Genetic monitoring: Difference between revisions
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<gallery> | |||
File:Genetic_Monitoring_Categories.png|Genetic monitoring categories | |||
File:Grizzly_Bear_Alaska.jpg|Grizzly Bear in Alaska | |||
File:Brush-tailed_Rock-wallaby.jpg|Brush-tailed Rock-wallaby | |||
File:Uncia_uncia.jpg|Snow Leopard (Uncia uncia) | |||
File:Kaiseradler_Aquila_heliaca_2_amk.jpg|Eastern Imperial Eagle (Aquila heliaca) | |||
File:Linces10.jpg|Iberian Lynx | |||
File:Wolverine,_Kristiansand_Zoo.jpg|Wolverine at Kristiansand Zoo | |||
File:Canadian_Lynx.jpg|Canadian Lynx | |||
File:Northern_Spotted_Owl.USFWS.jpg|Northern Spotted Owl | |||
File:Whale_meat_on_dish.jpg|Whale meat on dish | |||
File:Yokohama_Chinese_Medicine_Sea_horse_2.jpg|Sea horse in Chinese medicine | |||
File:Yokohama_Chinese_Medicine_Shark_fin_large.jpg|Shark fin in Chinese medicine | |||
</gallery> | |||
Latest revision as of 12:25, 18 February 2025
Genetic monitoring is a method used in conservation biology, genetics, and ecology to track changes in the genetic diversity of a species over time. It is often used to identify potential threats to a species' survival, such as loss of genetic diversity, inbreeding, or genetic drift.
Overview[edit]
Genetic monitoring involves the collection and analysis of DNA samples from a population over time. This can provide valuable information about the genetic health of a population, including its genetic diversity, effective population size, and the presence of harmful genetic mutations. Genetic monitoring can also help identify changes in population structure, such as shifts in the distribution of genetic variants or changes in the frequency of certain alleles.
Methods[edit]
There are several methods used in genetic monitoring, including DNA sequencing, microsatellite analysis, and single nucleotide polymorphism (SNP) genotyping. These methods can provide detailed information about the genetic makeup of a population, allowing researchers to track changes in genetic diversity and population structure over time.
Applications[edit]
Genetic monitoring has a wide range of applications in conservation biology, genetics, and ecology. It can be used to monitor the genetic health of endangered species, track the spread of invasive species, and study the effects of habitat fragmentation on genetic diversity. In addition, genetic monitoring can provide valuable information for conservation planning and management, helping to ensure the long-term survival of species.
Challenges[edit]
Despite its many benefits, genetic monitoring also faces several challenges. These include the cost and complexity of genetic analysis, the difficulty of obtaining representative samples from a population, and the need for long-term monitoring to detect changes in genetic diversity and population structure.
See also[edit]
This article is a Conservation biology-related stub. You can help WikiMD by expanding it!
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Genetic monitoring categories
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Grizzly Bear in Alaska -
Brush-tailed Rock-wallaby -
Snow Leopard (Uncia uncia) -
Eastern Imperial Eagle (Aquila heliaca) -
Iberian Lynx -
Wolverine at Kristiansand Zoo -
Canadian Lynx -
Northern Spotted Owl -
Whale meat on dish -
Sea horse in Chinese medicine -
Shark fin in Chinese medicine
