MARS 3450 Final
Phylum Ctenophora:
"comb jellies" -they swim using rows of cilia -the cilia are so finely spaced that they diffract light showing up as color changing patches along the body
pseudocoelomate
"false body cavity" - body cavity not fully surrounded by mesoderm tissue (ie. muscle)
Deep Pelagic fish (Myctophids)
"lantern fish" -65% of deep-sea fish biomass -5-10 cm long -photophores: light organs for bioluminescence (feeding, mating)
Life cycle of Pelagic Larvae?
"open population" -the babies come from pelagic, and are not dependent on local pop. density 1. The early larvae 2. Late larvae -they settle 3. Juveniles 4. Adults -spawning brings more early larvae
giant vs. colossal
*giant- 30 ft (275 kg); latching (serrated ring of chitin) *immature colossal- 18 ft *mature colossal-35 ft (490 kg); tearing
how does a Sei whale feed?
-finds a large group of fish and opens mouth wide to capture as much fish as possible; -then releases the water via filtration through Baleen
tolerance to physical stress (marine species dominate)
-exposure (extreme dryness, lack of oxygen) is worse at higher altitudes -wave action
What do the non-protruding eyes, smooth skin, &small scales do regarding high speed swimming in the Tuna?
-eyes allow for better streamlining -the smooth skin & small scales reduce frictional drag
rock barnacles (semiblanus)
-fast growing, large -not desiccation resistant -under rocks
lecithotrophic larvae
-feed on egg yolk, no feeding or digestive structures -limited food supply -few hours to days before settlement/metamorphosis -morphologically simple -occur in species of many different phyla ---> mollusks, annelids, ectoprocts -also in echinoderm but in polar regions larvae can remain in plankton for weeks (unusual) ie. botryllus schlosseri
planktotrophic larvae
-feed on plankton, have digestive systems -unlimited food supply (bacteria, algae, zooplankton) -spend weeks to months in water ---> long distance dispersal -specialized feeding structures, morphologically complex
infauna
-filter feeders, polychaetes, bivalves, gastropods
maintaining buoyancy
-fish would spend 10-60% of their energy staying afloat without buoyancy -neutral buoyancy reduces energetic cost
Heterotrophic marine protists includes?
-flagellates -ciliates -ameboid forms
Mola mola (Ocean Sunfish)
-flaps dorsal and anal fins like wings -lumpy pseudotail (clavus) serves as a rudder
abyssal plains
-flat and muddy deposits -3k to 5k depth -greater than 50% of ocean floor
Neuston?
-floats on surface of water, like algae
zooplankton
-form patches due to behavioral aggregations (pheromone release by females); predators are attracted to patches
Pelagic vs benthic?
-pelagic- open ocean; surface waters; microbially dominated; stable -benthic- ocean floor environment
priapulids
-phallus shaped -unsegmented marine worms -.2 to 39 cm in length -extendable, spiny proboscis for feeding (eat other worms or sediment) -shallow water to ~90 m depths
how many times did mammals invade the sea? explain
4 times 1. manatees and dugongs (sirenia) 2. whales and dolphins (cetaceans) 3. seals, seal lions (pinnipeds) 4. sea otters (carnivora)
difference between ray and skate?
Ray has a thinner/whip-like tail that stings with a barb, while skates dont sting and have a flatter tail
Fish diversity over time?
Ray-fin fishes and cartilaginous fishes are still in abundance today, whereas most other types have become extinct
larval settlement cues
chemical: -almost all larvae prefer bacterial-coated surfaces -oysters detect soluble peptide from adult oysters -ie. cassiopea jellyfish sense bacteria on mangrove leaves physical : -bivalves sense current speeds and settle where feeding will be most efficient (low current but not zero) -ie. barnacles use water speed and senses pits in rocks
laxus oneistus
chemosynthetic symbionts of marine invertebrate animals capable of nitrogen fixation
Animal-animal mutualism? give example and the benefits to each
clown fish and anemone -benefits to clownfish: protection form predators; source of food -benefits to anemone: cleaning; better water circulation; lure prey from clown fish swimming around
deep sea environmental conditions
cold, dark, scarce/poor quality food, high pressure
GA estuaries
combination of bar built and drowned river valleys
blue crab
comes onto marsh at high tide consuming snails, mussels, small fish, etc.
mummichog
comes onto marsh at high tide eating crustaceans, small mollusks, polychaetes
racoon
comes onto marsh at lower tide to eat mussels, snails
organic osmolytes
compatible solutes that don't affect plant enzyme activity such as sugar, DMSP, serine, alanine
Sharks have ______ while bony fish have _____.
denticles, which are not uniform around shark; scales are thin and overlap, so they are uniform
fiddler crabs
deposit feeders eating detritus in sediment
biomass declines with...
depth
sea cucumbers
has "crown" of tentacles which consists of highly modified tube feet
animal tree of life (from genomes)
lots of marine worms and worm-like phyla, not all are closely related
small plankton and phytoplankton
low reynold's number (streamlike flow rather than turbulent)
freshwater
low salinity
larvae survival rates
low; 95% of larvae lost in coastal ocean of delaware bay copepod stage-specific mortality
larvae survival rates are _____? what percent of Blue crab larvae are lost?
low; >95% are lost in coastal ocean
coral is found in [high/low] nutrient areas? why?
low; because in nutrient rich water, macro algae (such as Kelp) are much more efficient at absorbing the nutrients and grow much faster. ... But in a Nutrient poor water, macro algae don't have enough food to fuel their rapid growth, so coral can grow using the sunshine that is not blocked by the macro algae growth.
cephalopod ink
made of melanin/mucus; different species have different color ink; ink serves as escape mechanism
ciliary bands
used for locomotion (lecithotrophic) or locomotion/feeding (planktotrophic)
autotroph biomass?
weight, conc., etc... of autotrophic organisms
cephalopod eyes
well-developed and organized like vertebrates
vertically homogeneous estuary
well-mixed (tidal dominated)
where are sandy shores/mudflats?
west coast: localized east coast: south of cape cod
marsh
wetland dominated by nonwoody plants
mobile scavenger
(1.5 months) soft tissue removed by ratfish, hagfish, sharks, etc. that travel for food
enrichment opportunist
(1.5 years) bivalves, gastropods, polychaetes, crustaceans colonize bones and sediment around whale
reef
(10k years+) remaining skeleton colonized by suspension feeders
sulfophilic
(6.8 years) chemolithoautotrophs colonize bones and sediments as sulfide is emitted from the decomposition of bone lipid
what are examples of heterotrophic protists?
***Ciliates: -prey on flagellates and phytoplankton -have cilia -have flagella but cant move horizontally -unicellular ***Amoeboid Forms: -found in pelagic and some benthic areas -calcium carbonate shells -spikes grow and come out, but break easily -they feed via cytoplasmic streaming along the spines (like conveyor belt)-it catches prey and returns it to the body -some have algal symbionts -unicellular
net primary production?
**gross carbon fixation- C respired by phytoplankton **gross O2 production-O2 respired by phytoplankton -significance= carbon available to higher trophic levels
Giant squid vs colossal squid (immature) vs. Colossal squid (mature) in size?
*giant- 30 ft *immature colossal- 18 ft *mature colossal-35 ft
macronutrients? micronutrients?
*macro-N, P, and Si *micro- Fe
vertical zonation: west coast
*upper intertidal (periwinkles, limpets, lichens, encrusting algae) middle intertidal (barnacles, mussels, seaweeds) lower intertidal (seaweeds, surf grass) *extreme high spring tide
Class Gastropoda characteristics?
-"stomach-foot" -examples: snails, limpets, nudibranches -has single coiled shell usually -radula -usually benthic -has a variety of feeding strategies (grazers, deposit feeders, carnivores, and parasitic)
the squid usually has _____ bacterial cells, those of which are ALL _______________. what is odd though, is that the seawater has ______ cells/ml of bacteria, most of which are NOT _______________.
-10^9 -all bioluminescent -300-700 -bioluminescent
astomonema and stilbonematid symbionts
-16S rRNA bacterial phylogeny -all known nematode symbionts cluster together in evolutionary trees that are related to symbionts of marine gutless oligochaete worms
astomonema and stilbonematid nematodes
-18S rRNA nematode phylogeny -relationships with symbiotic bacteria seem to have evolved separately multiple times in nematodes
giant squid
-30 ft -300 to 1000 m deep -eaten by sperm whales
lampreys
-41 species (half parasitic) -adults can live in freshwater or marine -all species breed in freshwater
Within the 3.5% of salts in the ocean, what salts makes up this portion?
-55% chloride -30.6% sodium -7.7% sulfate -3.7% magnesium -1.2% calcium -1.1% potassium -these proportions stay constant throughout the ocean
What birds are in the Tubenoses group? how many species are there?
-Albatross, petrel, shearwater, etc -96 species
What do the grooves for fins help with, regarding fast swimming in Tuna?
-Grooves allow a place for fins retraction (the 1st dorsal and pectoral fins)
Why is the Strong caudal fin swimming style more efficient?
-b/c the tail is doing most of the work instead of the whole body moving, thus less energy is being used -allows faster swimming
Example of Cubozoa?
-Box jellyfish or sea wasp "Hand of death"
red macroalgae
-CaCO3 deposits in cell walls -grow in sheets across reef surfaces -cement into continuous surface -incorporate rubble/sediment
example of class gastropoda?
-Dog Whelk -Knobbed whelk -Pteropod
where do whales typically feed and breed?
-Feeding occurs primarily in high latitude areas where upwelling occurs, so that way there is dense aggregations of food due to all the nutrients coming up from the ocean floor -summer months are spent feeding in order to gain blubber for the winter (mating season) -Breeding occurs primarily in subtropical areas during winter since the food source was depleted during the summer in high latitude areas
Examples of birds that feed on the surface?
-Gulls, albatrosses, petrels feed on surface -some surface seize prey, while others dip down
physical challenges for terrestrial plants
-H2S toxicity -high salt and water balance -low O2 all lead to low plant diversity
Competitive Exclusion Principle?
-If two species attempt to share exactly the same niche, one will out compete the other
micronutrients in the ocean?
-Iron from Fe(OH)2+
what is unique about a Leatherback Turtle? what do they eat?
-It lacks a shell; -these eat jellyfish, specifically the Lion's Mane jellyfish
what are the wind patterns at the equator (North east and south east trade winds)?
-air rises at the equator since it is hotter, and as they cool down, they drop again as they move to the poles. -the cycle repeats
Coral-Zooxanthellae Symbiosis
-algae fixes CO2 to carbohydrates -coral provides CO2 + nutrients -holobiont functions like a plant -coral uses much of the energy to support skeletal growth
Temperature regulation in fish?
-although most fish are cold-blooded, some do increase the temp. in portions of their body -they do this to improve performance of their muscles
Epifaunal organisms?
-animals that live on the ocean floor
Nekton?
-animals that wander wherever since they can swim
whale falls
-appear in fossil records ~34 million years ago -chemosynthesis appeared 23 to 5 million years ago following whale evolution
where are diatoms usually found in high concentrations?
-areas with lots of nutrients present -many found in polar regions with limited iron
Examples of birds that feed by diving/underwater?
-Pelicans plunge dive -penguin feeds underwater -Shearwater bird "pursuit plunges" (meaning it chases prey underwater after diving)
lobe-finned fishes are called? ray finned fishes are called?
-Sarcopterygil -Actinopterygil
Reef fish examples:
-Sohal Surgeonfish -anenome fish (clownfish)
order of symmetry ?
-asymmetrical came first -radial -then bilateral
Autotrophs vs heterotrophs?
-autotrophs: creates organic materials from inorganic matter; photosynthesis, chemosynthesis "self-feeders" and primary producers, they produce more biomass -heterotrophs: "other-feeders" since they eat other organisms for food
Advantages of being big for whales?
-avoid predation -filter feed on larger organisms -maintain internal body temp -efficiences of size (lower mass specific respiration= better able to handle food scarcity, and have more efficient movement)
trunkfish
-awkward swimming with tilting and turning aids its maneuverability and helps it escape from predators -fins are vital in its stabilization -rigid form and shape are not suitable for straight, long-distance swimming
Why is the Undulate elongated body style of swimming inefficient?
-b/c it requires moving of the whole body, which uses alot of energy
How do fish maintain bouyancy to prevent them from sinking?
-Swim bladder that holds or releases gases to allow for sinking and raising -some fish also have fins that cause lift, which raises them upward and allows for forward motion
what is a radula?
-a conveyor belt of teeth -found in gastropods and some cephalopods
What is the traditional way of sampling phytoplankton?
-a plankton net -however, it is biased towards larger forms since the holes in the net can only be so small -bacteria and coccolithophores can pass through the holes of the net still
Roseobacter?
-abundant in coastal waters -associated w/ phytoplankton and high DOM
body plan - flatworm
-acoelomate -body covering from ectoderm -tissue-filled region from mesoderm -digestive tract from endoderm
steady state argument?
