1. Chapter 53
Community Ecology

2. Community Ecology
A community is an assemblage of species (populations) living close enough together for potential interaction in a habitat

3. Community Ecology
The boundaries of a community can be set by the experimental question (the decomposers on a rotting log, the benthic community of Lake Erie, the trees and shrubs in Yellowstone National Park)
Communities vary in their species richness and relative abundance

4. Interspecific Interactions
Interspecific competition – competition for resources between different species when resources are in short supply

5. Interspecific Competition
Competitive exclusion principle – The concept that when populations of two similar species compete for the same limited resources, one population will use the resources more efficiently and have a reproductive advantage that will eventually lead to the elimination of the other population

6. The Ecological Niche
An organism’s ecological niche is described as its place in an ecosystem – its habitat and use of biotic and abiotic resources
The competitive exclusion principle holds that two species with identical niches cannot coexist in a community

7. Resource Partitioning
Resource partitioning – slight variations in niche that allow ecologically similar species to coexist; competition is a selection factor in evolution

8. Predation Predation – a predator eating prey
Includes herbivory and parasitism
Eating and being eaten are prerequisite to reproductive success
Adaptations to increase success in predation may include acute senses, speed and agility, camouflage coloration, and physical structure such as claws, fangs, teeth, and stingers

9. Predation
Plants may defend themselves with mechanical devices, such as thorns, or chemical compounds
Animals can defend against predation by hiding, fleeing, or defending
Cryptic coloration allows animals to blend in to their environment
Mechanical and chemical defenses discourage predation
Aposematic coloration warns predators not to eat animals with chemical defenses

10. Predation

11. Predation
Mimicry may be used by prey to exploit the warning coloration of other species
Batesian mimicry – a palatable or harmless species mimics an unpalatable or harmful model
Müllerian mimicry – two or more unpalatable species resemble each other
Cuckoo Bee
Yellow Jacket

12. Parasites
A parasite derives its nourishment from another organism, the host, which is harmed in the process
Parasites that live within the host are endoparasites ; those that feed on the surface of a host are ectoparasites
In parasitoidism, insects lay eggs on hosts, on which their larvae then feed.
Parasites do not usually cause lethal harm to the host on which they feed

13. Mutualism between acacia trees and ants
In mutualism, interactions between species benefit both participants
Mutualistic interactions require the coevolution of adaptations in both species
Many cases of mutual symbiosis may have evolved when organisms became able to derive some benefits from their predator or parasite
Mutualism between acacia trees and ants

14. Commensalism
In commensalism, only one member appears to benefit from the interaction
Examples include “hitchhiking” species and species that feed on food incidentally exposed by another
The Patella gets it
food from the plant,
the Euklonia, which
is not harmed or
damaged in the process.
Example of Mutualism

15. Trophic Structure
The trophic structure of a community is its feeding relations
A food chain shows the transfer of food energy from one trophic level to the next

16. Food Webs
A food web diagrams the complex trophic relationships within a community

17. What Limits the Length of a Food Chain?
Within a food web, each food chain consists of only a few links (usually five or fewer)
Two hypotheses
Energetic hypothesis – food chains are limited by inefficiency of energy transfer (only about 10%) from one trophic level to the next
Dynamic stability hypothesis – suggests that short food chains are more stable than long ones because an environmental disruption that reduces production at lower levels will be magnified at higher trophic levels as food supply is reduced all the way up the chain

18. Dominant Species
Species in a community that have the highest abundance or largest biomass are a major influence on the distribution and abundance of other species
A species may become a dominant species due to its competitive use of resources or success at avoiding predation
What happens if the dominant specie is removed from a habitat such as the American chestnut trees?

19. Keystone Species
A keystone species has a large impact on community structure as a result of its ecological role
Experiments with a predatory sea star (Pisaster) demonstrates the importance of keystone species

20. Sea Otters as Keystone Predators in the North Pacific

21. Structures of Communities
The structure of a community may be controlled bottom-up by nutrients or top-down by predators
According to the bottom-up model of community organization, N → V → H → P, an increase in nutrients yields an increase in biomass at each succeeding trophic level
The top-down model, N ← V ← H ← P, assumes that predation controls community organization; also called the trophic cascade model

22. Disturbance and Community Structure
The nonequilibrium model emphasizes the nonstable, changing structure and composition of communities as a result of disturbances
Disturbances such as fire, drought, storms, overgrazing, or human activity change resource availability, reduce or eliminate some populations, and may create opportunities for new species
Small scale disturbances may enhance environmental patchiness and help maintain species diversity

23. Disturbance and Community Structure

24. Disturbance and Community Structure

25. Disturbance and Community Structure

26. Ecological Succession
Ecological succession is the transition in species composition in a community, usually following some disturbance
Primary succession occurs in areas previously devoid of life (new volcanic island or the moraine left by a retreating glacier)
Autotrophic bacteria → lichens → mosses → grasses → shrubs → trees
Secondary succession occurs in existing communities that have been disturbed by fire, logging, or farming, but the soil remains intact
Herbaceous species → woody shrubs → trees

27. Biodiversity
A communities biodiversity correlates with its size and geographic location
Biodiversity is greatest in the tropics and on large versus smaller islands
Biodiversity is measured by both species richness and relative abundance
Ecologists measure biodiversity as heterogeneity, which considers both diversity factors: richness and relative abundance

28. Which Forest is More Diverse?

29. Biodiversity
Tropical habitats support much larger numbers of species of plants, animals, and other organisms than do temperate and polar regions

30. Biodiversity
A species–area curve illustrates the correlation between the size of a community and the number of species found there

31. Biodiversity
Island biogeography states that the size of the island and its closeness to the mainland (or source of dispersing species) are important variables directly correlated with species diversity