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Species Interactions

Species Interactions. 0. 41. Overview: Communities in Motion. A biological community is an assemblage of populations of various species living close enough for potential interaction For example, the “ carrier crab ” carries a sea urchin on its back for protection against predators.

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Species Interactions

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  1. Species Interactions 0 41

  2. Overview: Communities in Motion A biological community is an assemblage of populations of various species living close enough for potential interaction For example, the “carrier crab” carries a sea urchin on its back for protection against predators

  3. Figure 41.1

  4. Concept 41.1: Interactions within a community may help, harm, or have no effect on the species involved Ecologists call relationships between species in a community interspecific interactions Examples are competition, predation, herbivory, symbiosis (parasitism, mutualism, and commensalism), and facilitation Interspecific interactions can affect the survival and reproduction of each species, and the effects can be summarized as positive (), negative (−), or no effect (0)

  5. Competition Interspecific competition (−/− interaction)occurs when species compete for a resource that limits their growth or survival

  6. Competitive Exclusion Strong competition can lead to competitive exclusion, local elimination of a competing species The competitive exclusion principle states that two species competing for the same limiting resources cannot coexist in the same place

  7. Ecological Niches and Natural Selection Evolution is evident in the concept of the ecological niche, the specific set of biotic and abiotic resources used by an organism An ecological niche can also be thought of as an organism’s ecological role Ecologically similar species can coexist in a community if there are one or more significant differences in their niches

  8. Resource partitioning is differentiation of ecological niches, enabling similar species to coexist in a community

  9. Figure 41.2 A. distichus perches on fence posts and other sunny surfaces. A. insolitus usually perches on shady branches. A. ricordii A. insolitus A. aliniger A. christophei A. distichus A. cybotes A. etheridgei

  10. Figure 41.2a A. distichus

  11. Figure 41.2b A. insolitus

  12. A species’fundamental niche is the niche potentially occupied by that species A species’realized niche is the niche actually occupied by that species As a result of competition, a species’ fundamental niche may differ from its realized niche For example, the presence of one barnacle species limits the realized niche of another species

  13. Figure 41.3 Experiment High tide Chthamalus Balanus Chthamalus realized niche Balanus realized niche Ocean Low tide Results High tide Chthamalus fundamental niche Ocean Low tide

  14. Character Displacement Character displacement is a tendency for characteristics to be more divergent in sympatric populations of two species than in allopatric populations of the same two species An example is variation in beak size between populations of two species of Galápagos finches

  15. Figure 41.4 G. fortis G. fuliginosa Beak depth Los Hermanos 60 40 G. fuliginosa, allopatric 20 0 Daphne 60 40 Percentages of individuals in each size class G. fortis, allopatric 20 0 Sympatric populations Santa María, San Cristóbal 60 40 20 0 16 8 10 12 14 Beak depth (mm)

  16. Predation Predation (/− interaction) refers to an interaction in which one species, the predator, kills and eats the other, the prey Some feeding adaptations of predators are claws, teeth, stingers, and poison

  17. Prey display various defensive adaptations Behavioral defenses include hiding, fleeing, forming herds or schools, and active self-defense Animals also have morphological and physiological defense adaptations Cryptic coloration, or camouflage, makes prey difficult to spot Video: Sea Horses

  18. Figure 41.5 (b) Aposematic coloration (a) Cryptic coloration Canyon tree frog Poison dart frog (c) Batesian mimicry: A harmless species mimics a harmful one. Nonvenomous hawkmoth larva (d) Müllerian mimicry: Two unpalatable species mimic each other. Venomous green parrot snake Cuckoo bee Yellow jacket

  19. Figure 41.5a (a) Cryptic coloration Canyon tree frog

  20. Animals with effective chemical defenses often exhibit bright warning coloration, called aposematic coloration Predators are particularly cautious in dealing with prey that display such coloration

  21. Figure 41.5b (b) Aposematic coloration Poison dart frog

  22. In some cases, a prey species may gain significant protection by mimicking the appearance of another species In Batesian mimicry, a palatable or harmless species mimics an unpalatable or harmful model

