Add to ORKGIn this chapter we focus on the application of common genetic metrics as genetic indicators, or measures of patterns of genetic diversity, genetic erosion, or genetic vulnerability. We outline five things we have learned regarding the current application of genetic indicators and their use in natural resource management, and five areas of research that will be most fruitful in moving the field forwards
Abstract DNA is the most elemental level of biodiversity, drives the process of speciation, and und...
Monitoring our natural resources will increasingly rely on genetic tools in order to understand and ...
This study, prepared within the ambit of The State of the World’s Forest Genetic Resources, reviews ...
Genetic erosion is a major threat to biodiversity because it can reduce fitness and ultimately contr...
Genetic erosion is a major threat to biodiversity because it can reduce fitness and ultimately contr...
Genetic biodiversity contributes to individual fitness, species' evolutionary potential, and ecosyst...
Conservation genetics is a booming field focused on assessing the genetic structure and diversity am...
Genetic biodiversity contributes to individual fitness, species' evolutionary potential, and ecosyst...
Genetic erosion is a major threat to biodiversity because it can reduce fitness and ultimately contr...
Genetic biodiversity contributes to individual fitness, species' evolutionary potential, and ecosyst...
Genetic biodiversity contributes to individual fitness, species' evolutionary potential, and ecosyst...
In response to ever-increasing anthropogenic changes to natural ecosystems, regional, national and i...
AbstractThere is a general trend of biodiversity loss at global, regional, national and local levels...
Abstract DNA is the most elemental level of biodiversity, drives the process of speciation, and und...
Abstract DNA is the most elemental level of biodiversity, drives the process of speciation, and und...
Abstract DNA is the most elemental level of biodiversity, drives the process of speciation, and und...
Monitoring our natural resources will increasingly rely on genetic tools in order to understand and ...
This study, prepared within the ambit of The State of the World’s Forest Genetic Resources, reviews ...
Genetic erosion is a major threat to biodiversity because it can reduce fitness and ultimately contr...
Genetic erosion is a major threat to biodiversity because it can reduce fitness and ultimately contr...
Genetic biodiversity contributes to individual fitness, species' evolutionary potential, and ecosyst...
Conservation genetics is a booming field focused on assessing the genetic structure and diversity am...
Genetic biodiversity contributes to individual fitness, species' evolutionary potential, and ecosyst...
Genetic erosion is a major threat to biodiversity because it can reduce fitness and ultimately contr...
Genetic biodiversity contributes to individual fitness, species' evolutionary potential, and ecosyst...
Genetic biodiversity contributes to individual fitness, species' evolutionary potential, and ecosyst...
In response to ever-increasing anthropogenic changes to natural ecosystems, regional, national and i...
AbstractThere is a general trend of biodiversity loss at global, regional, national and local levels...
Abstract DNA is the most elemental level of biodiversity, drives the process of speciation, and und...
Abstract DNA is the most elemental level of biodiversity, drives the process of speciation, and und...
Abstract DNA is the most elemental level of biodiversity, drives the process of speciation, and und...
Monitoring our natural resources will increasingly rely on genetic tools in order to understand and ...
This study, prepared within the ambit of The State of the World’s Forest Genetic Resources, reviews ...