-adult population is roughly constant because females release > 1 million larvae per year -even tho lots die, there are still plenty that survive due to how many were released to begin with
Examples of birds that aerial feed?
-aerial piracy or hunting -some birds practice piracy, meaning they steal prey another bird has found ex: Great skus
features of mangroves?
-aerial prop roots for stability and O2 -horizontal roots for O2 -halophytes
what is the wind pattern of the polar easterlies?
-air falls at the poles and then rises when it reaches the 60N line.
what is the wind pattern of the Westerlies ?
-air rises as it moves towards the poles, then falls when it travels back toward the equator
Type IV secretion system?
-bacteria have this system in their membrane -they send a killing agent via the needle-like structure, which injects harmful compounds in the enemy
chemosymbiosis
-bacteria provide chemically-derived energy to host via hydrogen sulfide oxidation -most hosts farm and eat their symbionts -process not sun-reliant and can occur in shallow waters (photic zone) to deep sea (aphotic) -allows hosts to live in habitats that lack organic carbon to support their nutrition (coral reefs, seagrasses)
marine nematodes feeding ecology
-bacterial feeders -selective deposit feeders -epistrate feeders -non-selective deposit feeders -carnivores, predators, scavengers
developing a marsh
-bare sand or mud flat -intertidal -old marsh scraped away by glaciers
capabilties of SAR11?
-basic metabolic processes (TCA cycle, respiration, pentose phosphate cycle) -synthesis of all 20 aa and all but 5 common vitamins and cofactors -transporters for sugars, nutrients, metals, and aa's -response regulators for N and P deficiency -proteorhodopsin **can reproduce, but not much else
viviparous
-bear live embryos and then release juveniles as mini adults -ie. atlantic periwinkle (littorina saxatilis)
Why does the counter-current exchange system work better than a same-direction exchange system?
-because a same-direction exchange system would cause the water and blood to have about equal concentrations of oxygen once they pass by each other -the counter-current system allows more oxygen to be taken from the water. It maximizes the amount of time their blood is exposed to water that has a higher oxygen level, even as the blood takes on more oxygen
why is water a "rare" fluid?
-because it gets less dense as it freezes -it becomes more ordered, and expands when frozen
why cant oxygen be present during nitrogen fixation?
-because oxygen is toxic to nitrogen fixer's cells (like Trichodesmium)
why do birds usually nest in isolated, dense colonies? benefits and costs?
-because seabirds are awkward on land and vulnerable to predators -they benefit from this becasue being isolated protects them from predators -also they have safety in numbers when many birds nest together -However, there is a cost to big groups of birds nesting together, which is there will be competition for food and for nesting sites as well
Why dont we need to worry about sources and sinks for inorganic carbon in seawater?
-because there is a ton of inorganic carbon in the ocean
why dont phytopankton out-compete one another?
-because they absorb different wavelengths of light, meaning there is other wavelengths/colors of light that different phytoplankton species can absorb
Why do blue whales primarily feed in the summer?
-because they want to build up their blubber before winter comes, when they reproduce and their energy comes from their excess fat.
what do fish require to maintain their agility and ability to move quickly?
-being able to generate thrust -maintain bouyancy -acquiring oxygen -temp. regulation
hagfish
-benthic scavengers that live in deep, cold water -eat invertebrates or dead fish (eat from inside out) -43 are exclusively marine -reduced eyes (under skin) -release slime when stressed that clogs gills of potential predators
body plan - nematode
-body covering from ectoderm -tissue-filled region from mesoderm -digestive tract from endoderm -pseudocoelom
osmoconformers
-body osmolarity changes according to environment -most marine invertebrates + HAGFISH and CHONDRICHTHYES -polychaete worm
Osteichthyes: bony fishes
-bony skeleton -fused jaws -single row of teeth -terminal mouth -paired lateral fins -true scales fused w/ skin -28,000 species total ex: tuna, salmon, etc
Phylum Platyhelminthes (flatworms)
-both free living and parasitic (mollusc/annelid hosts) -muscular pharynx in middle of body protrudes to feed -blind gut has one opening -feed on crustaceans, annelids (or hosts) -eyespots/sensory tentacles -lives on crevices, rocks, bare sediments
minor/trace elements in seawater?
-bromide (Br-) 0.9mM -boric acid 0.4mM -nitrate (NO3-) 30 microM -phosphate 1 microM -iron (Fe)- 1 nM -Cerium (Ce3+) 5 pM
bony fish
-buoyant eggs and sperm spawn into water column -hatched embryos have a prominent yolk sac -larvae feed on zooplankton after yolk is used -fish larvae remain in water for weeks to months, and larvae grow into adults with adult organs
diversity of nematode body plans
-c. elegans is typical nematode -lots of divergence from typical nematode body plan -nematodes closely related to arthropods and tardigrades
What are basic characteristics about turtle grass?
-can be 6 inches to 1 ft high -has small flowers
giant clams
-can grow up to 1 ft in size -gills have symbiotic bacteria
Phylum Nemertea (ribbon worms)
-carnivorous worms which eat annelids, clams, crabs, fish -can contract from 10 m to a few cm -fluid pressure to extend proboscis, stylet punchers prey/injects venom -full gut/circulatory system
what syndrome does the Irukandji jellyfish cause? what happens?
-causes Irukandji syndrome, which causes severe headaches and muscle pain, chest pain, potentially heart attack -can last up tp 4-30 hrs, or up to 2 weeks
vertical zonation
-characteristic of intertidal environments -distribution of three salt marsh species in different marsh regions depends on salt tolerance/competition
mollusca/gastropod and green algae chloroplasts
-chloroplast symbiosis: sequesters functional plastids into animal cells
animal-animal mutualism
-clown fish/anemone -boxer crab/anemone -moray eel/cleaner shrimp
bar-built
-coastal north carolina -pamlico sound
An ecological niche of Giant Kelp would be?
-coastal waters -temp.=5-24 degrees Celcius -rocky substrate for attachment -[nitrate]>5uM -light intensity > 100uEi m^-2 s^-1
body plan - annelid
-coelomate -body covering from ectoderm -tissue-filled region from mesoderm -digestive tract from endoderm -coelom
bioprospecting
-compounds are made for protection from predation -metabolites may come from symbionts or food -sources of marine species used for drugs/medicines: sea squirts, sea hares, sponges
coral reefs
-corals (organization, symbiosis, hypertrophy) -reef distribution/growth -reef zonation -reef types -primary production/food webs -fish
long-term carbon storage
-core through salt marsh -organic carbon in marine sediments stored for 1000s of years
how do gills obtain oxygen?
-counter-current exchange between blood and water -Oxygen diffuses from water to blood
density affects ______ and determines _______?
-currents -stratification (which is when water masses with differing properties-temp, salinity, etc- form layers that act as barriers to water mixing)
what is detritus? POC? DOC?
-dead organic matter; -Particulate organic carbon; -Dissolved organic carbon
how does the bottom water form?
-decrease in temperature of the water, followed by an increase in salinity -that causes an increase in density, making it sink below the lighter, warmer waters.
trench? mid-ocean ridge?
-deep pocket in the ocean floor -abrupt rise in the ocean floors land, somewhat of a rocky, underwater mountain
vampire squid
-deep sea species related to octopuses -bioluminescent sticky ink + glowing lures at tip of each arm -can regenerate arms
what is thermohaline circulation?
-deep water circulation patterns -driven by global density gradients created by surface heat and freshwater fluxes.
blue crab zoeae (larvae) characteristics
-develop through 7 staages over 3 to 4 weeks on continental shelf -.2 to 1 mm in size -strong swimmers: 1 cm/sec and stay in upper water column -feed on plankton
Zoeae (larvae) characteristics? (blue crab larva)
-develop through 7 stages over 3-4 wks on continental shelf -strong swimmers -stay in upper water column -surface circulation controls their distribution -they feed on plankton
deep-scattering layers
-discovered at depth of 5-1500 m -layers had dense populations of vertically migrating fish and cephalopods that reflected sonar
long distance dispersal of planktotrophic larvae
-dispersal success is strongly controlled by ocean currents -many invertebrate larvae can live in open sea (teleplanic larvae), -many planktonic larvae stay close to stay close to origin
coastal plain
-drowned river valley -elongated estuaries formed by a general rise in sea level that flooded the river valley -susquehanna river
typical descriptions of reptiles (Sauropsida)?
-dry skin -covered w/ scales -eggs have leathery shell -ectotherms (dont regulate their own body temp)
How do salinity differences occur?
-due to evaporation and precipitation of water in certain areas
epifauna
-eating wrack, crustaceans
what is the definition of nutrients?
-elements that are required by organisms but are relatively scarce in the environment
what are nutrients?
-elements that are required by organisms but relatively scarce in the environment
general characteristics of seabirds? what do they look like? what do they eat? where do they nest?
-endotherms -webbed feet -salt glands -drab coloration (black, white, grey) -carnivores but feeding styles vary -nest on land, usually in dense colonies
rocky intertidal where?
-entire west coast -east coast: north of cape cod
intertidal zone of beach
-epifauna, infauna -most species -high tide
what are steady state oligotrophs?
-ex: SAR11 -they rely on diffusion of molecules from bulk seawater -low food -they have limited genomic capabilities due to having few regulators and reduced transporters -they are the most abundant in the environment
Sea Snakes (Order Squamata, suborder serpentes) descriptions? where are they found? what do they eat? give example of a sea snake?
-found in Indian and pacific oceans (tropical areas) -paddle-shaped tail -spends entire life at sea -Ovoviviparous (young develop in eggs w/in mother) -carnivorous (eats fish and fish eggs) -venomous ex: Belcher's sea snake
Copepods?
-found in open ocean -segmented body -swimming legs -mouth -sensory antennae -non-image forming eye -important part of plankton -eats diatoms
where is the hawaiian bobtail squid found? what does it eat? whats its main predator?
-found in shallow coastal waters off hawaii -eats shrimp and worms -main predator is the hawaiian monk seal, which is endangered
Where is eel grass commonly found? what are basic characteristics about it?
-found on cali coast -leaves are continuously being replenished since other things grow on the leaves that kill them -has small flowers
characteristics of the blue crab?
-found throughout eastern coast of US, caribbean, brazil, and argentina -live in estuaries where rivers mix with oceans -omniverous -live on the ocean floor -they become sexually mature a 1 yr old, and they mate in the estuary. -mom lays eggs there, and they hatch to release the larvae to the ocean
phylum nematoda (roundworms)
-free living assemblages in seaweed, sediments, sea ice, and parasites -meiofauna size (45 um - 1 mm) -1 to 100 million estimated nematode species but only 28k described species -eats bacteria, diatoms, algae, and other nematodes -large enough to be physically manipulated but too small for genomic interests
Dinoflagellates can be in a free-living form or a host form, what are the physical differences of both?
-free-living form has flagella, and host form has cellulose plates
how are these symbionts acquired?
-from the environment, via horizontal gene transfer
physoclistous
-gas secreted or absorbed to keep bladder at constant volume as fish changes depth -no muscular control over swim bladder volume
Phylum Annelida: Siboglinidae
-gutless worms that rely on symbiotic bacteria for nutrition -formerly classified as a standalone Phylum but evidence places this with segmented worms
gastrotrichs
-hairybacks -.06 to 3 mm -benthic, live on/between sand grains -detrivores (feed using muscular pharynx to suck up detritus, diatoms, bacteria, protists)
What was the experiment on damselfish?
-half of a reef was removed to test the hypothesis that space is limiting for damselfish -it was found that the density of the fish was not strongly controlled by space availability because many of the fish just moved to the other side of the reef that was left, making the density increase
basic structure of sponges? (3 cell types) what do those cells do?
-has specialized 1. pore cells, 2. collar cells, and 3. wandering cells -pore cells on outside leading to inner cavity -water flows quickly thru collar cells and captures food when it does -wandering cells are in b/w inner and outer cell layers and they secrete spongin (the structural protein)
Description of walrus?
-has tusks -they use these for digging in ocean floor -mainly used for fighting too
pathway of HGT?
-have a host -it gets colonized -hosts associate -host vents out some bacteria in order to prevent bursting of light organ -free-living symbionts exists now ocean with the bioluminescent ability -those free-living forms make contact with the aposymbiotic juvenile, which they will eventually colonize
Barnacles: NOT a mollusk, it is a crustacean
-have hinged shell that opens up to allow its appendages to come out and capture prey
spartinas
-help create ecosystem -spartina alterniflora = lower marsh -spartina patens = higher marsh
estuary opportunities for an organism
-high food availability through production and subsidies -coupled benthic/pelagic habitat
Important thermal properties of water?
-high heat capacity -high latent heat of vaporization ***high thermal inertia
geographic patterns
-high speciation depends on age -low extinction depends on stability -isolated waters can lead to allopatric speciation -global species richness strongly correlates with sea surface temperature -temperature can be related to primary production, metabolic rates, habitat diversity
is Oxygen conc. high in deep waters? what specific areas is it known to be found in?
-higher all over in atlantic ocean and lower parts of pacific ocean -opposite of thermohaline circulation
benefits of symbiosis to host? to symbiont?
