biodiversity
Cards (37)
- Biodiversity is the variety of living organisms
- Over time, the variety of life on Earth has become more extensive
- Biodiversity is threatened by human activities such as deforestation, agriculture, and climate change
- Species richness is the number of different species in a community
- Species richness can be measured by counting the number of species present using methods like random sampling
- Other sampling methods include systematic sampling, opportunistic sampling, and stratified sampling
- Species evenness is a comparison of the abundance of different species in a habitat
- Genetic diversity is the measure of genetic variation found in a particular species
- Genetic diversity is determined by calculating the heterozygosity index (H)
- The higher the heterozygosity index (H), the more genetically diverse the species
- Index of diversity (D) can be calculated as D = Diversity index / N = total number of organisms / n = total number of organisms of each species
- Maintaining biodiversity is important for ecological, economic, and aesthetic reasons
- Conserving biodiversity includes in situ methods like marine conservation zones and wildlife reserves
- Ex situ conservation methods include zoos, seed banks, and botanic gardens
- Zoos use scientific research, captive breeding programs, reintroduction programs, and education programs to conserve endangered species
- Seed banks store seeds in cool, dry conditions to conserve genetic diversity and prevent plant species from going extinct
- Biodiversity conservation requires international cooperation
- Historic and current agreements include CITES, the Rio Convention on Biological Diversity (CBD), and the Countryside Stewardship Scheme (CSS)
- Classification is the process of naming and organizing organisms into groups based on their characteristics
- Organisms can be grouped into animals, plants, fungi, prokaryotes, and protoctists
- Organisms can be further grouped into phylum, class, order, family, genus, and species
- Each species is named according to the binomial system
- Molecular phylogeny is the analysis of molecular differences in organisms to determine their evolutionary relatedness
- Data obtained by molecular phylogeny has led to the classification of organisms into three domains: Bacteria, Archaea, and Eukaryota
- Evolution is the process by which the frequency of alleles in a gene pool changes over time due to natural selection
- Natural selection is the process where fitter individuals survive and pass on advantageous genes to future generations
- Evolution via natural selection involves a variety of phenotypes, environmental changes, advantageous alleles, and changes in allele frequency over generations
- If two populations become reproductively isolated, new species will be formed due to accumulation of different genetic information over time
- Evidence for Evolution
- Observations by scientists like Charles Darwin and Alfred Wallace provide evidence for evolution
- Fossils, molecular biology, and comparative anatomy are used as evidence for evolution
- Variation
- Each population shows natural variation in characteristics
- Characteristics can vary in a continuous or discontinuous fashion
- Discontinuous variation has no intermediates and is controlled by a single gene
- Continuous variation can take any value within a range and is influenced by multiple genes and environmental factors
- Characteristics showing discontinuous variation are represented by bar charts, while continuous variation is represented by histograms with a normal distribution curve