Population genomics through time provides insights into the consequences of decline and rapid demographic recovery through head‐starting in a Galapagos giant tortoise

Jensen, Evelyn L.; Edwards, Danielle L.; Garrick, Ryan C.; Miller, Joshua M.; Gibbs, James P.; Cayot, Linda J.; Tapia, Washington; Caccone, Adalgisa; Russello, Michael A.

doi:10.1111/eva.12682

Cited by 31 publications

(18 citation statements)

References 70 publications

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“…Jensen et al. (2018) compared variation at >2,000 SNPs in Pinzón giant tortoise ( Chelonoidis duncanensis ) samples from a single island in the Galápagos Island from before and after a bottleneck that reduced N e to just 150–200 in the mid‐20th century. They found that the extent and distribution of genetic variation in the historical and contemporary samples was very similar, which they attributed to a successful ex situ head‐start and release programme.…”

Section: Understanding Wildlife Populationsmentioning

confidence: 99%

Population genomics for wildlife conservation and management

2020

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As increasing attention is focused on global change and loss of biodiversity (IPBES, 2019), it is critical to understand the changes and challenges that wildlife populations face and use the tools now available for management and conservation of wildlife species. Central issues in wildlife conservation include identifying populations and units for conservation, assessing population size and connectivity, detecting hybridization, assessing the potential of populations to persist and adapt to environmental change, and understanding the factors that affect this potential. Genetic information can inform all of these issues and provide critical information for designing management strategies to address them. The genomics revolution has democratized the field of population genomics, allowing highthroughput sequencing to be applied in nearly any organism, including natural populations of rare or difficult-to-study species (Supple &

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Section: Understanding Wildlife Populationsmentioning

confidence: 99%

Population genomics for wildlife conservation and management

2020

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“…These challenges are not unique to Blanding's turtles. Head‐starting has been used extensively to augment existing populations and re‐establish extirpated populations of turtles more generally (Burke and citations therein, Caillouet et al , Peñaloza et al , Shaver and Caillouet , Tuberville et al , Jensen et al ). Although outcomes have been less widely monitored and reported than desirable (Burke ), case studies demonstrating growth and survival of head‐starts (Vander Haegen et al , Masin et al , Michell and Michell , Tuberville et al , Quinn et al ), recruitment of reproductive adults (Vander Haegen et al , Masin et al , Shaver and Caillouet ), and shifts in size distribution (Peñaloza et al ) similar to what we report for Blanding's turtles are accumulating.…”

Section: Management Implicationsmentioning

confidence: 99%

“…Although outcomes have been less widely monitored and reported than desirable (Burke ), case studies demonstrating growth and survival of head‐starts (Vander Haegen et al , Masin et al , Michell and Michell , Tuberville et al , Quinn et al ), recruitment of reproductive adults (Vander Haegen et al , Masin et al , Shaver and Caillouet ), and shifts in size distribution (Peñaloza et al ) similar to what we report for Blanding's turtles are accumulating. Future refinements to the use of head‐starting will benefit from studies of phenotypic effects of head‐starting (Geist et al ), disease status of head‐starts (Smith ), behavior following release (Hazard et al ), and genetic consequences of head‐starting (Dresser et al , Jensen et al ). A larger, more challenging goal will be to determine whether head‐starting can be used as a conservation tactic carried out over a modest time frame (e.g., while threat mitigation is implemented, Vander Haegen et al ) or is a necessary long‐term strategy to ensure persistence of a conservation‐reliant species (Scott et al ).…”

Section: Management Implicationsmentioning

confidence: 99%

Benefits of Head‐starting for Blanding's Turtle Size Distributions and Recruitment

et al. 2020

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Head‐starting is a widely used turtle conservation measure but its effectiveness is incompletely known. We evaluated the success of 2 long‐term Blanding's turtle (Emydoidea blandingii) head‐starting programs in northeastern Illinois, USA, focusing on the effect that head‐starting has on turtle population body‐size distributions and whether head‐started turtles are successfully recruited as reproductive adults. From 1994 to 2017, we collected and incubated eggs from wild females and reared hatchlings for release back into 2 source populations in DuPage and Lake counties, Illinois. Releases occurred annually for 21‐ and 11‐year spans (~1,400 and 800 releases, respectively). We found that head‐starting resulted in significant shifts in Blanding's turtle population body‐size distributions. Prior to intervention, size distributions were strongly skewed toward large adults at both sites, a pattern sometimes interpreted as arising from elevated egg and hatchling mortality and a lack of juvenile recruitment. Currently, population body‐size distributions include a wide range of juvenile and adult size turtles. Importantly, head‐starts have begun reproducing in the 21‐year program and are approaching adult size in the 11‐year program. Blanding's turtle head‐starting shows promise for increasing recruitment in existing populations while threat mitigation is implemented. © 2020 The Wildlife Society.

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“…Moreover, the publication of the Galapagos giant tortoise genome [426] and recent/on-going population genomic studies have enabled new and exciting opportunities to enhance society’s understanding of speciation within and among the islands. This includes a new understanding of the relative importance of introgression and fusion events in species formation and persistence, and the study of the genomic architecture of traits associated with their ecological and morphological diversification [427,428,429,430].…”

Section: Case Studiesmentioning

confidence: 99%

Patterns, Mechanisms and Genetics of Speciation in Reptiles and Amphibians

Valero

Marshall

Bastiaans

et al. 2019

Genes

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In this contribution, the aspects of reptile and amphibian speciation that emerged from research performed over the past decade are reviewed. First, this study assesses how patterns and processes of speciation depend on knowing the taxonomy of the group in question, and discuss how integrative taxonomy has contributed to speciation research in these groups. This study then reviews the research on different aspects of speciation in reptiles and amphibians, including biogeography and climatic niches, ecological speciation, the relationship between speciation rates and phenotypic traits, and genetics and genomics. Further, several case studies of speciation in reptiles and amphibians that exemplify many of these themes are discussed. These include studies of integrative taxonomy and biogeography in South American lizards, ecological speciation in European salamanders, speciation and phenotypic evolution in frogs and lizards. The final case study combines genomics and biogeography in tortoises. The field of amphibian and reptile speciation research has steadily moved forward from the assessment of geographic and ecological aspects, to incorporating other dimensions of speciation, such as genetic mechanisms and evolutionary forces. A higher degree of integration among all these dimensions emerges as a goal for future research.

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Population genomics through time provides insights into the consequences of decline and rapid demographic recovery through head‐starting in a Galapagos giant tortoise

Cited by 31 publications

References 70 publications

Population genomics for wildlife conservation and management

Population genomics for wildlife conservation and management

Benefits of Head‐starting for Blanding's Turtle Size Distributions and Recruitment

Patterns, Mechanisms and Genetics of Speciation in Reptiles and Amphibians

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