-host: additional food resource -symbiont: protection from grazers; gains nutrient source
costs of symbiosis to host? to symbiont?
-host: need to supply nutrients and space for symbiont -symbiont: must supply fixed carbon to host
tube worms (hydrothermal vents)
-hosts provide constant supply of reduced substrates, oxidants, and CO2
Water is primarily made up of what kind of bonding?
-hydrogen bonding
immigration and invasion
-immigration is infrequent/slow and is the natural expansion of a species' range -invasion is frequent/rapid and is human-aided transport of species (canals, ships, aquaculture)
Megalopae prefer to settle in what kind of place?
-in a protected "nursery" habitat like a seagrass meadow or algal bed -they transition to downward swimming in the late megalopae stage since they have to settle before becoming an adult -they respond to chemical cues letting them know seagrasses are around
Class Anthozoa? description?
-includes corals and anemones -medusa stage reduced or abscent -colonial (most corals) or solitary (most anemones) -colonial forms secrete CaCO3 or protein skeletons
Phylum Arthropoda Subclass Crustacea
-infraclass cirripedia (barnacles) -older decapoda (shrimps, crabs, lobster) -isopods, amphipods -subclass copepoda -krill
depth patterns
-intermediate = maximum richness -stability increases with depth, and extinction is reduced -food supply decreases with depth as fewer species are able to handle it
environmental characteristics of both salt marshes and mangroves
-intertidal -low energy (protected from waves) -shallow slope/muddy sediments air temp < 0 C for salt marsh only
Ruegeria pomeroyi?
-isolated w/ DMSP as C-source -first heterotrophic marine bacteria to have genome sequenced!! -has a large genome, which allows for many more metabolic capabilties -opportunistic -living on dinoflagellates
what does a Corselet do for high-speed swimming in the Tuna?
-it is a patch of rough scales that help organize flow and reduce turbulence
Why is CO2 important?
-it is a source of inorganic carbon for photosynthesis -basis for pH buffering system in the ocean
why is the sponge the simplest multicellular animal form?
-it is an aggregation of specialized cells -few cell types and no coordination b/w cells -no symmetry -no well-defined tissues/organs -no circulatory system or real digestive cavity
describe the Lion's Mane jellyfish?
-it is gelatinous goo -does not give turtles alot of energy, so they have to eat ALOT of it
what is special about Sargassum?
-it is the only open ocean macroalgae -likes warm waters (atlantic) -it never attaches to the ground (just floats in ocean) -it initially grows in the gulf of mexico, but then it moves to the sargassum sea (which is beside florida on the right-atlantic ocean)
What is beneficial about the ocean's thermohaline circulation currents?
-it maintains the uniform distribution of salt composition w/in the ocean
Why is the Gray whale unique?
-it will swim to the ocean floor and take gulps of sediment and filters out the food to eat
What is baleen?
-keratin -protein structure that filters out plankton/fish -appears like thick, hair-like structures
sea otter
-keystone species that is source of detritus -mediates storm damage and eroding tips (kelp grows from base)
characteristics of wandering albatross?
-large (wingspan up to 11 ft) -can weigh up to 24 lbs -courtship displays (ways to show strength, ready for mating, etc..)
Endothermy is facilitated by?
-large size -waterproof feathers (they trap air in feathers) -dense feathering, often down
north pacific giant octopus (enteroctopus dofleini)
-largest octopus species
Macroalgae are what?
-largest primary producer in the sea (seaweeds, kelp)
Megalopae stage ?
-late larval stage -transition stage from planktonic to benthic -strong swimmers -have walking legs -stage only lasts a few days before they become adults
stilbonematidae nematodes (Laxus spp., Robbea spp.)
-layer of sulfur-oxidizing bacteria on nematode cuticle (ectosymbionts) -worms move through oxidized and reduced sediments that provide oxygen and sulfide -known from seagrass meadows and sandy reef sediments
Oxygen concentrations on surface?
-levels of O2 is not very high on surface of water due to it being more soluble in cold waters
limitation on primary production?
-light -nutrients (N, P, and iron)
siliceous ooze
-limited to areas with high biological productivity (polar oceans, upwelling zones) -least common type of sediment
bathymodulus mussels
-live and dead shells -methane seeps out -bacteria reside in gills of mussels
Description of Pinnipedia? where do they live? where do they reproduce? how do they conserve heat since they live in cold waters? what do they eat?
-live mainly in cold seas (north and south) -rest & reproduce on land -conserve heat with blubber, thick fur (traps heat), and a large body size (have a low surface:volume ratio) -carnivorous (eat fish)
macroalgae (+tunicates, etc.)
-lower intertidal -highest species diversity (red/brown algal zones, sub tidal kelp zone)
Order Sirenia description? what do they eat? where do they live? how do they swim? lifespan?
-mainly eat seagrasses and plants -restricted to tropical waters -lost rear pair of limbs -fully aquatic (mate, feed, reproduce in water) -they swim w/ strokes of paddle-shaped tail -only herbivorous marine mammal -lives up to 80 yrs
Description of Class mammalia?
-mammary glands -hair/fur (not required) -large complex brain -warm-blooded -air-breathing -placental development, birth to live young (most) -extended care of young
who lives in conveyor belt of microbes
-many deposit feeders, omnivores, scavengers, few filter feeders (<7%), few herbivores/carnivores
how do diatoms deal with low iron environments?
-many diatoms use a specific protein called proteorhodopsin (PR) that is connected to a light harvesting pigment -it is a light driven H+ pump that doesnt require iron to work
Phylum Arthropoda
-marine and terrestrial (insects) -successful (75% of animal species) -segmented, jointed body plan (higher degree of segment specialization than Annelids) -hard exoskeleton-chitin coated in lipids (has paired muscles allowing movement like as if it had a skeleton) -bilateral symmetry -cephalization (have a head) -simple/compound eyes
nekton
-marine animals capable of swimming against a current -includes cephalopods, fishes, marine mammals, birds, reptiles
patch-mosaic hypothesis
-marine snow falls in clumps and is not evenly distributed -different species assemblages in nearby patches -bacteria/archaea play a role
Typical Cnidarian life cycle?
-medusa releases egg -egg gets fertilized -planula larva -benthic polypoid colony (polyp) -becomes medusa/free-floating
what are dinoflagellates?
-microplankton -motile -2 flagella -cell wall of cellulose plates -diverse lifestyles (autotrophs, heterotrophs, parasites, symbionts) -can create harmful algae blooms
barnacles and mussels
-middle intertidal -can absorb oxygen through tissues (or anaerobic respiration) and tightly close plates
tide pools
-middle intertidal -crabs, sea urchins, etc.
how is the dead zone in the gulf of mexico formed?
-mississippi river brings in nutrient rich material in the ocean -microscopic organisms feed on this, and they bloom (like algae) -then, those organisms die and sink to the bottom, but it depletes the oxygen in that portion of the water because the bacteria that degrade the algae, consume the dissolved O2 in the process of decomposition -fish/mobile sea creatures leave the area since they cant breath w/o O2, and any organisms that cant move die, hence, the Dead Zone
diffusion
-molecular diffusion is slow -enhance through increasing surface area, decreasing membrane width, increasing concentration gradient
Blue crab life cycle?
-mom and dad mate -larvae released at mouth of estuary -they float in ocean -become megalopae and begin to find settlement
sound also plays a role in larval settlement, how so?
-more fish/organisms go to places with sound, just like larvae
why does having more collar cells benefit the sponge? also, what is the most common type of sponge?
-more layers of collar cells means it takes longer for the water to pass through the sponge, That means that there is a greater chance of food to be extracted from it -the most common type of sponge is the leuconoid
nautilius
-more than 90 tentacles; have grooves and ridges that grip food and pass to mouth; beak rips, radula shreds; live up to 20 years -siphuncle: tube of living tissue passing backwards through chambers -it regulates buoyancy by changing gas/water proportions in each chamber -can move into deep waters up till 800 m to avoid predation
calcareous ooze
-most common pelagic sediment type by area -accumulates most rapidly of the 2 sediments -shells dissolve below 4000m
predation
-most competitive and most abundant are preyed upon -too intense makes few species survive -intermediate predation intensity optimal for diversity
temperature regulation
-most fish are cold-blooded -some (tuna, certain sharks) increase body temp. 10 degrees C higher than ambient water temp. -in tuna, red muscles are heated to improve performance -countercurrent heat exchange reduces heat loss (arteries flow opposite to adjacent veins)
blue crab (callinectes sapidus)
-most of lineage 1 is in NA, but lineage 2 is in Central America and lineage 3 is in SA -importance of water currents -interaction between currents and behavior
characteristics of sponges? where are they mainly found? can they move?
-mostly marine -mostly abundant in shallow, tropical waters -the simplest, true, multicellular animal form -benthic/sessile
what is diffusion?
-movement from high to low concentration -passive process that equalizes concentrations
kinorhynchs
-mud dragons that are <1 mm -widespread in mud/sediments (shallow to deep-sea) -prey on diatoms or organic matter
Class Bivalva description?
-mussles, clams, oysters, scallops -hinged two-piece tail -benthic -laterally compressed body/no head -no radula -usually filter feeders by gills filtering food out of water, but some are deposit feeders ***infaunal and epifaunal
increased diversity in low latitudes
-pelagic species have flatter patterns than benthic -stable climates at low latitudes reduce species extinction -larger populations reduce extinction and have a greater chance of speciation
pollution
-natural sources (hydrogen sulfide) -anthropogenic (DDT) -high concentrations lead to low diversity -diversity goes up with distance from downfall but biomass goes down
fish reproduction
-nearly all fish are oviparous and shed eggs into water column (cod, herring, striped bass) -can lay eggs in nests in sediment (salmon) -lay eggs in hard substratum (sticklebacks, garibaldis) -spawning releases thousands of millions of eggs and sperm -nest building fish have more elaborate behaviors with red coloration/jaw change in salmon
what is the current-driven movement of blue crab larvae off the delaware bay?
-newly hatched zoeae are carried south by coastal current -they gradually move offshore where they get picked up by northern counter-current -they metamorphose to magelopae and are transported across the shelf by southward winds that push ocean water to shore -not many crabs actually make it back though
current-driven movement of larvae
-newly hatched zoeae carried southward in coastal current -gradually moved offshore where they are entrained in northward counter-current -metamorphose to megalopae and transported across shelf by periodic southward wind events
macronutrients of the ocean?
-nitrogen from NO3-, NO2-, and NH4+ -phosphate from PO43- -silicon from Si(OH)4
limitations in salt marsh grass?
-nitrogen is limited -the tall form of the marsh grass only grows in well drained, high nutrient soils -the short form grows in poorly drained, salty, anoxic soils
riftia nutrition
-no digestive tract -bacteria inhabit trophosome -carbohydrates released by bacteria -functionally similar to algal-animal symbiosis
Description of True Seals?
-no ears, just holes -short, thick front flippers w/ nails and distinct digits -have hair -short hind limbs are pointed backwards, so they cant be used for walking (they drag themselves) -sensitive vibrissae used for location of food
Anemone/coral life cycle?
-no medusa stage -goes from polyp-releases egg-fertilized by sperm via sexual reproduction-forms embryo-becomes planktonic larvae-finds ground and attaches-multiplies by asexual reproduction-repeat cycle
astomonema
-no mouth, vestigial gut -bacterial symbionts (endosymbionts) live in gut lumen -sulfide-enriched sediment layers; deep sea
How does nutrient distribution relate to depth of ocean?
-nutrients are depleted in the surface but elevated at deeper levels in the ocean (consumption of nutrients in surface waters, then remineralization at depth)
What is the nutrient-type profile?
-nutrients depleted at surface, but elevated at the depth of the ocean (deeper waters) ex: nitrate and phosphate are low at surface of ocean due to consumption by animals, but their levels rise as remineralization occurs towards bottom.
Plate convergence causes what?
-oceanic trenches, which is the destruction of old ocean crust (subduction) -older/denser oceanic plates get pushed under newer/lighter plates, causing the ocean crust to bend and form a depression (trench). This causes the old crust to be burned up by the underground magma, allowing room for new crust to be formed.
Class Cephalopoda
-octopus, squid, cuttlefish, and nautilus (head-foot) -sucker-lined arms -well-developed eyes -nervous system -highly intelligent -predators -reduced or internal or missing shell -jet propulsion -masters of camoflauge -"peak of invertebrate evolution": complex nervous system and behavior
loricifera
-only 37 described species -100 um to 1 mm -interstitial so live between sand grains -found worldwide at all depths -tolerate anoxia using hydrogenosome-like organelles instead of mitochondria
Describe the rosette package of water collection?
-open bottles are sent down into the ocean and are electronically told when to close -they close at certain depths of the ocean in order to collect water at different levels of the ocean
Class Cephalopoda Animals
-open water: squids -demersal: octopus, nautilius, cuttlefish -good swimmers feed on large fish, crustaceans, mollusks, annelids, and other cephalopods
what are major coastal upwelling areas of the world?
