5: Biodiversity and Conservation

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5.1: Introduction to Biodiversity
This page discusses the diversity of life on Earth, categorized into unicellular and multicellular organisms and classified into three domains: Bacteria, Archaea, and Eukarya. Bacteria are diverse and abundant, Archaea survive in extreme environments, and Eukarya includes humans, animals, plants, fungi, and protists.
5.2: Importance of Biodiversity
Biodiversity exists at multiple levels of organization, and is measured in different ways depending on the goals of those taking the measurements. These include numbers of species, genetic diversity, chemical diversity, and ecosystem diversity. The number of described species is estimated to be 1.5 million with about 17,000 new species being described each year. Estimates for the total number of eukaryotic species on Earth vary but are on the order of 10 million.
5.3: Threats to Biodiversity
This page discusses the severe threats to global biodiversity resulting from human population growth and resource consumption, including habitat loss, overharvesting, and invasive species introductions. Climate change exacerbates these issues by altering habitats and species distributions, significantly increasing extinction risks by 2050.
5.4: Alpha, Beta, and Gamma Diversity
This page discusses Whittaker's (1972) three levels of biodiversity measurement: alpha, beta, and gamma diversity. Alpha diversity indicates species richness in a single ecosystem, beta diversity compares species diversity between ecosystems, and gamma diversity assesses overall diversity across regions.
5.5: Population Diversity
A population is a group of individuals of the same species that share aspects of their genetics or demography more closely with each other than with other groups of individuals of that species (where demography is the statistical characteristic of the population such as size, density, birth and death rates, distribution, and movement of migration). Population diversity may be measured in terms of the variation in genetic and morphological features that define the different populations.
5.6: Preserving Biodiversity
This page discusses the challenges and strategies in biodiversity conservation, emphasizing the impact of human activity and climate change on species loss. Significant legislative efforts like the Endangered Species Act and international agreements such as the Kyoto Protocol are highlighted, alongside the importance of wildlife preserves and habitat restoration initiatives like reintroducing keystone species.
5.7: Biodiversity Change through Geological Time
This page discusses the fluctuation of biodiversity over geological time driven by speciation and extinction, highlighting five significant mass extinctions. The Ordovician-Silurian event caused 85% marine species extinction, followed by the late Devonian and the end-Permian extinctions, the latter being the most severe.
5.8: Community Diversity
A community comprises the populations of different species that naturally occur and interact in a particular environment. Some communities are relatively small in scale and may have well-defined boundaries. Some examples are: species found in or around a desert spring, the collection of species associated with ripening figs in a tropical forest, and those clustered around a hydrothermal vent on the ocean floor. Other communities are larger, more complex, and may be less clearly defined.
5.9: Ecosystem Diversity
An ecosystem is a community plus the physical environment that it occupies at a given time. An ecosystem can exist at any scale, for example, from the size of a small tide pool up to the size of the entire biosphere. However, lakes, marshes, and forest stands represent more typical examples of the areas that are compared in discussions of ecosystem diversity.
5.10: Present-Time Extinctions
This page discusses the Holocene extinction, driven by human activities, resulting in numerous species extinctions such as the dodo, Steller's sea cow, and passenger pigeon due to hunting and habitat loss. The International Union for Conservation of Nature indicates over 380 vertebrate species have vanished since 1500 AD, with current extinction rates potentially 100 to 1500 times higher than natural rates.

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