Herbivory
tritrophic interactions
Occur when a change at one trophic level indirectly affects trophic levels which are more than one step away.
bottom-up control
The abundance of predator populations at higher trophic levels is regulated by the abundance of prey populations at lower trophic levels
top-down control
The abundance of prey populations at lower trophic levels is regulated by the abundance of predator populations at higher trophic levels
induced defenses in plants
a defensive structure or compound that is produced in response to herbivory or predation
filter feeding
a method of feeding in which the animal traps organic material that is floating in the surrounding water
evolutionary arms race
adaptation in one lineage may change selection pressure on another lineage, giving rise to counter-adaptation
bottom-up control example
algal bloom-a nutrient runoff occurs that causes a large increase in the algal population
economic impacts of herbivory in forest
beetles bore into trees and kill them a. leads to were usable trees and causes gaps in forest canopy b. costs billions of dollars from lost forest products, reforestation management, and the removal/disposal of hazard trees
economic impacts of herbivory in crops
cost to control pest and the cost of crops lost is over a billion dollars
seed coat
increased seed coat density increases a herbivore's energetic costs of acquiring the nutritious endosperm
browsing
involves feeding on leaves, shoots, and fruits that are higher off the ground
herbivory
process in which animal consumes plant or plant-like substance
costs of induced defense
resource allocation leads to tradeoff in plant growth and development
herbivore biocontrol
the introduction of non-native control agents into region to permanently suppress the population of selected target plants
ethnobotany
the study of how people of a particular culture and region make use of indigenous plants
defensive secondary metabolites
used by plants to defend against herbivores, pathogens, and parasites
top-down control example
1 kelp forest ecosystem 2. sea otters are a keystone predator that preys on urchins. 3. the urchins eat kelp 4. when urchins are eaten, kelp can grow
ecological effects of herbivores
1. reduce plant fitness 2. reduce plant growth rate and reproductive output 3. control plant abundance and distribution 4. alter plant community structure and composition
mangrove climate change case study
1. relative sea level rise causes mangroves to retreat landward due to tree dieback 2. results in loss of biodiversity
effects of climate change on herbivores
1. shifted range for herbivores 2. leads to agricultural changes-deforestation in some ares 3. pathogen will have range shifts-new health risks 4. humans will have to adjust disease control
specialist vs. generalist
1. specialists have small, local distribution in which they have co-evolved with plants they eat 2. generalists have large geographic distribution
burrowing
1. the method of animals burrowing into their food while eating out a tunnel as the move 2. creates a shelter while they eat
herbivore limited plant communities ecosystem
1. top-down control 2. predator control 3. invasive species
qualitative chemical plant defense
1. toxic compounds that can deter feeding or affect herbivores after ingestion of small doses 2. nightshade 3. concentrations in leaves are constant and small 4. common in short-lived plants 5. low cost-easy counter adaptation by specialists 6. alkaloids
mechanical plant defense
1. use of physical defenses to dissuade or limit a herbivore's feeding ability 2. thorns, spines, glandular trichomes, seed coats
chemical plant defense
1. use of secondary metabolites for herbivore defense 2. alkaloids, terpenoids
example of evolutionary arms race in corn ear worm and tobacco
1. plant adaptation: increase in nicotine production 2. herbivore counter-adaptation: pest has developed enzyme in saliva that counteracts plant's defense
quantitative chemical plant defense
1. Substances eaten in large amount by herbivores that impede digestion 2. dosage dependent 3. common in long-lived plants 4. high cost-difficult counteradaptation
benefits of induced defense
1. reduce chance of herbivore adapting to plant defense 2. reduce metabolic load on plant in condition where biological chemicals are unnecessary
flora and fauna response to climate change
1. adapt 2. migrate 3. die
burrowing examples
1. bark beetles 2. leaf miners 3. termites
bark beetles and climate change
1. beetles have temperature-dependent life-history strategies 2. climate change will affect outbreaks, increasing frequency and intensity 3. coniferous forests most affected
resource limited plant communities ecosystem
1. bottom-up control 2. natural resources like light, minerals, water, carbon dioxide control plant communities
what can go wrong with biocontrols?
1. can fail to become established 2. do not have impact on target species 3. attack on non-target hosts 4. could spread unforeseen disease or pathogens
economic impacts of herbivory via overgrazing
1. causes soil degradation that lowers future crop yield 2. may lead to mass desertification
effects of climate change in arctic marine environments
1. change in primary productivity 2. shift of species range 3. redistribution of species 4. species turnover 5. increase in disease and extinctions
grazing examples
1. cows 2. grasshoppers 3. rodents
example of induced defense in plants
1. defense transcription products in potato leaves 2. occurred more rapidly when leaves were chewed by caterpillars 3. signal transduction pathways were activated in response to insect herbivory
glucosinolates
1. defensive secondary metabolite produced by plant 2. beneficial to humans as possible cancer inhibitor for many organ systems 3. found in high quantities in broccoli, brussels sprouts, and cabbage
phenylpropanoid
1. defensive secondary metabolite produced by plant 2. can protect against UV rays 3. helps heal wounds
flavonoids
1. defensive secondary metabolite produced in plant 2. acts as UV protection and defense against pathogens in plants 3. provides antioxidants to humans that help protect against disease
why is earth green with all these herbivores
1. density-dependent mechanisms prevents predators from reaching certain pop. levels. can't eat all available plants 2. plants defend themselves 3. plants limited by resource availability
frugivore
1. eat fruit 2. lemur
folivore
1. eat leaves 2. koala
nectarivore
1. eat nectar 2. honey possum
granivore
1. eat seeds 2. honeycreepers
grazing
1. eating grasses and other small plants from the surface of the ground 2. includes scraping algae from surface of water 3. does not provide animals with many nutrients
mucivore
1. feed on plant liquid 2. aphids
palynivore
1. feed on pollen 2. honeybee
xylophage
1. feed on wood 2. termite
herbivory importance in food webs
1. foundation of food web 2. reflection of plant species diversity and abundance
browsing examples
1. goats 2. caterpillars 3. panda
limiting factors to plants
1. herbivores 2. resources 3. depends what environment plant is in (top-down control or bottom-up control)
types of plant defense against herbivores
1. mechanical 2. chemical
example of herbivores that co-opted defense of host plants for their own protection
1. myrmecophyte: plant that live in mutualistic association with ant colony. protect ants that protect acacias 2. plant structural adaptation: domatia, food bodies 3. ant aid: pollination, seed dispersal, defense
evolution of increased competitive ability
1. non-native plants subject to decreased herbivory because they aren't in contact with natural enemies 2 .plants evolve increased competitive ability because they reallocate resources from defense mechanisms into growth, development, and fitness gains
specialist
1. organisms that feed on one or a few closely related food species 2. most are able to consume plants with chemical or physical defenses 3. gain most to all nutrients needed to survive from one food source 4. stenaphogous
generalist
1. organisms that feed on several non-related plant species 2. euryphagous
filter feeding examples
1. oysters 2. barnacles 3. flamingos