-oregon/north cali -east south america (peru) -northwest africa -south africa (benguela)
osmoregulators
-organisms have mechanisms that maintain constant osmolarity of body fluids -most marine vertebrates
chemosynthetic pockets
-patchy areas of reduced sediments -burial of organic matter or seep activity ie: chemosynthetic nematodes in deep-sea canyons
Paradox of phytoplankton?
-pelagic environment is quite homogenous -only a few resources that phytoplankton fight for (like light and nutrients such as N, P, and Fe, and space) -we expect competition to where a single species becomes dominant, but that doesnt happen and the phytoplankton community is pretty diverse
In the top layer of the ocean, what processes are occurring? mid layer of ocean? bottom layer?
-photosynthesis and respiration -respiration in mid-layer since there is not enough light for photosynthesis to occur -in the bottom, there is respiration happening, but less of it since many animals/bacteria ate the organic material in the middle layers of the ocean.
giant tube worm (riftia)
-phylum annelida, class polychaeta -can reach height of >2m -rapid growth
cnidaria and zooxanthellae
-phylum cnidaria, class scyphozoa: cassiopea ~30 cm
the common names of macroalgae are based on _____?
-pigment colors ex: brown algae or Red algae
Infaunal organisms?
-plants living IN the bottom of the ocean floor
Surface levels of nitrate and phosphate?
-practically none at the surface -there are some higher conentrations at the poles where there are upwelling vents -including mid-high concentrations in north pacific and indian oceans
sea stars
-predators -can regenerate limbs/body as long as some part of central disc survives
megalopae settlement
-prefer to settle in protected "nursery" habitat such as seagrass meadow, algal bed -transition to downward swimming into late megalopae -respond to chemical cues from seagrass to settle
biological interactions
-preferences for either larval or adult -competition is worse at lower elevations -predation is worse at lower elevations
Percent of oxygen saturation on surface of ocean?
-pretty much 100% saturation all over, with some parts supersaturated
Phylum: Cnidaria what characteristics does it have?
-primarily marine, but more complex than sponges -has two tissue layers (ectoderm and endoderm) -nerve net & muscles -radial symmetry -digestive cavity (central space) -two body plans (medusa and polyp) -colonial often
disturbance
-promotes multiple ecological states -relaxes competition -too intense -intermediate disturbance promotes diversity
benefit of stilbonematid ectosymbionts
-provides nutrition for nematode in the form of dissolved metabolic products (diffusion through cuticle) -bacterial coat functions as a protective layer against hydrogen sulfide
what is Upwelling?
-rapid movements of water (1 meter a day instead of the typical 1 cm a day in other parts of the ocean) -brings nutrients from bottom of ocean up to the top
cuttlefish
-related to squid -regulates buoyancy via rigid dorsal structure (cuttlebone) made of calcium carbonate -pumps salt in/out ampullae adjacent to cuttlebone chambers through osmotic pump -causes water to diffuse in/out of cuttlebone
Characteristics of brown algae?
-relatives of diatoms -Kelp -they have gas bladders that fill w/ gas that allows them to orient upright and float upwards -grow very fast and be 100 ft tall -dont live long ex: kelp ex: Sargassum weed
Disadvantages of being big in whales?
-requires lots of food -lower population size so its harder to find mates -increased risk of extinction -some things just dont scale well, like gas exchange and bone strength
clay
-reside in the deepest part of the ocean (below 6000m) -slowest accumulation -eolian dust are small particles carried into ocean by wind
adaptations to low O2
-roots grow closer to surface -air passages in aerenchyma tissue transports O2 from leaves to roots -aerenchyma tissue volume can increase under extreme waterlogged conditions -roots are capable of anaerobic metabolism
salinity zones
-salinities are dynamic -they change according to tides and river flow -high tide has higher salinity in water than low tide
how is ice algae formed?
-salts dont freeze when the ocean freezes, so the salts accumulate in pools (brine) within the ice crystals (microscopic) -very high salinity compared to the regular ocean levels
subtidal zone of beach
-sea cucumber, sand dollar, blue crab -low tide
chloroplast symbiosis ("kleptoplasty") example with sea slug and algae?
-sea slug eats green algae for the chloroplasts -the slug can keep the chloroplasts for awhile and use them to produce chlorophyll, but once the chloroplasts die, the slug cant reproduce them, and has to find more elsewhere
Reptiles (Class Reptilia), includes what types of animals?
-sea turtles -snakes -iguanas -crocodiles
Algal-animal or algal-protist symbiosis? where does it occur?
-shallow waters (photic zone) -common in tropics, not polar regions
Anatomy of Cetacean?
-shaped similar to fish -streamlined -loss of hair (have smooth surface) -flippers -loss of hind limbs -has flukes (horizontal tail fins) -blow holes -dorsal fins -no anal fins -lots of blubber
Sea Turtles (Order Testudines or Chelonia) description? what do they eat? where do they live? how many different species?
-shell is fused to backbone so they cant retract their heads -salt gland for osmoregulation -nest on land -8 species -live primarily in warm seas -herbivores, carnivores, omnivores, and jellyfish-eater
acidification of oceans is a major problem for?
-shells -coral skeletons -calcareous plankton -they rely on CO2
what are the benefits to the symbiont for living in the squid?
-shelter -constant supply of nutrients (iron, aa, carbon, electrons, etc..)
filter feeders
arise because of high phytoplankton productivity and shallow water
sea urchins and sand dollars
-short/long spines -aristotle's lantern: five jaws made up of calcium plates
continental shelf? seamount? continental rise? coastal plain?
-slight and continuous deepening of land from the coast of a continent -seamount is a small "bump" of land that is higher than the rest. Similar to a large hill on land -steady rise of the land from the ocean floor, meaning the ocean bottom is about to meet with the coastal land. -coastal plain is when the ocean floor becomes the coastal land of a beach/shore.
little gray barnacles (chthamalus)
-slow growing, small -desiccation resistant -on top of rocks
what is the cost of thermal tolerance?
-slower growth
cost of thermal tolerance
-slower growth -homologous higher than heterologous
angelfish
-slowly generates forward thrust through broad pectoral fins -agile but slow swimming -high maneuverability through disc shaped body
Description of Sea Lions?
-small earflaps -long foreflippers -no hair or nails -large paddle-like hind flippers allow for walking -5 webbed digits
meiofauna
-small size (38 um to 1 mm) -interstitial (live between grains) -permanent (ie. rotifers, nematodes, copepods) -some temporary (juvenile macrofauna)
Sea Otter Description? size? where do they mate? what do they eat? where are they found?
-smallest marine mammal (only 60-70 lbs, 5ft long) -hind feet are modified flippers -can mate and reproduce in water -have lots of hair, but little blubber -eat urchins, crabs, mussles, fish, etc.. -found in the north pacific from CA to AK
Fishing and Natural Selection
-species with low reproductive effort and late first age reproduction affected by intensive fishing -extensive fishing will cause shrinking of fish size to avoid being caught
biogeographic boundaries
-species without planktonic larvae are higher in 2-3 zones, but species with planktonic veliger are higher in 4-5 zones -DNA can help infer boundaries
catadromous
-spend adult lives in fresh water but move to sea to breed (e.g. eels of genus Anguilla) -dominate in low latitudes
anadromous
-spend most time in sea but come to breed in freshwater (e.g. salmon, shad, lamprey) -more common in high latitudes
Phylum Echinodermata
-spiny skinned -exclusively marine -most adults are benthic -CaCO3 exoskeleton -locomotion by water vascular system (internal water canals/tube feet) -no head; oral and aboral sides examples: sea stars, brittle stars, sea urchins/sand dollars, sea cucumbers (class holothuroidea), sea lillies (class crinoids)
Nematocysts? how do they work?
-stinging cells on jellyfish -they have penetrating filaments -used to capture/poison prey -stimulated by touch or chemicals -These work by sensing something, then a rapid influx of water into the cell causes explosive discharge -radial symmetry
tuna
-strong caudal (tail) fin -very efficient with stiff body -rapid swimming (cruising) minimizes disruptive turbulence at posterior end of fish
surface waters
-strong light and high plankton density -are source of material that sinks to the deep, but plankton are adapted to reduce sinking
characteristics of Tubenoses?
-strong sense of smell enabled by large olfactory cavity (uses it to find food) -can sniff out groups of fish
connell experiment
-study of vertical zonation -rock barnacles and little gray barnacles were studied -larval settlement (cleared rock), physical factors (transplants), biological factors (transplants)
Phylum Chordata (sea squirts + salps)
-subphylum urochordata -sea squirts (benthic) and salps (planktonic) -barrel shaped body with ingoing and outgoing siphons -tadpole like larvae have features similar to vertebrates
seagrass environmental conditions
-subtidal but exception in mild climates -lighted bottom (3-5m usually, but 60m max) -sandy sediments (roots can penetrate) -10 to 45 PSU salinity range -in more protected areas
Phylum Mollusca "soft body" characteristics?
-successful -diverse forms (7 classes) -external CaCO3 shell usually -organs -nervous & circulatory system -cephalization typically -complete gut -specialized organs (Radula, Mantle, and Foot)
Important mechanical properties of water? (on a micro scale)
-surface tension -viscosity
symbiodinium?
-symbionts with corals and other cnidarians
what is algal-animal (or protist) symbiosis
-symbiosis restricted to shallow waters (photic zone) -most common in tropics; not known in polar -cellular symbiosis vs. chloroplast symbiosis
barrier reef
-taha's -great barrier reef: largest structure built by organisms current reef is 6k to 8k years old
what affects production on land? in the ocean?
-temp. and water availability -nutrient availability and light
what is seawater density determined by? how so?
-temperature and salinity -as temp. increases, density decreases (molecules move faster at higher temps) -as salinity increases, density also increases (more "things" in the water make it more dense)
ecosystem characteristics of both salt marshes and mangroves
-terrestrial (salt-tolerant) plants dominate -vertical zonation -common ecosystem services -hybrid marine/terrestrial ecosystems
ecological niche?
-the "sum of species"; the use of biotic and abiotic resources in its environment -a species "profession"
What is a gyre? what is the direction of water flow in each hemisphere?
-the circular flow of water on a large scale based on winds -northern hemisphere has clockwise gyres -southern hemisphere has counterclockwise gyres
Emperor penguins parental care?
-the dad "emperor" penguin will hold the egg after the mother lays it -the mother goes to find food while father keeps egg warm and watches it -once mother comes back and the egg is hatched, the mother takes over the child watching while father goes and gets more food -they take turns doing this until the baby is full grown and independent
what is a larva?
-the distinct juvenile phase in an organisms life cycle -it metamorphoses into an adult -important for dispersal in marine organsims
describe the Gentoo penguin's parental care?
-the parents feed the young with krill until the young are several months old and grown large -these penguins are not scared of people due to being isolated away from predators, they likely dont really know what fear is
what is symbiosis?
-the physical association b/w 2 different species
primary production (flux)?
-the rate of new creation of new biomass by autotrophs
Steady state assumption?
-the size of the pool doesnt change over time sources=sinks at steady state
Cnidaria and Zooxanthellae relationship?
-the zooxanthellae live in tentacles of the jellyfish -the tentacles face towards the sun so photosynthesis can occur, which gives both organisms energy/food
organic carbon transporters?
-there are many because each compound is too dilute to specialize
what else is affected by coastal upwelling? (what is there an increase in?)
-there is a significant amount of phytoplankton blooms in upwelling waters due to the amount of nutrients being brought up from the deep waters -can see on images of the coast
Nitrate and Phosphate and high and low in certain areas of the ocean, and they primarily follow the pathway of __________. what areas are they high/low in?
-thermohaline circulation -high in pacific/indian oceans, low in atlantic oceans -high in deep waters
How do Giant Tube worms use bacterial symbionts?
-these worms are located in hydrothermal vents -they use bacteria in order to oxidize sulfur, which not only provides the bacteria with energy, but also the tube worms themselves
what are Diatoms?
-they are 5-200 micometers (um) (micro-plankton) -non-motile -silicate cell wall -"pill-box" shape
Larval feeding?
-they are lecithotrophic -feed on yolk of eggs -they have a limited food supply -they only have a few hours or days before they have to settle and metamorph -they dont have to feed often due to being morphologically simple
what do larger sponges typically do? (regarding water routing)
-they develop a more complicated water routing
Planktotrophic larvae feed on? describe their life?
-they feed on plankton -they have an "unlimited" food supply -they can spend weeks to months in the water for long distance dispersal -they have specialized feeding structures, meaning they are morphologically complex -found all over atlantic ocean
how do filter feeders work?
-they filter plankton, organic matter, etc... using gills -water currents generated by cilia on gills
where do macroalgae typically grow? where are they restricted to? what are they NOT?
-they grow on rocky substrates, so they are usually limited to coastal zones -they are NOT plants since they have no roots or vascular tissues
how is the squid luminescent?
-they have a "light organ" beneath their ink sac -its mainly active at night -to use it, the organ fills up with the symbiont bacteria (they pass through the ciliated appendages) which express light
How do polyps eat? what are they made of? What do polyps do regarding coral reefs?
