Porifera function
use lots and lots of little pores with one big pore in order to filter 1500+L of water a day (DO NOT use muscles, tissues, or organs)
Cephalization:
when an organism has a centralized region of nerves and/or a head
medicines
willow bark headaches (salicylic acid). Cinchona bark fevers, ephedra antihistamine
Explain the evolution of flight and 2 of its hypothesis for wings.
wings evolved for powered flight wings and flight evolved at the same time (not likely) wings evolved for the purpose of thermoregulation or as "parachute" and were co-opted for flight linear relationship between the size of the wings and wing function
Neoptera:
wings fold horizontally
Paleoptera:
wings fold vertically
white rot
wood decay caused by fungi; breaks down lignin and cellulose
Homeotic mutations
wrong organ in the wrong place
What is xylem and phloem sap?
xylem sap - water and mineral from roots to rest of plants phloem sap - products of photosynthesis from leaves to sites of storage or to use
What are Ophiuroidea?
• 1,900 described species • Long, slender arms often with spines; fast moving • Secretive predators, some are bioluminescent - echinodermata, brittle stars and basket stars
What are the general characteristics of nematoda?
• 80,000 species • Diverse lifestyles (predators, parasites) • Found in all habitats on earth; mountains to oceanic trenches • Reduced musculature and digestive system (pseudocoelomate) • Significant in agriculture (both as pests and beneficials) and medicine (many human parasites) - roundworms
What is the water vascular system?
• A hydraulic system used to control locomotion (via tube feet), feeding, waste transportation, and respiration. • Water enters through a pore (madreporite) and circulates through canals that lead to tube feet with suckers
What is catch collagen?
• A special type of connective tissue that changes the rigidity of the body very quickly. • Not under muscular control; controlled by the nervous system. - found in echinodermata
What are important components of multicellularity?
• Adhesion: cells must stay/stick together • Communications: cells must be able to communicate with each other • Dependence: cells generally must dependent on each other • Differentiation: cells specialize at different
What is holometabolous?
• Adults have wings and develop in distinct stages • Egg-> larva-> pupa-> adult
How do cnidaria feed?
• All Cnidarians are carnivorous, many form symbioses. • Prey are captured on tentacles with cnidae then moved into the gastrovascular cavity. • Digestion is extracellular, but digestion is incomplete. • Products are taken into nutritive cells and digestion is completed intracellularly.
What are the characteristics of porifera?
• Aquatic, mostly marine (some freshwater). • Sessile as adults with motile larvae. • Mostly filter feeders with intracellular digestion.
How do Porifera reproduce?
• Asexual or sexual • No specialized gonads • Sperm swim and enter egg-containing sponges • Embryo retained in parent and eventually released as ciliated larvae.
What are the characteristics of porifera morphology?
• Asymmetrical • No gut (mono • Intracellular digestion • No tissues or organs • Only a few types of cells (~15) • Totipotency
What is beneficial of multicellularity?
• Avoiding predation •Buffering against environmental changes •Increased swimming speed • Decreased motility/increased drag (multicellular organisms tend to be larger than unicellular/colonial organism)
What are anthozoans?
• Polyps only, no medusae. • Polyps may reproduce asexually or produce gametes. • Polyps may be independent or form colonies (corals). - cnidaria • Corals contain symbiotic dinoflagellates (algae) called zooxanthelle which can photosynthesize and provide the coral with carbon.
What are spicules?
• Serve as supportive and defensive structures. • Structure and chemistry are different between sponge clades. • A synapomorphy for Porifera.
What kind of eyes do cephalopoda (mollusca) have?
• Single lens eye • Uses opsins, similar to vertebrates
What are the characteristics of the phylum Placozoa?
• Small (2-3mm), diploblastic, marine animals. • 1 species, asymmetrical • No tissues, few specialized cells • Cilia for locomotion - lost some characteristics on phylogenetic tree
define segmentation
• Some bilaterians are characterized by having repeated segments. • Some of these segments are fused into tagma for specialized functions.
