Animal Behavior: An Evolutionary Approach |
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Page 202
... species . One then examines other species to test the prediction that the behavior will have evolved whenever the critical ecological factor ( s ) are present . The species chosen for this test must be unrelated to one another . Species ...
... species . One then examines other species to test the prediction that the behavior will have evolved whenever the critical ecological factor ( s ) are present . The species chosen for this test must be unrelated to one another . Species ...
Page 276
... species would happen to share identical or very similar diets ? Given that different species have separate ancestry and distinct genetic makeups from the moment of their reproductive isolation from one another , the probability must be ...
... species would happen to share identical or very similar diets ? Given that different species have separate ancestry and distinct genetic makeups from the moment of their reproductive isolation from one another , the probability must be ...
Page 431
... species . Thus , the first mothlike insect was probably a nectar feeder . Species that evolved from this ancestral population retained the trait because there were many sources of nectar that could be exploited by different species . If ...
... species . Thus , the first mothlike insect was probably a nectar feeder . Species that evolved from this ancestral population retained the trait because there were many sources of nectar that could be exploited by different species . If ...
Contents
NATURAL SELECTION | 5 |
Alternative Hypotheses | 11 |
Experimental Tests of Evolutionary Predictions | 17 |
Copyright | |
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ability activity adaptive adult alarm calls allele animal behavior anole ants aphids bees Behavioral Ecology benefits biological birds black-headed gull bluegill brain breeding butterfly cells Chapter colony Color competition cooperation copulate courtship cues cycle damselfly defense detect developmental display dominant effects eggs environment evolution evolutionary evolved example experience feeding female's fertilize Figure flies foraging gametes genes genetic genotype gulls habitat hive honeybee hormonal human hypothesis inclusive fitness individuals infanticide insects kin selection kittiwake larvae living male's males and females mate mechanisms moth nectar nervous system nest neural neurons offspring parental pattern pheromone Photograph physiological polyandry polygyny population potential predators prediction prey produce progeny rats reared receptive receptors relatively reproductive success response Science sensory sexual selection signals snakes social Sociobiology song sounds species sperm stimulation strategy survival territory testosterone toad traits wasp white-crowned sparrow wings workers young