-they have a mouth surrounded by tentacles -they collect food w/tentacles and brings it to its mouth -coral is an animal with a CaCO3 shell/structure -includes symbiotic algea, giving coral food via photosynthesis -polyps are used at night while photosynthesis is used during daytime when light is available
why do bony fish have more effective breathing?
-they have an Operculum, which is a covering over the gills that enables the one-way flow of water past the gills -operculum allows muscles to pump water across gills -means they don't have to always keep swimming as sharks do
Killer whales interactions w/ other killer whales?
-they have multiple pods (groups of whales) -pods come together to form clans -they have specific sounds they use to locate & recognize one another
What do Keels and Finlets do regarding high speed swimming in Tuna?
-they reduce turbulence (like plane wings)
why do seabirds have a salt gland? what does it do?
-they use it to excrete salt from their nose -since they hunt in the water, salt gets in their system quite frequently, so they have to get rid of it to ensure their salt concentrations are normal in the body -their nostril is connected to the gland
what are opportunistic eutrophs?
-they wait for nutrient/carbon pulses -they have larger genomes due to extracellular proteins and having many transporters -relatively rare but commonly cultured
Ultimate goal of fast swimming in fish?
-to feed and escape predators
what drives vertical zonation?
-tolerance to physical stress -biological interactions
Gross primary production?
-total carbon fixed by RubisCP -total O2 produced by PSII -significance= total local input to the system
where are trenches primarily located? what about ridges?
-trenches are typically located directly off of the coast of a continent due to the denser oceanic plates being pushed under the lighter continental plates. -ridges are located in the middle of the ocean (ex. mid-atlantic ridge). This is when two oceanic plates diverge from one another
Quorum sensing?
-triggers gene expression at high concentration -two of these systems found in Ruegeria pomeroyi -suggests cells reach high density at times and then alter behavior -communication b/w bacteria
what are characteristics of seagrasses?
-true flowering plants -found in shallow & clear habitats -allow for feeding and nursery grounds for many animal species ex: turtle grass and eel grass
Class Scyphozoa example? description?
-true jellyfish -polyp stage reduced or absent -up to 2 meters in diameter -some ability to swim by contracting bell ex: Pacific Sea Nettle -Moon jellyfish -cannonball jellyfish
seagrasses characteristics
-true plants (kingdom: plantae) and truly marine -roots for anchoring and nutrient absorption -around 50 species with thin leaves and thick rhizomes (mediate asexual reproduction) -up to 4000 blades per square meter -tiny flowers
zooxanthellae
-type of dinoflagellate -genus symbiodinium -"coccoid" stage is within host cell's vacuole -free-living stage is attracted to corals that lack symbionts
Moray eel
-undulate body in nearly equal waves -relatively inefficient swimming
generating thrust (moving forward)
-undulatory waves -thrust is generated tangential to body -normal force causes forward propulsion -side force wastes energy
sandy shores/mudflats
-unvegitated intertidal environments classified by sediment deposition and detritus accumulation -desiccation less of a factor as sediments stay wet even under low tide -sediments ALWAYS shifting due to wave action
limpets
-upper intertidal -have taller shell to increase mantle cavity for storing water and decreasing area for evaporation
periwinkle
-upper intertidal -can absorb oxygen directly through mantle cavity and excrete concentrated uric acid
diel vertical migration
-upward migration of zooplankton towards the surface at night and the downward movement of the zooplankton to the deeper water s in the daytime -controlled by biological clock reinforced by environmental light cues
Phosphorus dynamics in the pelagic photic zone ocean?
-upwelling causes source of P -uptake of P by phytoplankton -grazing by organisms -either excretion of P by organisms OR organisms die leaving sinks of particles
Remineralization explained using nitrate?
-upwelling of nitrate by ocean currents -algae consumes nitrate -algae sinks after eating -inside of the algae, the nitrate is converted into nitrogen -once the algae is in the deeper waters, bacteria degrade the algae and the nitrogen within it, converting it back to nitrate -nitrate stays in the deep waters until oceanic currents move it back to the surface again.
how can you create energy from deep water?
-use temperature differences between surface and deep water
What is another example of how bacteria is used as a symbiont?
-used in light production
Echolocation?
-used to find and hunt prey -it is the act of sending out waves of sounds (since light waves would dissipate in water quickly) -if the waves hit something in the water, the wave bounces back and alerts the dolphin -waves increase in frequency the closer to the prey the dolphin gets
symbionts in algal-animal symbiosis
-usually dinoflagellates -sometimes can be diatoms, cryptophytes, haptophytes
Benthic diatoms?
-usually motile by secreting mucous which propels them forward -found in mud flats, salt marshes, and coral reefs -can form algal mats
hosts in algal-animal symbiosis
-usually protists and cnidaria -Porifera, Platyhelminthes, Mollusca also seen
Marine Iguana description? (Order Squamata, suborder iguania)
-vegetarian (eats seaweed) -good swimmer, but spends most time on land -nests on land -endemic to Galapagos Islands -threatened and/or vulnerable
Ocean is ______-_______ due to density changes? what type of mixing is really slow?
-vertically-stratified -vertical mixing is slow
brittle stars
-very flexible arms -five arms, but can be sub-branched -tube feet trap zooplankton
minor groups of animals
-very little DNA data and few species formally described -priapulids -kinorhynchs -gastrotrichs -tardigrades -loricifera
poecilogonic species
-very rare -both planktotrophic and lecithotrophic larvae development modes ie. streblospio benedicti - small mud-dwelling polychaete in NA mudflats; larval type depends on local population
Marine heterotrophic bacteria/archaea are?
-very small (<1 um) -very abundant (~10^6 cells/ml) -have specific roles in ecosystem (food web, symbiosis, and chemical transformations)
How are the sound waves produced?
-via air sacs under blowhole -they are vibrated, generating sound -there is also an oil-filled sac (melon) that may specifiy direction and help receive returning sound waves -sound is likely propogated from the jawbone
tardigrades
-water bears -.5 mm -eat bacteria or carnivorous -shallow water to deep-sea -high tolerance to pressure, dehydration, radiation
Phylum Annelida (segmented worms)
-well described group -tube dwelling or free living lifestyles; carnivores/deposit feeders -polychaetes, oligochaetes, leeches (hirudinea) -segmented worms with tubular gut -"hydrostatic skeleton" allows local contraction of muscles in each segment for crawling/swimming
manatee in seagrass bed
-west indian manatee (trichechus manatus) -known to consume all species of seagrass found in florida including manatee grass, turtle grass, shoal grass
Euphausids (Krill)
-whales eat these -"pelagic shrimp" -6cm -found in polar regions -they form swarms, which is why whales go to antarctic, to eat them.
what is counter-current exchange?
-when 2 fluids flow in opposite directions in adjacent vessels; allowing gas transport
Neutral bouyancy occurs when?
-when the total weight of the fish equals the weight of the water displaced by the fish -more related to density, not weight
estuary challenges for an organism
-wide ranging and dynamic salinity (0 to 35 PSU) -rapid water flow
what are coccolithophores?
-within the phylogeny of Haptophytes; Prymnesiophyceae -eukaryotic 5-20um -calcifiers (CaCO3 ) -common off the coast of england and in the Bering sea -fossil record of them off the White Cliffs of Dover, England
what does "invertabrates" mean?
-without vertabrae -does not include autotrophs, bacteria or archaea
Sipuncula (peanut worms)
-wormlike but not segmented -soft sediments, crevices, snail shells in mud -feed on organic matter in sediment using branched tentacles -use fluid pressure to extend proboscis/feed
how can you see upwelling exists on a map of water temperature differences near the equator?
-you can see that upwelling exists because there is cold water surrounding the equator, when one would think it would be warmer -this proves that water upwells at the equator, bringing the deep, cold water up the the surface
oviparous
-young hatch from egg cases -ie. dog whelk (nucella sp.)
Coral reefs account for less than ___% of ocean surface area.
1%; meaning they are rare and dynamic
immigration and invasion examples
1) Indo-Pacific Lionfish are species introduced into Florida waters in 1990s. They lack native predators and feed on native fish. 2) Asian Green Mussel are native to tropical Indian and Pacific Oceans. They were introduced to Tampa Bay in 1999 by ship and lack local predators while also outcompeting oysters.
reef contributors
1) corals 2) coralline algae (red macroalgae) 3) organisms with CaCO3 shells (bivalves, gastropods, urchins, sponges)
what are the ecosystem services of marshes?
1) flood, runoff buffer 2) carbon sink 3) nursery grounds for commercial and recreational fish and shellfish 4) erosion control by binding sediments
what are different types of chemosynthetic environments?
1) hydrothermal vents 2) whale falls 3) wood falls 4) oil/gas 5) methane seeps 6) brine pools 7) pockmarks 8) mud volcanoes
global factors
1) increased diversity in low latitudes 2) geographic patterns 3) depth patterns 4) diversity in Pacific > Atlantic (ocean basin)
inundation types in physical stress
1) near constant inundation excludes spartina 2) more frequent inundation contained in well-drained sediment: -better flushing -moderate O2, salinity, H2S 3) less frequent inundation contained in poorly-drained sediment: -poor flushing -lower O2 -higher salinity, H2S
blue crab larval transport
1) newly hatched zoeae carried south in coastal current 2) zoeae moved offshore to then mingle with a northward counter-current 3) metamorphose to megalopae before going southward again
response to salinity changes
1) osmoregulators 2) osmoconformers
two types of swim bladders
1) physostomus: directly connected to gut; "gulp" air to inflate (ie. herring) 2) physoclistous: no connection to gut; diffuse gas via blood to inflate/collapse (ie. most bony fish) 5% of total body volume in marine fishes; 7% of total body volume in freshwater fishes
coral heterotrophy
1) polyp capture: heterotrophy vital for N/P but not C/energy 2) mesenterial filaments: coiled tubes attached to gut wall extrude through mouth and excrete digestive enzymes for feeding and defense
local factors
1) predation 2) disturbance (physical) 3) habitat availability 4) pollution, toxic substances 5) immigration and invasion
halophytes adaptations to high salt
1) retain water (succulents) 2) export salts (grasses)
adaptive explanations for diel vertical migration
1) strong light hypothesis: UV radiation during day makes zooplankton inclined to leave surfaces during day 2) phytoplankton recovery hypothesis: zooplankton feed on phytoplankton but dive down to allow them to recover 3) predation hypothesis: dive to avoid line of sight of predators such as fish and birds during day 4) energy conservation hypothesis: lower metabolic rate when spending time in cold water 5) surface mixing hypothesis: mixed surface waters from another region carried by wind can provide new supply of phytoplankton
wood falls
1-2 months: wood colonization by specialist bacteria 3-6 months: production/dispersal of wood 6-12 months: development of sulfidic niches due to enhanced respiration
3 main groups of fishes?
1. Agnatha-jawless fishes 2. Chondrichthyes-cartilaginous fishes 3. Osteichthyes-bony fishes
3 types of water routing in large sponges?
1. Asconoid-small; thin layer of collar cells 2. Syconoid- slightly more complicated due to bigger and more collar cells 3. Leuconoid- has many layers of collar cells;
what are the Toothed whales (predators)?
1. Bottlenose Dolphin 2. Porpoise 3. Killer whale 4. Pilot whale 5. Sperm whale
what are the 2 types of diatoms?
1. Centric- 2 layers fit tightly together; has pores and chloroplasts; some have long glass spines 2. Pennate- elongated; have 2 large choloroplasts; "ice-algae"
Larval settlement cues?
1. Chemical-cassiopea jellyfish sense bacteria on mangrove leaves 2. Physical- barnacles use water speed -larvae integrate multiple signals
light harvesting pigments in algae?
1. Chlorophylls= green 2. Chlorophylls + carotenoids = brown 3. Chlorophylls + Phycobilins= red
Within Phylum Cnidaria, there are many Classes: (4)
1. Class Cubozoa (box jellyfish) 2. Class Hydrozoa 3. Class Scyphozoa (true jellyfish) 4. Class Anthozoa (corals, anemones)
3 main classes within Phylum Molusca?
1. Class Gastropoda 2. Class Bivalva 3. Class Cephalopoda
2 types of upwelling?
1. Coastal upwelling- along the shore, winds push water offshore, which pulls up water from below into the surface waters 2. Equatorial upwelling- this is generated by the divergence of water flow across the equator
Zooxanthellae is a dinoflagellate, but what 2 stages exist?
1. Coccoid stage: exists within a vacuole in a host cell 2. Free-living stage: can be found in environment; they have flagella so they can move around
What occurs during gas retention (preventing diffusive loss of O2)?
1. Counter-current exchange in the Rete Mirable ("wonderful net") -Guanine crystals lining swim bladder
2 types of counts to determine # of bacteria and archaea?
1. Direct counts by fluorescent DNA stain (more accurate) 2. traditional plate counts (less
3 main types of feeding styles?
