Adequate levels of genetic diversity are important for the long-term success of translocated populations. Typically, population genetic theory and mathematical models are used to inform expected outcomes in different contexts. However, difficulties arise when trying to translate theoretical expectations into management actions. Providing practical guidelines on how to maximise the genetic diversity of translocated populations will help bridge this gap. In this study we develop guidelines for genetic management in translocation programs that consider genetic dynamics associated with population establishment, the harvest of founders from a source population, and the supplementation of an existing population over eight generations. Guidelines ...
As wild environments are often inhospitable, many species have to be captive-bred to save them from ...
Captive breeding for species of conservation concern is the act of bringing rare or endangered anima...
How we should manage genetic diversity depends on why we want to manage it. The most generally usef...
Genetic diversity is essential for the long- and short-term survival of populations and individuals....
Conservation translocations have become an important management tool, particularly for large wildlif...
Insular populations are particularly vulnerable to the effects of stochastic events, epidemics, and ...
Using a combination of genetic and genomic tools, I have investigated how species traits influence p...
Animal and plant species around the world are being challenged by the deleterious effects of inbreed...
It is generally assumed that population supplementation will improve the genetic diversity of the re...
Carnivore ecologists globally have eagerly embraced the remarkable advances in field techniques (eg ...
As habitat loss, introduced predators, and disease epidemics threaten species worldwide, translocati...
Small isolated populations may face an increasing risk of extinction due to the loss of genetic dive...
Captive breeding for species of conservation concern is the act of bringing rare or endangered anima...
Captive breeding for species of conservation concern is the act of bringing rare or endangered anima...
Retention of genetic variation in populationos of endangered species is a pre-requisite for their fu...
As wild environments are often inhospitable, many species have to be captive-bred to save them from ...
Captive breeding for species of conservation concern is the act of bringing rare or endangered anima...
How we should manage genetic diversity depends on why we want to manage it. The most generally usef...
Genetic diversity is essential for the long- and short-term survival of populations and individuals....
Conservation translocations have become an important management tool, particularly for large wildlif...
Insular populations are particularly vulnerable to the effects of stochastic events, epidemics, and ...
Using a combination of genetic and genomic tools, I have investigated how species traits influence p...
Animal and plant species around the world are being challenged by the deleterious effects of inbreed...
It is generally assumed that population supplementation will improve the genetic diversity of the re...
Carnivore ecologists globally have eagerly embraced the remarkable advances in field techniques (eg ...
As habitat loss, introduced predators, and disease epidemics threaten species worldwide, translocati...
Small isolated populations may face an increasing risk of extinction due to the loss of genetic dive...
Captive breeding for species of conservation concern is the act of bringing rare or endangered anima...
Captive breeding for species of conservation concern is the act of bringing rare or endangered anima...
Retention of genetic variation in populationos of endangered species is a pre-requisite for their fu...
As wild environments are often inhospitable, many species have to be captive-bred to save them from ...
Captive breeding for species of conservation concern is the act of bringing rare or endangered anima...
How we should manage genetic diversity depends on why we want to manage it. The most generally usef...
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