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Higher Biology Unit 3 3.7- Mass Extinctions and Biodiversity Extinction • When an organism is classed as extinct there are no living members of that species left • Extinction is a natural process where organisms that are less suited to an environment die out • Throughout the history of earth there have been several mass extinction events Mass Extinctions Mass Extinction • Mass extinctions are closely related to changes in global climate • These changes in climate result in different selection pressures being places on organisms • Only the organisms best suited to the new conditions will survive and reproduce • Evidence of mass extinctions comes in the form of fossil records Impact on Biodiversity • Immediately following a mass extinction biodiversity may be reduced • Over time speciation will occur and biodiversity will increase as new species emerge • For examples, the diverse number of mammalian species that now exist evolved from a small number of common ancestors Extinction Rate • Extinction rates can be difficult to measure accurately so are very approximate • Human impacts on the environment are increasing the rate of extinction across many species • Fossil records show that the arrival of Homo sapiens in a new area was quickly followed by extinction of the largest animals (megafauna) Ecosystem Degradation • Humans are changing the environment to make space and resources available for the increasing human population • Over hunting and habitat destruction have resulted in the loss of hundreds of species of birds and mammals Measuring Biodiversity • When looking at biodiversity there is no single measure used to compare the differences between living things • Biodiversity measures are useful in helping us to monitor the changes in populations and ecosysystems • There are 3 measurable components of biodiversity Genetic Diversity • Genetic diversity results from the variation shown by the number and frequency of alleles possessed within a population • By measuring the number and frequency and alleles we can observe loss in genetic variation within a population • This may be a problem for a species as the loss of certain alleles may limit their ability to adapt to changing conditions in the future Species Diversity • When measuring the species diversity of an ecosystem 2 measures are taken into account • Species Richness- the number of different species present • Relative abundance- the proportion of each species in the ecosystem • Ecosystems can share the same species richness but differ in their relative abundance of each species Ecosystem Diversity • Ecosystem diversity refers to the number of distinct ecosystems present in a defined area • Within a geographical area there can exist a number of different ecosystems Island Biogeography • Island biogeography is the study of the factors that affect the distribution and diversity of species on islands • Islands can refer to: • A true island- a land mass surrounded by water permanently • A habitat island- an area surrounded by a different ecosystem that cannot be colonised by the island species • The more isolated an island the lower the diversity found among its species • The smaller the surface area of the island the lower the biodiversity