1. Diving and underwater feeding 2. Surface feeding 3. Aerial feeding
How is sound used by Cetaceans?
1. Echolocation to find/hunt prey 2. Social Interactions-to find friends/ feeding 3. Prey Immobilization-sound can stun prey, loud sounds may disorient prey
symbiont acquisition? 2 types
1. Environmental (horizontal) acquisition- -parents releases egg -fertilization occurs -symbiodinium acquisition -settlement -development -cycle repeats 2. Acquisition from parents- parents passing their symbiont to offspring
Types of Baleen Whales? (filter feeders or plankton feeders)
1. Right whale 2. Fin whale 3. Blue whale 4. Gray whale
two types of marine plants?
1. Salt-tolerant (marsh grass and mangroves) 2. True marine plants (seagrasses-4 groups)
What happens during gas production?
1. Gas gland in fish secretes lactic acid 2. pH drop from lactic acid release causes hemoglobin to release O2 3. O2 concentration increases in swim bladder
5 major marine habitats?
1. Intertidal-between high and low tides 2. Coastal (neritic)-shallow water close to land 3. Oceanic-open ocean (very top layer) 4. Pelagic-surface, open waters 5. Benthic-deep water/floor
Types of reproduction in macroalgae?
1. Isomorphic- alternates b/w similar sized and structure of diploid sporophyte and haploid gametophyte generations 2. Heteromorphic- alternates between large diploid sporophyte and microscopic haploid gametophyte generations
Pelagic zone has 2 subparts?
1. Photic zone-sufficient light is available still to support photosynthetic organisms; top part of the ocean w/more activity 2. Aphotic zone- less activity; not much light
2 basic types of swim bladders?
1. Physostomus- bladder has a duct connecting to the mouth -more rare 2. Physoclistous- the bladder is entirely closed, like a bag of air in the body -isolated
3 main orders of Class Mammalia?
1. Pinnipedia 2. Sirenia 3. Cetacea -Sea Otter does not really fall into these, it would be classified as Order Carnivora
Adaptations for high-speed cruising (yellow fin tuna)
1. Reduced drag with a streamlined shape 2. More O2 storage in red muscle (myoglobin) 3. High percent of aerobic (red) muscle 4. increased muscle temperatures
Baleen whale feeding styles? (3) describe them
1. Skimmers (14ft)- fine-fringed baleen 2. Gulpers (40 in)- they look for dense aggregations of prey and take huge gulps of water, then filter out water while food gets caught in "teeth" 3. Bottom-feeders- grabs mud and sediment on ocean floor, then filters it out while keeping food inside
2 Dominant lifestyles?
1. Steady-state oligotrophs 2. Opportunistic eutrophs
4 groups of seabirds?
1. Tubenoses 2. Penguins 3. Pelicans & Kin 4. Gulls and kin
What are the 4 main swimming styles? give an example of a fish that does each of them?
1. Undulate elongated body ex: Moray Eel 2. Strong Caudal fin ex: Tuna 3. Pectoral Fins ex: angelfish 4. Tail motion ex: trunkfishes
What are the 4 living species of Sirenia? where are they found? are they marine and/or freshwater animals?
1. West Indian Manatee- found in caribbean, and on coast of mexico, florida, and northern south america -mostly marine, but they do need to drink some freshwater periodically 2. Amazonian Manatee-solely freshwater; found in south america 3. African manatee-found on western coast of Africa 4. Dugong- found all over eastern coast of africa and northern coast of australia, and southern coast of asia
2 types of mutualism?
1. algal-animal 2. animal-animal
2 types of symbiosis?
1. cellular-animal lives inside another or with another 2. chloroplast-animal eats algae and holds the chloroplasts for awhile in order to gain photosynthetic capacity
light harvesting pigments?
1. chlorophyll a 2. carotenoids (fucozanthin)
origin of estuaries
1. coastal plain 2. bar-built 3. fjord 4. tectonic
modes of dispersal in ocean
1. direct development (offspring brooded or released as small adults) 2. lecithotrophic (offspring dispersed short distances by means of short-lived, yolk-dependent larvae) 3. planktotrophic (offspring dispersed great distances by longer-lived, plankton-feeding larvae
Adaptations for rapid acceleration in fish?
1. elongated body 2. strong 3. flexible tail fin ex: Barracuda
process of using genes to figure out what the organisms are?
1. extract DNA 2. PCR-amplify rRNA genes 3. Sequence rRNA genes 4. hang sequences on the tree of life to see where it fits
What are the 2 main important functions of venting?
1. helps control population size of symbiont in light organ 2. seeds environment for Horizontal transfer of symbiont
Description of Three-spot Damselfish? what do they eat? do they enjoy being around other fish? are they common, and if so, where at?
1. highly territorial 2. aggressively defends a patch of algae form most other fish/organisms 3. often creates algal mats by killing corals 4. eats algal patch and some invertebrates 5. large for a Damselfish (4 inches for this type) 6. Common on caribbean reefs (about 1 per every square meter)
How do you enhance diffusion?
1. increase area 2. decrease Length 3. increase concentration gradient **memorizing formula will help with this
successional stages
1. mobile scavenger 2. opportunist 3. sulfophilic 4. reef
Most marine systems are well-oxygenated and shallow, except?
1. oxygen minimum zone 2. isolated areas 3. organic-rich sediments
larvae have 2 swimming behaviors they alternate between, what are they?
1. photopositive-swims to sun/light 2. photonegative-swim towards ground
once they hit the ground (randomnly), how do they decide if the surface is suitable for them to settle there? (they look for 3 things)
1. pits and grooves-they attach 2. contact w/ a substance on the surface of another species-they attach 3. Contact with adults of the same specie-likely wont settle due to competition, but might since they know they could survive there since there are others of its kind living there
2 factors affecting food supply
1. productivity (export) in surface waters 2. depth of benthos
two types of pigment differences?
1. red/orange absorber 2. green absorber -if a phytoplankton absorb green, then they will appear red since that red light is reflected
what factors might limit population size?
1. space 2. food 3. predators 4. environmental conditions (temperature, salinity, etc...)
what forces are included in the process of thrust?
1. thrust force 2. normal force 3. side force
Physical characteristics of water can cause larvae to settle in that area or not. what are the 2 main water types larvae look for?
1. wavy and unsheltered 2. non-wavy and sheltered
Marine primary producers?
1.Phytoplankton: photosynthetic plankton 2. Macro-algae: seaweed 3. True plants: flowering plants (seagrasses)
a typical human's bacterial cell # = ?
10 x #human cells
oil seeps and brine pools found at what depths?
100s to > 3000m
ecologists view of autotrophy? normal photosynthesis?
106 CO2 + 16 NO3- + 1PO4^3- + light -> C106N16P1 + 120 O2 CO2 + H2O + 8 photons -> CH2O + O2
of the 31 animal phyla, how many are exclusively marine? how many are marine representative?
12; 30
How many species of penguins are there?
16 species
A gastropods body is twisted up to ____ degrees in its shell?
180 degrees
how many species of True Seals? Sea Lions ("eared-seals)? Walrus?
18; 15; 1
biomass of deep-sea taxa vs. depth
2000m to 7500m (-->) sea cucumbers < sea stars < anemones < polychaetes < echinoderms < molluscs < crustacea
Light reaction of photosynthesis?
2H2O + 2NADP+ + 3ADP + 3Pi + 8 photons --> O2 + 2NADPH + 3ATP + 2H+
thiosulfate oxidation?
2S2O3^2- + H2O + 0.5 O2 -> S4O6^2- + 2OH- + energy
salinity of brine pools
3-8 times greater than surrounding water
Giant squid?
30 ft long
how many animal phyla are there?
31
"Full-strength" seawater has what salinity?
35 PSU (35g of salt per 1 liter of seawater)
how many different species of bacteria and archaea are in the ocean?
37,470
how many species of Sirenia are there worldwide?
4, and they are all threatened or endangered -a 5th specie is called the Stellar's Sea Cow, and was found near Alaskan waters, but it is extinct now
Whale shark is about ______ long.
50 feet
Oceans account for ____% of global photosynthesis?
50%
prokaryotes provide ___% of all living C on earth, and ___% of all living N
50%; 90%
early jawless fish was ______ years old?
530 million years old
the oldest Layson Albatross is ____ years old.
66; they live a long time
what percent of the earth is covered by oceans?
71%
the pH of seawater remains at an ___?
8
Seawater composition?
96.5% water 3.5% salts (in one liter or kg of seawater)
what percent of all species are invertabrates?
97%
pico= ? nano= ? micro=? **all classify plankton (ex: picoplankton)
<2 um 2-20 um 20-200 um
Hydrothermal vent?
=occurs when oceanic water reacts w/ magma coming up from soon-to-be-formed oceanic ridges
factors for coral reef distribution
> 20 C 32-37 salinity of seawater high pH light
fringing reef
A reef attached to the shore of a continent or island. 2500 miles
Spatial heterogeneity? (A, B, and C clades)
A= high light on top B= intermediate light, middle C= lower light, side
(T/F) Surface and deep waters are isolated from each other
false
example of a filter feeder shark?
Basking shark -has gill rakers that it collects food with as water passes thru them
example of epifaunal Class Bivalva? what do these secrete? why
Blue mussels; they secrete byssal threads that helps them stick to rocks
another animal-animal mutualism example? give benefits to each.
Boxer crab and anemone (lives on crabs claws) -benefits to crab: steals food captured by anemone; defense via stinging tentacles -benefits to anemone: space to grow; access to food
Respiration? done by?
CH2O + O2 -> CO2 + H2O + 8 photons -heterotrophs
carbon monoxide oxidation equation?
CO + 0.5 O2 -> CO2 + energy
Dark reactions of photosynthesis?
CO2 + 2NADPH + 3ATP + 2H+ --> CH2O + H2O + 2NADP+ + 3ADP + 3 Pi
Chemoautrophs
CO2 --> carbohydrate same rxns to fix carbon as photosynthetic primary producers but hydrogen sulfide is prioritized
Photosynthesis? done by?
Co2 + H2O + 8 photons -> Ch2O + O2 -autotrophs
Transformations from dissolved to particulate by uptake in phytopankton occur, but what are the properties of dissolved verses particulate matter?
Dissolved: -doesnt sink -diffuses -moves w/ water Particulate: -sinks -doesnt diffuse -may/may not move w/ water
Why is seawater salty?
Due to many reasons: -volcanoes release hydrogen sulfide and chloride deposits into the air, which falls to the ocean when it rains -sodium, potassium, magnesium, etc.. are poured into the ocean by rivers that picked up those deposits from land
Phytoplankton types: eukarytoes and prokaryotes?
Eukaryotes: diatoms (micro), dinoflagellates (micro), and coccolithophores (nano) Prokaryotes (bacteria): cyanobacteria (pico)
Demersal (benthic) fish examples? description?
Flounder and Haddock and Cod -spend most of time on bottom -will swim up into the water to feed -can be abundant in shallow, productive waters
equation for flux?
Flux= A x (D/L) x change in C A= area D= diffusivity L= length of passage C=concentration gradient
What are the "expandable pleats" in blue whale?
HUGE mouth for a whale that can expand when trying to capture food -they intake lots of waters and then filter it all out while the food gets caught in their baleen
Phylum Cnidaria: Class Anthozoa example?
Gorgonian Coral/ "Sea Fan"
What birds are in the gull group? how many species?
Gull, tern, auk, skua, and puffin -118 species
sulfide oxidation formula?
H2S -> SO4
hydrogen sulfide problem
H2S outcompetes O2 for binding and therefore is toxic in most organisms
Agnatha: Jawless fishes
Hagfishes and Lampreys -Pacific hagfish is 2-3 ft long -cartilage skeleton -lack jaws (feed by suction using muscular mouth and teeth) -eel like bodies -lack scales -lack paired fins -100 species total -no eyes -smooth body due to mucous glands -deep-sea fishes ***Lampreys has an image forming eye
what is the most likley explanation for why whales are bigger?
Intensification of coastal upwelling is the most compelling because it leads to more food availability, which is advantageous to the mammals. The emergence of predators isn't as likely the best explanation because we dont know what caused those animals to get bigger either? It just leads to more questions. -also, data has shown that animals that live in upwelling areas increase in size, whereas as land animals saty the same size
What is the Seabird syndrome hypothesis?
It is a hypothesis to explain why seabirds nest on land but feed at sea: -seabirds are larger and longer-lived than land birds -smaller clutches, but have larger eggs -eggs have long incubation times -reduced reproductive rate per year -extended parental care by both parents -mate choice -monogamy -ground nests -dense nesting colonies -there is food scarcity around isolated nesting sites, so the birds go out to sea to hunt where prey density is increased
Vertical gradient? horizontal gradient?
K2= 10m^2/s K2= 1 x 10^-4 m^2/s
how does CO2 get into land plants? into seagrasses?
Land Plants: -CO2 diffuses into leaves through the stomata of the leaves -happens quickly Seagrasses: -Carbonic anhydrase dehydrates HCO3- into CO2, allowing CO2 to get into the stomata (since CO2 is not very plentiful in the ocean-can limit photosynthesis) -this helps deal w/ the fact that diffusion of CO2 is slower in water.
what is the name of the local turtle? where are they found? where do they find food?
