TY - CHAP
T1 - Genomics and Conservation Translocations
AU - Neaves, Linda E.
AU - Ogden, Rob
AU - Hollingsworth, Peter M.
N1 - Publisher Copyright:
© Cambridge University Press.
PY - 2022
Y1 - 2022
N2 - Advances in genomic science are providing high-resolution insights into the diversity of species and populations, and increased understanding of how they function and interact. The application of genomic data to conservation translocations is now widespread, with many examples of genomic data being used to guide the implementation of translocations, ranging from selection of donor individuals/populations, understanding the dynamics of inter-specific interactions, and the design and monitoring of population reinforcements to achieve genetic and/or evolutionary rescue. The rapidly accelerating generation of genomic data from the world’s species will lead to further major advances in understanding biodiversity at the genomic level, with associated benefits for translocation management and monitoring. However, genomic data and genomic technologies are not a panacea, and despite the power of the approaches, uncertainties can remain in data interpretation and translation into practical management actions. As the science at the interface of genomics and conservation translocations continues to develop, there is a pressing need to focus continually on translating data to support practical decision-making and, at least in the short term, to develop further guidance and thinking that allows extrapolation from well-resourced studies with extensive genomic data to guide actions and decisions in translocations where generating genomic data is not yet feasible. As genetic/genomic technologies enable greater technological interventions for conservation translocations, the need to extend multi-stakeholder dialogue will continue and grow; this ranges from promoting informed dialogue between geneticists and conservationists to ensure effective deployment of approaches and resources, to wider societal engagement in setting the agenda for if, when, and how approaches involving genetic modification should be deployed.
AB - Advances in genomic science are providing high-resolution insights into the diversity of species and populations, and increased understanding of how they function and interact. The application of genomic data to conservation translocations is now widespread, with many examples of genomic data being used to guide the implementation of translocations, ranging from selection of donor individuals/populations, understanding the dynamics of inter-specific interactions, and the design and monitoring of population reinforcements to achieve genetic and/or evolutionary rescue. The rapidly accelerating generation of genomic data from the world’s species will lead to further major advances in understanding biodiversity at the genomic level, with associated benefits for translocation management and monitoring. However, genomic data and genomic technologies are not a panacea, and despite the power of the approaches, uncertainties can remain in data interpretation and translation into practical management actions. As the science at the interface of genomics and conservation translocations continues to develop, there is a pressing need to focus continually on translating data to support practical decision-making and, at least in the short term, to develop further guidance and thinking that allows extrapolation from well-resourced studies with extensive genomic data to guide actions and decisions in translocations where generating genomic data is not yet feasible. As genetic/genomic technologies enable greater technological interventions for conservation translocations, the need to extend multi-stakeholder dialogue will continue and grow; this ranges from promoting informed dialogue between geneticists and conservationists to ensure effective deployment of approaches and resources, to wider societal engagement in setting the agenda for if, when, and how approaches involving genetic modification should be deployed.
KW - Adaptation
KW - Conservation genetics
KW - Conservation genomics
KW - Evolutionary rescue
KW - Genetic monitoring
KW - Genetic rescue
KW - Inbreeding depression
KW - Outbreeding depression
UR - http://www.scopus.com/inward/record.url?scp=85172363504&partnerID=8YFLogxK
U2 - 10.1017/9781108638142.013
DO - 10.1017/9781108638142.013
M3 - Chapter
AN - SCOPUS:85172363504
SN - 9781108494465
SP - 271
EP - 302
BT - Conservation Translocations
A2 - Gaywood, Martin J.
A2 - Ewen, John G.
A2 - Hollingsworth, Peter M.
A2 - Moehrenschlager, Axel
PB - Cambridge University Press
ER -