  23. Figure 41.5c (c) Batesian mimicry: A harmless species mimics a harmful one. Nonvenomous hawkmoth larva Venomous green parrot snake

  24. Figure 41.5ca Nonvenomous hawkmoth larva

  25. Figure 41.5cb Venomous green parrot snake

  26. In Müllerian mimicry, two or more unpalatable species resemble each other

  27. Figure 41.5d (d) Müllerian mimicry: Two unpalatable species mimic each other. Cuckoo bee Yellow jacket

  28. Figure 41.5da Cuckoo bee

  29. Figure 41.5db Yellow jacket

  30. Herbivory Herbivory (/− interaction) refers to an interaction in which an herbivore eats parts of a plant or alga In addition to behavioral adaptations, some herbivores may have chemical sensors or specialized teeth or digestive systems Plant defenses include chemical toxins and protective structures

  31. Figure 41.6

  32. Symbiosis Symbiosis is a relationship where two or more species live in direct and intimate contact with one another

  33. Parasitism In parasitism (/− interaction), one organism, the parasite, derives nourishment from another organism, its host, which is harmed in the process Parasites that live within the body of their host are called endoparasites Parasites that live on the external surface of a host are ectoparasites

  34. Many parasites have a complex life cycle involving multiple hosts Some parasites change the behavior of the host in a way that increases the parasites’ fitness Parasites can significantly affect survival, reproduction, and density of host populations

  35. Mutualism Mutualistic symbiosis, or mutualism (/ interaction), is an interspecific interaction that benefits both species In some mutualisms, one species cannot survive without the other In other mutualisms, both species can survive alone Mutualisms sometimes involve coevolution of related adaptations in both species Video: Clownfish and Anemone

  36. Figure 41.7 (b) Area cleared by ants around an acacia tree (a) Ants (genus Pseudomyrmex) in acacia tree

  37. Figure 41.7a (a) Ants (genus Pseudomyrmex) in acacia tree

  38. Figure 41.7b (b) Area cleared by ants around an acacia tree

  39. Commensalism In commensalism (/0 interaction), one species benefits and the other is neither harmed nor helped Commensal interactions are hard to document in nature because any close association likely affects both species

  40. Figure 41.8

  41. Facilitation Facilitation (/ or 0/) is an interaction in which one species has positive effects on another species without direct and intimate contact For example, the black rush makes the soil more hospitable for other plant species

  42. Figure 41.9 8 6 Number of plant species 4 2 0 Without Juncus With Juncus (a) Salt marsh with Juncus (foreground) (b)

  43. Figure 41.9a (a) Salt marsh with Juncus (foreground)

  44. Concept 41.2: Diversity and trophic structure characterize biological communities Two fundamental features of community structure are species diversity and feeding relationships Sometimes a few species in a community exert strong control on that community’s structure

  45. Species Diversity Species diversity of a community is the variety of organisms that make up the community It has two components: species richness and relative abundance Species richness is the number of different species in the community Relative abundance is the proportion each species represents of all individuals in the community

  46. Figure 41.10 A B C D Community 1 Community 2 A: 25% B: 25% D: 25% B: 5% D: 10% C: 25% A: 80% C: 5%

  47. Two communities can have the same species richness but a different relative abundance Diversity can be compared using a diversity index Widely used is the Shannon diversityindex (H) H −(pA ln pApB ln pBpC ln pC …) where A, B, C . . . are the species, p is the relative abundance of each species, and ln is the natural logarithm

  48. Determining the number and relative abundance of species in a community is challenging, especially for small organisms Molecular tools can be used to help determine microbial diversity

  49. Figure 41.11 Results 3.6 3.4 3.2 Shannon diversity (H) 3.0 2.8 2.6 2.4 2.2 3 4 5 6 7 8 9 Soil pH

  50. Ecologists manipulate diversity in experimental communities to study the potential benefits of diversity For example, plant diversity has been manipulated at Cedar Creek Natural History Area in Minnesota for two decades Diversity and Community Stability

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