Loggerhead (a carnivore); found in the GA Barrier Islands -they have to come to the surface to breath, but they hunt in the ocean for food
last example of an animal-animal mutualism? give benefits to each
Moray eel and cleaner shrimp -benefits to eel: gets cleaned and can eat shrimp when hungry -benefits to shrimp: food
nitrogen fixation?
N2 + H+ + energy -> NH4+
formula for nitrification (ammonia oxidation)?
NH4 -> NO3
formula for denitrification?
NO3 -> N2 (gas)
denitrification?
NO3- + organic C -> CO2 + N2
some bacteria use NO3- as an oxidizer of organic carbon instead of ____ in low ____ areas.
O2; O2
Photosynthetic adaptation of cyanobacteria?
PTOX-Plastoquinol terminal Oxidase -cyanobacteria often capture too much light energy in nutrient limited surface waters, so they can dissipate it with this PTOX, which takes electrons out of plastoquinone and uses them to reduce oxygen to water.
What birds are in the Pelican group? how many species?
Pelican, cormorant, frigate bird, gannet, and booby -42 species
Cyanobacteria?
Picoplankton: -very abundant in open ocean, low productivity, and nutrient limited regions -ex: Synechococcus and Prochlorococcus -picocyanobacteria are the most abundant phytoplankton in the ocean Filamentous forms: -macroscopic chains of cells ex: Trichodesmium 50-100 microns long -nitrogen fixers -can form large, visable blooms on surface of water
Basic organization of polyp? Medusa?
Polyp: -tentacles on top -connected to ground -tentacles sting Medusa: -flipped polyp -floats thru water (not connected) -free-living form
Example of class hydrozoa?
Portuguese man o' war
sulfur-oxidizing bacteria
Primary producers in hydrothermal vent communities are:
what is the most abundant photosynthetic organism in the ocean/on earth?
Prochlorococcus
What type of sponge covers rocks?
Red encrusting sponge
what is the solution of competition?
Resource partitioning, which is when species divide up resources so their niches do not overlap substantially (reduces direct competition)
RubisCO reaction?
RuBP + CO2 --> 2 PGA -rxn is slow and often limits the rate of CO2 fixation
2 types of Damselfish (S. Dorsopunicans and M. Chrysurus) have different sized territories. Which fish has the larger territories and which has smaller ones? do they overlap?
S. Dorsopunicans have smaller territories that do overlap with the much bigger territories of M. Chrysurus
what is the most abundant bacteria?
SAR11 (pelagibacter ubique) -it has the smallest genome of any free-living organism
anaerobic transformation equation?
SO4 + organic C -> CO2 + ATP + H2S (gas)
What main animals are included in sub-order Pinnipedia? What land animal are they similar to?
Seals Seal Lions Walrus -similar to bears & dogs
Chondrichthyes: cartilaginous fishes
Sharks, rays, and skates -cartilage skeleton -movable jaws -multiple rows of teeth -ventral mouth -paired lateral fins -scales (denticles) -1,000 species total
cold seep
methane and sulfide produced in organic rich sediments
what is proteorhodopsin?
a light driven pump that produces energy from light -its an example of mixotrophy in marine microbes -SAR11 have it
What is true regarding time and whale size? What are possible reasons as to why this is happening?
They are getting bigger over time -Maybe occurring because: 1. emergence of mega predators 2. colder waters making it more difficult to maintain body temp -also reduces stratification, allowing more food to be present 3. intensification of coastal upwelling leading to high prey densities necessary to support large body size
example of ciliates? example of an amoeboid form?
Tintinnids; Forams
True or False. Many species (e.g. herring, cod, plaice) feed and breed near the oceanic coast or in the open sea, although they can migrate between different localities.
True
what is the symbiont of the hawaiian bobtail squid? give a description of it
Vibrio fischeri -bioluminescent marine bacterium -gram negative -gammaproteobacteria -motile -found in a planktonic, free-living state, or in a symbiotic relationship with a host
Animals in Order Cetacea? what land animal are they similar to ?
Whale and dolphins -similar to hippos
what symbiont do coral polyp tentacles have?
Zooxanthellae -they live inside the tentacles (1-2 algae per cell)
delta
a region where the mixing between freshwater and seawater occurs out in the ocean rather than in a semi-enclosed zone
reefs
a ridge of jagged rock, coral, or sand just above or below the surface of the sea. rocky or oyster
swamp
a wetland dominated by trees
steady-state argument
adult population is roughly constant, females often release >1 million larvae per year, most must die
kelp holdfasts - thoracostoma trachygaster
able to disperse at scales >100 km
what is the total circulation time of the ocean?
about 1000 years
most of the ocean bottom is _______, at around ______ meters deep.
abyssal plain; 4000 meters
brackish-water
adapted for intermediate salinity
Seabirds feed where?
exclusively in the ocean
Fishes, crustaceans, turtles, marine mammals migration between spawning and feeding grounds
adult stock --> or <-- spawning area spawning are --> or <-- adult stock spawning area --> nursery nursery --> adult stock
Parasitism?
advantage to one, detrimental to the other (+,-)
morphology
advantages: detailed/visual species record (drawings done via microscopy disadvantages: subjective, morphological studies not directly comparable, light microscopy is limited so SEM/TEM needed for some structures
DNA sequencing
advantages: objective data, gives evolutionary history of species disadvantages: no visual information about morphology, dependent of database matches, best used in conjunction with morphology
Fishes' evolutionary advantage?
agility/rapid movement
What did the fat of the extinct Steller's sea cow taste like? the meat? What did these animals eat back when they were alive? How big did they get? How long were they alive once they were discovered?
almonds; corn beef -they ate algae -they could be 35ft long and weigh about 13,000 lbs -they were alive for only 27 yrs after discovery
phytoplankton must reduce NO3- to ______ in order to use in proteins, DNA, etc..
ammonia (NH4+)
atoll
an island consisting of a circular coral reef surrounding a lagoon volcanic island --> subsidence --> atoll
larvae provide info about
animal evolution, food webs (in plankton), genetic regulation of development
penguins are primarily located where?
antarctica and surrounding waters & islands
where salt marsh growth stops
as marsh grows taller: -it floods less frequently so sediment deposition decreases -plant growth decreases so organic matter input decreases
lucinid clams in seagrass
associated with seagrass roots
whre are the deepest seawater sinks located?
at the poles
kelp ecosystem distribution
atlantic, pacific, indian oceans and arabian sea
Are chemosynthetic bacteria autotrophs or heterotrophs?
autotrophs except during aerobic use of methane
turnover time? (TT)
avg time an element spends in a pool system/flux=TT
what is chemosynthesis carried out by
bacteria/archaea in sediments/water or through symbiosis
what type of whales are the biggest? how big are they?
baleen whales -blue, fin, right, and gray whales -they are bigger than 10m
chemosynthesis of bathymodulus mussels is based on?
based on methane
what is the main color birds are described as? why are they colored this way?
battleship gray (white on bottom, grey on sides) -they use it for camoflauge
colossal squid
beaks regularly found in sperm whale stomachs
why are elemental cycles often coupled?
because processes like upwelling, feeding, sinking, etc... affect multiple elements at the same time
moray eel/cleaner shrimp
benefit to moray: cleaned benefit to shrimp: food
clown fish/anemone
benefits to clownfish: predator protection, food source benefits to anemone: cleaning, better water circulation
boxer crab/anemone
benefits to crab: steals food captured by anemone, defense (tentacles sting) benefits to anemone: space to grow, food access
Biogeochemistry?
biogeochemistry is the study of the cycles of chemical elements, such as carbon and nitrogen, and their interactions with and incorporation into living things transported through earth-scale biological systems in space through time
vertical zonation of mangroves
biological control: white mangrove physical control: red and black mangroves
Comparing terrestrial and marine life: compare the autotroph biomass, primary production and average lifespan in both types of species
biomass, production and lifespan are all is larger, higher, and longer in terrestrial species
morphology of macroalgae?
blade (leaf) stipe (stem) Holdfast (roots)
example of marine reliance on estuaries
blue crabs
what is the biggest creature to ever exist?
blue whale
What else do fishes have thats advantageous?
bony fish: swim bladder -helpful because it controls if they sink or float, depending if it's full or not cartilaginous fish: myomeres (muscle bundles that allow side-to-side movement) and large fatty liver that also provides buoyancy
on a map, typically in the southern hemisphere, the cold currents are represented by the [top/bottom] arrows?
bottom blue arrows
on a map, typically in the northern hemisphere, the warm currents are represented by the [top/bottom] arrows?
bottom red arrows
hard corals
branched (fast growth, susceptible to wave dmg) massive (slow growth, resistant to dmg)
How do fish generate thrust?
by pushing vortices (donut-shaped water) of water behind them, which causes forward motion
corallivores
consume corals and zooxanthellae
herbivores
consume seaweeds, coralline algae, photosynthetic bacteria
chemosynthesis
conversion of inorganic molecules or CO2/methane into organic matter
trades between coral host and algal symbionts
coral gives: glycerol, sugars, amino acids symbionts give: CO2, NH4, space
primary production in marine ecosystems
coral reefs > salt marshes > seagrasss > rocky shores > mangrove forests > coastal upwelling > open ocean > benthic deep sea
thermal bleaching
corals can return back to normal if temperatures reverse
yeti crab
crabs hold bristles over vent fluid to perhaps feed bacteria
pockmarks
craters on sea floor formed by salt dome dissolution
reef zones
crest: high stress, high productivity front: low stress, but shallow larger branching and massive corals deep: low light, slow growing plating and massive corals lagoon: patch reef
bacteria have a major role in food webs as ______________?
decomposers
sampling deep benthos
deep sea dredge, grab sampler, box corer
connectivity
degree of interchange between populations (along a coastline) galapagos islands have only a few species with planktonic larvae
mangrove food web
detritus based food web
salt marshes food web
detritus based food web high tide = aquatic low tide = terrestrial
kelp food web characteristics
detritus-based food web where 90% of primary production found in detritus pool
what symbionts do forums have?
dinoflagellates
macroalgae have a complex life cycle with _____ and ______ stages.
diploid and haploid
evenness
distribution of individuals among species
diadromous
divide their lives between living in estuaries and open sea
photosynthesis productivity on land is _______ that of ocean.
double
skates and stingrays
eat benthic invertebrates or filter feeders
zoeae ride...
ebb tides out of estuary to continental shelf -currents are stronger in surface waters
sandy beach
epifauna: low macroinfauna: suspension feeders (no permanent burrows) meiofauna: low sediment size: sand oxygen/detritus concentration: more O2, less detritus type of animals: suspension feeders
mudflat
epifauna: moderate macroinfauna: deposit feeders (permanent burrows) meiofauna: high sediment size: mud oxygen/detritus concentration: less O2, more detritus type of animals: deposit feeders
mud volcanoes
eruption of mud/slurries, water, and gases either on land or in water
Characteristics of green algae?
example: Dead mans fingers example 2: Enteromorpha -very thin -1-2 cell layers -found in muddy regions
Charcteristics of Red algae?
example: Irish Moss -a source of carrageenan, which is used for gelling and thickening example 2: Corralline Red algae -rocky and hardened w/ calcium carbonate -see them mainly in coral reefs -grows on sides of tanks
larval survival
fertilization must be maximized predation can hinder success tidal environments (ebb tide/high tide, dawn/dusk) specific to some species
decapods
fiddler crabs - sexually dimorphic claws
dolphins primarily eat? how do they find food?
fish and squid -they have eyes, but typically use echolocation to hunt due to waters being muddy where they live
megalopae ride...
flood tides into estuary -currents are stronger in surface waters
extensive seagrass coverage is in?
florida bay
there is extensive sea grass coverage where?
florida bay
food scarcity in deep sea
food is scarce but organisms have more time to eat
species richness vs. salinity
for salinity: marine/stenohaline > euryhaline/brackish-water > freshwater freshwater species (2-15 PSU; oligo/mesohaline is minimum richness)
where are mangroves found?
found along 2/3 of tropical coastlines at highest elevations
blue carbon in vegetated coastal ecosystems
found in salt marshes, sea grasses, mangroves
why do we care about marine biodiversity?
fundamental ecology, productivity, resilience, bio-prospecting, moral/aesthetic reasons
gas supply to bladder
gas production: 1) gas secretes lactic acid 2) pH drop causes hemoglobin to release O2 3) O2 concentration increases gas retention: 1) counter-current exchange prevents diffusive loss of O2 2) guanine crystals line swim bladder
how do fish acquire oxygen?
gills
marsh periwinkle
graze on spartina, fungus, algae
what type of feeder are rays usually? what about a manta ray?
