Over evolutionary time, the effects of competition on species can vary. In some environments, the effects may be highly asymmetrical, and, at the extreme called amensalism, the survival or growth of one species may be inhibited and the other(s) not affected. The weaker competitor will either go extinct locally, diverge from the other species in its use of resources, or evolve an increased competitive ability. All three outcomes have been observed in natural and experimental populations studied by ecologists.
Species diverge from one another through competition, with the result that they fill different niches within the community. The great differences in bill size and shape that some of Darwin’s finches in the Galapagos have evolved have resulted from competition. This process, called character displacement, results as natural selection favours those individuals in each species that compete least with individuals of the other species. Experimental studies of coexisting seed-feeding rodents in the deserts of North America have shown that these species have evolved differences in size and other characteristics to minimize competition.
By evolving in response to one another, many competitors may be able to coexist regionally over the long term but not locally. Within any local area, one species may generally be driven to extinction by the other. Which species wins locally will depend on the physical environment, the genetic makeup of each of the competing species, and their interactions with other species in the community. Even subtle changes in the environment can affect which species wins. Experiments with species of flies (Drosophila) have shown that, when all other factors are held constant, small variations in temperature or in the percentage of ethanol in the larval environment can determine which species outcompetes the other. Hence, the continued coexistence of some competing species may depend critically on multiple populations of both or all species being distributed over a number of environments throughout a region (see population ecology: Regulation of populations: Metapopulations).
Transfer-of-energy-through-an-ecosystemFigure 2: Transfer of energy through an ecosystem. At each trophic level only a small proportion of …[Credits : Encyclopædia Britannica, Inc.]
Generalized-aquatic-food-webFigure 1: Generalized aquatic food web. Parasites, among the most diverse species in the food web, …[Credits : Encyclopædia Britannica, Inc.]
Male-resplendent-quetzal-or-resplendent-trogonMale resplendent quetzal, or resplendent trogon (Pharomachrus mocinno).[Credits : Michael & Patricia Fogden]
Parasitoids-which-parasitize-other-arthropods-by-depositing-eggs-in-theFigure 2: Parasitoids, which parasitize other arthropods by depositing eggs in the pupae, larvae, …[Credits : Encyclopædia Britannica, Inc.]
DOrbignys-round-eared-bat-capturing-a-katydid-in-flightD’Orbigny’s round-eared bat (Tonatia silvicola) capturing a katydid in flight.[Credits : © Merlin D. Tuttle, Bat Conservation International—Photo Researchers, Inc.]
Silky-anteater-extending-its-long-narrow-tongue-which-it-usesSilky anteater (Cyclopes didactylus) extending its long, narrow tongue, which it uses to …[Credits : Gunter Ziesler/Bruce Coleman Ltd.]
Coevolution-between-the-yucca-moth-and-the-yucca-plantCoevolution between the yucca moth and the yucca plant. (Top) A female yucca moth …[Credits : Photographs, © Robert and Linda Mitchell]Coevolution between the yucca moth and the yucca plant. (Top) A female yucca moth …[Credits : Photographs, © Robert and Linda Mitchell]
Coevolution-of-one-species-with-many-speciesCoevolution of one species with many species. (Top) European cuckoo (Cuculus canorus) …[Credits : John Markham/Bruce Coleman Ltd.]Coevolution of one species with many species. (Top) European cuckoo (Cuculus canorus) …[Credits : John Markham/Bruce Coleman Ltd.]
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