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Community Biodiversity & development

This chapter delves into the definitions and factors influencing species richness and diversity in communities. It covers explanations such as structural complexity, geographic isolation, environmental stress, position, and geological history. Additionally, ecological succession and community models are discussed.

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Community Biodiversity & development

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  1. Community Biodiversity & development Chapter 52

  2. Species Richness vs. species diversity • Species richness = the total number of species in a community • high species richness – coral reefs, rain forests • low species richness – mountain tops, isolated islands • Species diversity = measures the relative importance of each species based on abundance, productivity or size • more diversity = more stability in the face of changes

  3. Species richness explanations • Structural complexity • Often determined by the types of plants growing in an area • More types of plants (forest) = more diversity • Fewer plants (grassland) = less diversity • Additional plants provide more opportunities for ‘microhabitats’ and create additional niches

  4. Species richness explanations… • 2. Geographic isolation • Inversely proportional: More isolation  less diversity • Distance effect – difficult for species in other communities to colonize • Some species may become locally extinct due to random environmental factors

  5. Species richness explanations… • 3. Environmental stress • Also inversely proportional: more stress  less diversity • Only species that can tolerate extreme conditions can survive in highly stressful communities • Species richness-energy hypothesis: different latitudes effect species richness because of variations in solar energy

  6. Species richness explanations… • 4. Position • Ecotone– the margins between two different communities • Diversity is greatest here when compared to the interior of each community – the edge effect • Contains a good number of habitats from each community

  7. Species richness explanations… • 5. Geological history • Older, more stable areas tend to have more diversity  more time for evolution as well as immigration • This is known as the time hypothesis

  8. Ecological succession • The stages of a community change over time • Occurs as one group of organisms is replaced by another • Generally look at the differences in plants, but these influence the animals • Two basic types: • Primary succession – in an area not previously occupied; no soil • Secondary succession – in an area where a previous community existed but experienced some type of massive disturbance; soil is still present

  9. Why succession? • Climax community - early idea that succession always led to a ‘final’ community type, typical for that particular climate; this idea is currently out of favor • Intermediate disturbance hypothesis – all communities experience disturbances; periodic disturbances cause the community to revert to ‘earlier’ groupings of organisms

  10. Community Models • Organismic model – a community is like a ‘super-organism’ and resembles an individual body with cooperation between the parts • early stages like infancy, climax community like adulthood • Individualist model – each species has its own particular abiotic requirements and there is no cooperation

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