grazers; manta ray (pelagic) is the only filter feeder
sharks
has multiple rows of teeth (shortfin mako, sandtiger shark) has moveable jaws (shortfin mako) whale shark is at 50 ft, spiny pygmy shark is <10 risk of shark attacks is low
riftia's solution for hydrogen sulfide
has special hemoglobin that binds sulfide at a different site -prevents O2 interference -protects cytochrome c oxidase
stingrays
have modified dermal denticle which can be clipped; venomous
commensalism?
helps one specie, the other is unaffected (+,0)
mangrove global distribution
high in central america, southeast Asia
seagrass value in food web?
high in primary production and contribute large quantities of detritus primary production: 800 gC/m2/y or 16 apples/m2/y
salt marsh global distribution
high in southeast US, west Europe
black smokers
high levels of sulfur-bearing minerals (sulfides) common
swimming mechanics
high maneuverability: disk/diamond shape, flexible body, fins refine movement rapid acceleration: elongated body, strong/flexible tail fin efficient cruising: streamlined, stiff tail
anoxic mud
high organic content with low irrigation decreases oxygen levels increased conversion of SO4 to H2S by sulfate-reducing bacteria
physical control (tolerance)
high salinity tolerance so less frequent inundation, pneumatophores for O2 (black mangrove) exposure to tides and wind prop roots provide stability and O2 (red mangrove)
what tide does a marsh build to?
high tide
environmental acquisition
horizontal
Phylum Arthropoda Subphylum Chelicerata
horseshoe crabs, sea spiders, arachnids
cost/benefit of algal-animal symbiosis
host benefit: additional food resource host cost: need to supply space and nutrients for symbiont symbiont benefit: protection from grazers, nutrient source symbiont cost: must supply fixed carbon to host
sea otter role in kelp food webs
if otters decline, then urchins increase --> overgrazed kelp forests if otters increase, then urchins delcine --> healthy kelp forests
where is anoxic mud found?
in seawater looking like black metal sulfides and being smelly
cephalopod camouflage
induced by chromatophores (pigmented, light-reflecting cells) controlled by nervous system but enlarged by attached muscles
juncus (biological control)
infrequent inundation, lower salt stress, lower H2S
sources?
inputs of nutrients to the system ex: mixing w/ deep water, rivers, etc...
biological control of mangroves (competition)
intolerant of harsh conditions (white mangrove)
laminaria
kelp beds (low)
macrocystis
kelp forests (tall)
turbulent vs. laminar drag?
laminar drag= V turbulent drag= V^2 -turbulence refers to the unsteady movement of water -laminar refers to the steady movement of water
higher energy waves have...
larger sized particles such as gravel (>2 mm) and sand (.062 - 2 mm)
what are the least productive waters in the ocean? most productive?
least= tropical waters because there is not alot of nutrient mixing, and that combined with stratified waters means nutrients typically stay on the bottom most= coastal regions and 40 degrees N and S -coastal upwelling in those places
environmental characteristics of both sub-tidal ecosystems
lighted bottom: -growth of rooted plants/seaweeds -light penetrates at ~40m depth moderate environmental variability
white smokers
lighter colored minerals (calcium, barium, silicon)
habitat availability
limited critical resources results in fewer species
sinks?
loss of nutrients from the system ex: sinking of phytoplankton, burial in sediment, denitrification
Order Sirenia includes what animals? what land animal is similar to it?
manatees and dugongs -elephants and cows
per unit area carbon storage by ecosystem
mangroves > salt marshes > seagrasses
stock?
mass or moles of elements in particular pool (dissolved nutrient pool, phytoplankton biomass, etc..)
do not calcify
medusozoa, anthozoa, ciliates
Most activity of bacteria in the open ocean is _________.
microbial
sources of plume microorganisms
microbial communities in seawater, vent chimneys, near-vent animal symbioses, subsurface environments, near-bottom waters, recirculation of aged plumes
where are methane seeps found?
mid-atlantic
calcified test or skeleton
mollusks, anthozoa, sponges, radiolarians, foraminifera
intertidal ecosystems
mud (salt marshes, mangroves, mudflats) sand (beaches) rocks (rocky intertidal)
gas hydrate
naturally occurring ice-like form of methane and water stable in a given temp
Turbulence is high where?
near the shore; downward motion of turbulence causes settlement
countercurrent exchange mechanism (fish gills)
new supply of deoxygenated blood is exposed to oxygenated blood
is primary production a detritus based system?
no
is the light organ of the squid only colonized by one clonal population?
no, there are multiple different types/strains of the symbiont population -some squids have 2 of the strains, some 3, 4 etc...
do nematodes have fossil records?
no, they have soft body so without bones they cannot fossilize
the blowhole is essentially a whale's ______?
nostrils
is space limiting for Damselfish?
not really, they just become more dense if space becomes tight
richness
number of different species
Upwelling does not cause a net vertical movement of water, but it can cause a net vertical transport of ______ if a vertical gradient is present.
nutrients
system?
object of study; pelagic photic zone, salt marsh, coral reef etc...
limited exposure
occurs in lower intertidal as species are not as tolerant and have fewer adaptations
best camouflage species?
octopus
Sperm whales are valued for what?
oil
where are salt marshes usually found?
on fringe of estuary at mean sea level and above
moderately stratified estuary
partially mixed
Limitation in seagrasses in florida bay?
phosphorus is limiting
reef-building corals
phylum cnidaria, class anthozoa order scleractinia (stony corals) -colonial -deposit calcium carbonate -symbiotic zooxanthellae
more than 95% of primary production is by ________________? however, 1/3 of their production is limited by what nutrient?
phytoplankton; iron
pico? nano? micro?
pico- <2 um nano- 2-20 um micro- 20-200 um
Most sharks are _________, but some are _______ feeders.
predators; filter
build up of the salt marsh
presence of spartina causes: -reduced erosion due to roots which helps bind mud -increased sediment deposition as stems impact water flow -input of organic matter to sediment
bony fish in freshwater
problem: water gain, low salt does not drink, salt absorbed by gills, large volume of dilute urine
bony fish in seawater
problem: water loss, excess salt drinks seawater, salt excreted by gills, small volume of salty urine
mixotrophy?
provides additional energy to the organisms
Sulfur reacts with iron to form ______ in sediment cores of marshes, mud, etc...
pyrite
cold seep community
quill worms, anemones, microbial mat (white patches) bathymodulus mussels and lamellibranchia
flux?
rate of transformation b/w 2 pools or into/out of a system
mutualism?
relationship to the advantage of both species (+,+)
branchial plume
respiratory organ in riftia that deals with H2S, CO2, O2
stenohaline
restricted to high salinity
cycling?
reuse and transformation of element w/in the system
common mangrove forests
rhizophora (red mangrove) avicennia (black mangrove) laguncularia (white mangrove)
adaptations of rhizophora and avicennia to high salt, low O2
rhizophora: aerial prop roots avicennia: salt-secreting glands on leaves, air roots (pneumatophores)
tropical rivers and oceans
rivers have high productivity than the oceans
freshwater rivers and oceans
rivers have lower productivity than the oceans
diversity in pacific > atlantic
rocky intertidal invertebrates and coral reef fishes have greater diversity in pacific
pelagic fish?
salmon and sardines and anchovies and tuna
highly stratified estuary
salt-wedge (river dominated)
vegetated sub-tidal ecosystems
seagrass beds and kelp forests
difference between seagrass beds and kelp ecosystems
seagrass beds: -sandy/muddy bottom -nutrient poor water -low energy kelp ecosystems: -rocky bottom -nutrient rich water -high energy
total carbon storage
seagrasses > tropical forests > temperate forests > boreal forests > salt marshes > mangroves
why are seagrasses found in more protected areas
sediment mobility from currents and waves causes burial and erosion
estimate marine snow flux with
sediment trap
sediments vs. clay
sediments: -derived from sinking detritus -moderate organic content -moderate accumulation rate (1-6 cm per 1000 years) clay: -derived from continental sources -very low organic matter -slow accumulation rate (.2 cm per 1000 years) -deepest ocean floors
benthic deep-sea sediments
sediments: calcareous ooze (48%), siliceous ooze (14%) clay (38%)
estuary
semi-enclosed body of water with a free connection to the sea and where the seawater is diluted with freshwater from a river source
Larva disperse before they ____________? then, once they settle, they __________?
settle; metamorph into an adult
molecule diffusion is [slow/fast]?
slow
lower energy waves have...
smaller sized particles such as silt and clay (<.062 mm)
methanotrophic bacteria in bathymodulus mussels
source of oxidation of methane to CO2 and can assimilate methane
where are seagrasses not found?
south atlantic bight (coast GA, SC, NC)
where are cold seeps found?
south coast of US
niche
species niche dictates its role
species richness in hydrothermal vent communities
species rich but lower total biodiversity than background abyssal plains; ~600 new species endemic to vents
Phylum Porifera is what?
sponges
hydrothermal vents
spots on the ocean floor where hot gases and minerals escape from earth's interior into the water
sperm whales primarily eat? how do they go about feeding?
squid found in deep waters -they can dive down 15,000 meters, and can spend 2 hrs down there at a time -they reduce blood flow to unnecessary body parts (moving hemoglobin) -they dont take a breath before going down b/c that would collapse their lungs that deep down
sea lillies
sticky tube feet catch zooplankton
Metagenomics?
study of genetic material recovered directly from environmental samples -DNA fragments recovered from seawater, which are sequenced and analyzed
orbicella annularis
symbiont assemblages more heterogenous at shallow sites
symbiodinium diversity
symbionts diversified ~160 million years ago during adaptive radiation of shallow-water stony corals each glade on graph is a genus
What are zooxanthellae?
symbionts in corals
ectosymbionts
symbionts in slime film produced by sensory organs
lamellibranchia
symbionts: H2S oxidizers and H2S from sediment not water
what is one photosynthetic adaptation to symbiotic lifestyle?
synthesis of glycerol for delivery to host
seagrass habitats
temperate north atlantic is most shallow tropical atlantic and mediterranean have equal depths
the common ancestor of all tetrapod groups was _______?
terrestrial
seagrass examples
thalassia (found in tropical florida, caribbean) zostera (found in temperate eastern N. america, mediterranean)
resilience
the ability of one species to fill another species niche
what is the coral (host)/ algal (symbiont) trade-off?
the algae give food to coral (like glyceral, aa, and sugars), while the coral give algae space, food, protection, etc.. -food for algae is CO2, NH4+
coelom
the body cavity located between the intestinal canal and the body wall and lined with a mesodermal epithelium
plates diverging cause what?
the formation of new ocean crust -forms mid-oceanic ridges due to the magma rising and forming submarine mountain ranges called ridges
chemosynthesis?
the synthesis of organic compounds by bacteria or other living organisms using energy derived from reactions involving inorganic chemicals, typically in the absence of sunlight. ex: sulfur oxidizers
most sharks stay in what part of the water?
the top 100 meters (shallow) -most abundant in tropical, coastal waters -except Great White is found in colder waters so they can hunt seals
causes to coral reef damage
thermal bleaching ocean acidification loss of grazers (algae overgrowth) nutrient inputs (fertilizers) disease
acropora palmtata
thermally tolerant symbiont
what body part on rays allows them to feed on the ground even though their gills are also on the ground?
they have spiracles on top which allow them to breathe that way while they are feeding; dirt/sand will get into their gills if they breath through their gills while feeding
Copepods ____at each stage of their life cycle, why?
they molt, because the exoskeleton cant grow with them, so they shed their old one and grow a new one
what is blubber?
thick layer of fat beneath skin -allows insulation and energy storage
euryhaline
tolerate a range of salinity
typically, hot water is on the ____ of the ocean while cold water is on the _____.
top; bottom
90% of ocean is > 1000m deep
true
There is spectrum of webbed feet [T/F]?
true
in order to have the fastest speed, what needs to be reduced?
turbulence
osedax worms
type of polychaete worm (annelida) that feed on collagen and lipids in whale bones -rely on symbiotic bacteria to digest bones
polychaetes most abundant in?
upper continental slope (350m)
biodiversity
variety of life from genes to ecosystems (evolutionary, ecological, and cultural processes)
parental acquisition
vertical
salicornia (physical control)
very high salinity (low flushing, high evaporation) includes both: -short form spartina -long form spartina
direct development
viviparous and oviparous
Plankton?
wander throughout the waters; they can somewhat control vertical movements, but not horizontal
krill is _____ food? why?
whale food; it is common in polar regions, which is where whales and penguins are found
what defines a cycle?
when an element is not created or destroyed, but transformed and moved around in a cycle
wind-event driven delivery of megalopae
wind events greatly increase megalops capturing
Surface water circulation is mainly driven by?
wind patterns
Do box jellies have a polyp phase?
yes
Is photosynthetic rate equal in terrestial environment and in aquatic?
yes
are both forms of spartina genetically identical?
yes
scleractinian corals appear in fossil record
~240 million years ago
The typical swim bladder accounts for what percent of the total body volume of the fish?
~5% of total body volume in marine fishes ~7% of total body volume in freshwater fishes
phytoplankton are responsible for ____% of photosynthesis on the planet, and responsible for ___% of photosynthesis in the ocean.
~50% >95%