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Transcript
Interactions within Communities Interactions within Communities • A community consists of all populations of different species that interact together in a given ecosystem. • Some organisms within communities cannot exist independently of one another and work together for survival. Niches • Ecological Niche: – An organisms use of and interaction with abiotic and biotic resources in its environment that influences its growth, survival and reproduction. • Fundamental Niche: – The physical conditions under which a species might live, in the absence of interactions with other species. • Realized Niche: – The actual niche of a species whose distribution is restricted by biotic interactions such as competition, predation, disease and parasitism. Niches • Intraspecific and interspecific interactions influences population dynamics of individual species. • Interactions between two species and their effects on population density calssified into 5 categories: – Competition, Predation, Symbiosis (Parasitism, Mutualism, Commensalism). Interspecific Competition • Occurs between individuals of different populations. • Serves to restrict population growth. • Consists of: – Interference Competition: involves aggression and fighting. – Exploitative Competition: involves consumption/use of shared resources Interspecific Competition • Strongest competition occurs between species when niches overlap. • Principle of Competitive Exclusion: – If resources are limited, no two species can remain in competition for exactly the same niche indefinitely. – Outcome? • Population decline in weaker species; migration; change in behaviour. Interspecific Competition • Resource partitioning reduces competition between different species occupying the same habitat. Interspecific Competition • Considered to be a driving force for evolution of adaptations that enable species to use resources for continued survival. • See the example on the two barnacle species on page 680 of your textbook. Predation • Population density of predator increases at the expense of its prey. • As prey ↑, there is more food for the predator. • As the predator ↑, the prey ↓. • As the prey ↓, the predator ↓. • When the predator population is low, the prey population can grow. Predation • The predator patterns tend to lag behind the prey patterns. Defense Mechanisms (Plants) • Defense mechanisms in prey have evolved through repeated encounters with predators. • Plants use morphological defenses (thorns, hooks, spines, needles) and chemical defenses. Defense Mechanisms (Animals) • Defensive mechanisms brought out by coevolution between plants and animals. • • • • • Camouflage. Bright colouration as a warning signal. Mimicry. Hiding Fleeing from predators. Bright Colours = Dangerous Camouflage Defense Mechanisms: Mimicry Batesian Mimicry • A palatable/harmless species mimics an unpalatable/harmful organism. Mullerian Mimicry • Unpalatable species that resemble one another. • Several species have the same appearance to the predator, reducing the impact on each individual species. Symbiosis (“living together”) • Mutualism • Commensalism • Parasitism Mutualism • Both organisms benefit from relationship. • Obligatory mutualism: neither species involved could survive without the other. • Examples: – Bacteria in guts of herbivores digest cellulose. – Bacteria in human large intestine produce vitamins B and K. – Oxpecker birds feed on backs of grazing animals. – Lichens – relationship between fungi and cyanobacteria. Commensalism • One organism benefits and the other remains unaffected. • Example: – Remora suction themselves to sharks…do not have to expend energy to travel! – Barnacles also attach themselves to whales. Parasitism • One organism (the parasite) benefits at the expense of another (the host). • The host is often harmed or killed. • Microparasites (microscopic) vs. macroparasites (readily visible). • Endoparasites (live & feed inside host) vs. ectoparasites (live & feed on host). Parasitism • Social parasites complete life cycle by manipulating social behaviour of host. • Example: – Cowbirds lay eggs in other nests…no energy expended on building a nest and caring for young. – Cowbird egg hatches earlier, so larger chick receives more food, resulting in higher death rate of host eggs.