How can nematocysts be stolen by nudibranchs? Why is it beneficial?
• Some gastropods (mollusca) feed on cnidarians, including nematocysts. • Undischarged nematocysts are incorporated for defense.
What are solar- powered sea slugs?
• Steals chloroplasts from algae, incorporates them where they continue to function. • Evidence that some chloroplast genes may be transferred (LGT).
What is a notochord?
• Stiff, flexible rod of collagen that serves as a point of support and muscle attachment • Derived from mesoderm, replaced by vertebrae in vertebrates • The combination of postanal tail, notochord, and muscles provides propulsion
What is torsion (gastropods)?
• Synapomorphy of gastropods • Twisting of visceral mass, reorients the body • Anus over head and gills
How did limbs evolve?
• The bones in ray finned fish are not easily homologized with the tetrapod limb. • Lobe finned fish have bones that are easily homologized with the bones in the tetrapod limb (i.e. humerus, radius, ulna, etc.)
What is the medusae (body form for cnidaria)?
• The medusa form is made asexually, but their function is sexual reproduction. • Unable to form colonies, free-swimming.
What are pharyngeal slits?
• The pharynx is a muscular organ that brings water in through the mouth (via cilia) which then passes through a series of openings to the outside (slits). • Used in both feeding and respiration
What is a planula larva?
• The planula larva of cnidarians is bilaterally symmetrical and ciliate. • It is the result of sexual reproduction and develops into a polyp.
What is the polyp (body form for cnidaria)?
• The polyp form is usually sessile and produce medusae asexually. • Most are small, but may reach sizes of 1m in diameter. • They may form colonies.
What is the body plan of hexapoda?
• Three tagmata (head, thorax, abdomen) • One pair of antennae • Three pairs of legs - mandibles that are modified for specific functions - tracheal system
What is the body plan of Malacostraca?
• Three tagmata (head, thorax, abdomen) • Two pairs of antennae • Thorax & head covered by a carapace
What are Platyhelminthes?
• Triploblastic, acoelomate (secondary), little to no cephalization. • Free-living and parasitic • Incomplete gut or absent
How does feeding occur in ray-finned fish?
• Unidirectional flow, water goes in the mouth and out the pharyngeal slits; efficient feeding via suction.
What are parasatoids and what are they usually used for?
• Unlike parasites, parasatoids kill their hosts • Parasatoids are generally host specific • They are routinely used in biocontrol
What are the features of the great white shark?
• Up to 20ft and 5,000 lbs; apex predator • Feeds on marine mammals, fish, and seabirds • Global distribution; migratory behavior (12,000 miles/ 9 months) • Electroreceptors (Ampullae of Lorenzini) allow detection of electric fields.
What are evertable stomach?
• When feeding, sea stars can extend their stomach pushing it through very small openings • The water vascular system is used to slowly pull muscles apart along with specialized catch collagen - found in echinodermata
General characteristics of Annelida
• ~ 17,000 species, marine and terrestrial • Segmentation • Paired setae • Well developed organ systems • Coelom as hydrostatic skeleton
What are the main characteristics of cnidaria?
• ~11,000 species, all aquatic, mostly marine. • Radial symmetry, diploblastic, incomplete gut, non-centralized nervous system, acellular (mostly) mesoglea. • Dimorphic life cycle (polyp, medusa). • Cnidae; specialized collection of cells (prey capture, defense)
Main characteristics of Ctenophora?
• ~200 species, all marine, many undescribed. • Radial (rotational) symmetry, diploblastic, neurons, muscles. • Complete gut, no regional specialization
Overview of phylum mollusca
• ~90,000 species, both aquatic and terrestrial. • Extensive fossil record ~70,000 species. • Commercially important to humans (food, pearls) but with some medical significance (poisoning, venom, parasite hosts). • Ecologically and morphologically diverse.
