Jessica Martin Judson scite author profile

Maintaining the existing biodiversity of endangered species is a goal of conservation management programs, and a major component of many collaborative efforts undertaken by zoos, field biologists, and conservation scientists. Over the past 3 decades, the San Diego Zoo has performed long-term genetic studies in support of the recovery program for the critically endangered California Condor (Gymnogyps californianus). This work has included sex determination of hatchlings and parentage confirmation using microsatellite genotyping. This paper describes the genetic work associated with the California Condor recovery program, which aims to provide a highly accurate pedigree for making informed captive pairing and release recommendations. Initial genotyping began after reintroduced California Condors started reproducing, and the focus was on birds hatched from their wild-laid eggs. However, genetic analysis showed discrepancies relative to behavioral observations of wild birds and led to the species-wide testing of all available samples. This genetic study has resolved instances of individual misidentifications and parental misassignments, verified the first cases of extra-pair paternity in this species, identified parentage where chicks were observed being raised by trios, and found 2 apparent de novo mutations in the captive condor population. Correcting the California Condor pedigree according to genetic parental analysis has produced more accurate estimates of mean kinship values among living birds, ranking potential breeders according to their actual breeding value and helping managers to make informed decisions about captive pairing and release of condors in the wild.

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Age‐dependent, negative heterozygosity–fitness correlations and local effects in an endangered Caribbean reptile, Iguana delicatissima

Judson

Knapp

Welch

2018

Ecology and Evolution

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Inbreeding depression can have alarming impacts on threatened species with small population sizes. Assessing inbreeding has therefore become an important focus of conservation research. In this study, heterozygosity–fitness correlations (HFCs) were measured by genotyping 7 loci in 83 adult and 184 hatchling Lesser Antillean Iguanas, Iguana delicatissima, at a communal nesting site in Dominica to assess the role of inbreeding depression on hatchling fitness and recruitment to the adult population in this endangered species. We found insignificant correlations between multilocus heterozygosity and multiple fitness proxies in hatchlings and adults. Further, multilocus heterozygosity did not differ significantly between hatchlings and adults, which suggests that the survivorship of homozygous hatchlings does not differ markedly from that of their heterozygous counterparts. However, genotypes at two individual loci were correlated with hatching date, a finding consistent with the linkage between specific marker loci and segregating deleterious recessive alleles. These results provide only modest evidence that inbreeding depression influences the population dynamics of I. delicatissima on Dominica.

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Genetic rescue remains underused for aiding recovery of federally listed vertebrates in the United States

Fitzpatrick

Mittan-Moreau

Miller

et al. 2023

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Restoring gene flow among fragmented populations is discussed as a potentially powerful management strategy that could reduce inbreeding depression and cause genetic rescue. Yet, examples of assisted migration for genetic rescue remain sparse in conservation, prompting several outspoken calls for its increased use in genetic management of fragmented populations. We set out to evaluate the extent to which this strategy is underused and to determine how many imperiled species would realistically stand to benefit from genetic rescue, focusing on federally threatened or endangered vertebrate species in the United States. We developed a “genetic rescue suitability index (GR index)” based on concerns about small population problems relative to risks associated with outbreeding depression and surveyed the literature for 222 species. We found that two-thirds of these species were good candidates for consideration of assisted migration for the purpose of genetic rescue according to our suitability index. Good candidate species spanned all taxonomic groups and geographic regions, though species with more missing data tended to score lower on the suitability index. While we do not recommend a prescriptive interpretation of our GR index, we used it here to establish that assisted migration for genetic rescue is an underused strategy. For example, we found in total, “genetic rescue” was only mentioned in 11 recovery plans and has only been implemented in 3 of the species we surveyed. A potential way forward for implementation of this strategy is incorporating genetic rescue as a priority in USFWS recovery documentation. In general, our results suggest that although not appropriate for all imperiled species, many more species stand to benefit from a conservation strategy of assisted migration for genetic rescue than those for which it has previously been considered or implemented.

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Immunosenescence and its influence on reproduction in a long-lived vertebrate

Judson

Reding

Bronikowski

2020

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Immunosenescence is a well-known phenomenon in mammal systems, but its relevance in other long-lived vertebrates is less understood. Further, the influence of age and reproductive effort on immune function in long-lived species can be challenging to assess, as long-term data are scarce and it is often difficult to sample the oldest age classes. We used the painted turtle (Chrysemys picta) to test hypotheses of immunosenescence and a trade-off between reproductive output and immune function in a population of a long-lived vertebrate that has been monitored for over 30 years. These long-term data are utilized to employ a unique approach of aging turtles with mark-recapture data and population-specific growth modeling to obtain more accurate estimates of age. We analyzed natural antibodies, lysis ability, and bactericidal competence in 126 individuals from 1 to 33 years of age captured during May and June in 2011. Older turtles exhibited greater natural antibody levels than young individuals across sexes. Young females with large clutches exhibited greater lysis ability, while older females with large clutches had decreased lysis ability, suggesting a trade-off between reproductive output and immune function conditional upon age. However, bactericidal competence increased later in the nesting season for older females. Our study rejects the hypothesis of immunosenescence in a long-lived turtle, despite evidence of actuarial and reproductive senescence in this population. Additionally, we detected mixed evidence for a trade-off between reproduction and immune health.

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