* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Conservation of Biodiversity - IB BiologyMr. Van Roekel Salem High
Survey
Document related concepts
Biodiversity wikipedia , lookup
Occupancy–abundance relationship wikipedia , lookup
Latitudinal gradients in species diversity wikipedia , lookup
Restoration ecology wikipedia , lookup
Theoretical ecology wikipedia , lookup
Assisted colonization wikipedia , lookup
Conservation biology wikipedia , lookup
Biological Dynamics of Forest Fragments Project wikipedia , lookup
Molecular ecology wikipedia , lookup
Introduced species wikipedia , lookup
Island restoration wikipedia , lookup
Biodiversity action plan wikipedia , lookup
Transcript
Conservation of Biodiversity VAN ROEKEL IB BIO II Assessment Statements G.4.1 Explain the use of biotic indices and indicator species in monitoring environmental change G.4.2 Outline the factors that contributed to the extinction of one named animal species G.4.3 Outline the biogeographical features of nature reserves that promote conservation of diversity G.4.4 Discuss the roles of active management techniques in conservation G.4.5 Discuss the advantages of in situ conservation of endangered species (terrestrial and aquatic reserves) G.4.6 Outline the use of in situ conservation measures, including captive breeding of animals, botanic gardens, and seed banks Indicator Species Indicator Species: species that are very sensitive to environmental changes ◦ Species will not be present in areas of high pollution ◦ Absence/presence of indicator species helps identify clean/polluted environments ◦ Lichens – sensitive to air pollution and presence of mercury/lead ◦ Macroinvertebrates – found in rivers and streams, sensitive to water pollution Biotic Index Measures the health of an ecosystem by measuring the number of species tolerant to pollution and the number of species intolerant to pollution ◦ The more intolerant species the cleaner the environment Extinction When environmental changes occur, the new selection pressures can lead to the extinction of previously successful animals Factors that contribute to extinction ◦ ◦ ◦ ◦ ◦ Habitat Destruction Pollution Overfishing or Overhunting Climate Changes Invasive Species https://www.youtube.com/watch?v=hDbz2dpebhQ Extinction of Dodo Caused by arrival of Dutch to environment in 1600s ◦ Deforestation and habitat loss ◦ Hunting for food ◦ Invasive Species, rats, dogs, cats from ships Lack of fit characteristics ◦ Flightless ◦ Short Legs ◦ No behavioral adaptation to avoid predation Nature Reserves Promote Biodiversity Areas of aquatic and terrestrial ecosystems that are protected by law to conserve biodiversity Nature Reserves are beneficial because ◦ ◦ ◦ ◦ ◦ Control Invasive Species Control Human exploitation Legally protect endangered species Opportunities for research Restoration of degraded areas Nature Reserves & size Nature reserves have very large areas ◦ ◦ ◦ ◦ ◦ ◦ Larger Habitats More resources & breeding sites More niches Allows for migration Establishes different ecosystems More biodiversity Smaller habitats have higher risks of extinction from unexpected factors Nature Reserves & Edge Effect Ecology at edge of ecosystems is different from center habitats Disturbances from outside extends into ecosystem ◦ Edges of forest have fewer trees, more sunlight and wind, less moisture. ◦ Organisms have more competition from other species Edge effect is controlled in reserves Nature Reserves and Corridors Greenbelts, hedgerows, and even tunnels under highways can provide corridors that connect otherwise isolated habitats Allows species to expand over larger areas Problems include ◦ Narrow corridors lead to exposure to predation ◦ Invasive species can enter habitat ◦ Corridors can cause controversy with humans Management of Reserves Active intervention occurs when humans intervene to restore areas and protect natural habitats in a nature reserve Includes: ◦ Restoration – restore land to natural state, can include clearing existing species and replanting ◦ Recovery of threatened species – maintains habitats of endangered species and reintroduction ◦ Removal of introduced species – removal of invasive species that have dominated environment ◦ Legal Protection – prevent activity that harms native animals and plants, such as development and pollution ◦ Funding and prioritizing – used to fund preserves In situ conservation Keeps organisms in the situation they belong and protect them by: ◦ ◦ ◦ ◦ ◦ Maintaining the original habitat Defending from predators Removing and preventing invasive species Having large areas to maintain large populations Large populations maintain genetic diversity Ineffective when: ◦ Species is too endangered ◦ Small populations can’t maintain genetic diversity ◦ Uncontrollable destructive forces (human incursion, invasive species, natural disasters) Ex situ Conservation Usually a last resort if species can not safely remain in natural habitat, or population is too small Accomplished in variety of ways ◦ Captive Breeding ◦ Cultivations of plants in botanical gardens ◦ Storing seeds in seed bank Captive Breeding Many zoos have facilities dedicated to captive breeding Goal is to increase reproductive output to ensure survival of offspring ◦ ◦ ◦ ◦ ◦ Artificial insemination Embryo transfer to surrogate Cryogenic eggs Human raised young Keeping a pedigree (minimize inbreeding) Problem - Difficulty reintroducing organisms into natural environment Botanical Gardens & seed banks Botanical Gardens ◦ Easy care and breeding ◦ 80,000 plants are grown outside of natural environment Seed Banks ◦ Seeds kept in cold, dark conditions ◦ Prevents germination, allows for later use (decades) ◦ 10,000 – 20,000 different species have seeds stored in seed banks Population Ecology VAN ROEKEL IB BIO II Assessment Statements G.5.1 Distinguish between r-strategies and k-strategies G.5.2 Discuss the environmental conditions that favor either r-strategies or k-strategies G.5.3 Describe one technique used to estimate the population size of an animal species based on mark-release-recapture method G.5.4 describe the methods used to estimate the size of commercial fish stocks G.5.5 outline the concept of maximum sustainable yield in the conservation of fish stock G.5.6 Discuss international measures that would promote the conservation of fish r-strategy vs. k-strategy Two strategies for survival and reproduction r-strategy makes the use of disposable offspring, organisms produce hundreds or thousands of offspring and don’t care for them after birth k-strategy occurs when parents have few offspring and invest time and energy into raising, nurturing and protecting offspring r-strategy vs. k-strategy Characteristic r-strategy k-strategy Life span Short Long # of offspring Many Few Onset of maturity Early Body size Small Late- after long period of parental care Large Reproduction Once during lifetime More than once during lifetime Parental care None Very likely Environment Unstable Stable Capture-mark-recapture Method used to estimate the number of animals in an ecosystem Capture some of population, mark and release them Second sample taken consisting of marked and unmarked individuals Proportion of marked to unmarked organism is same as proportion of original marked to whole population Formula n3 n1 n2 N N = N1 x n2 n3