How many fathers? Study design implications when inferring multiple paternity in crocodilians

Isberg, Sally R.

doi:10.1002/ece3.9379

Ecology and Evolution

2022

DOI: 10.1002/ece3.9379

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How many fathers? Study design implications when inferring multiple paternity in crocodilians

Sally R. Isberg¹

Abstract: Up to 10 males were reported to sire clutches of crocodilian eggs but review of the underlying study designs raised questions of potential upward bias of inferred sire numbers. To test this premise, different scenarios were explored using a published dataset of 16 known single‐sire saltwater crocodile pairs and their offspring which were originally confirmed using a 11 loci microsatellite panel in CERVUS. Varying the number of microsatellites, omitting one or both parental genotypes and using different parenta… Show more

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2024

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Cited by 3 publications

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Potential drivers and implications of a balanced breeding sex ratio in a small population of an imperiled species with environmental sex determination

Silver‐Gorges,

Shamblin,

Ashford

et al. 2024

Ecology and Evolution

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Small populations of imperiled species are susceptible to the negative consequences of skewed sex‐ratios. In imperiled species with environmental sex determination such as sea turtles, examining sex ratios across a range of environments and population abundance levels can provide insight into factors that influence population resilience, which can then be the foci of management plans for these species. Breeding sex ratios (the ratio of actively breeding males to females during a reproductive season; BSRs) extrapolated from genetic parentage analyses are a common approach for enumerating sex ratios in sea turtles. Such analyses also allow for the characterization of multiple paternity within sea turtle clutches, which should reflect BSRs and breeding behaviors. We characterized the first BSR for a breeding assemblage of loggerhead sea turtles (Caretta caretta) belonging to the temperate, low‐abundance Northern Gulf of Mexico Recovery Unit using genotypes of 16 microsatellite loci from nesting females and hatchlings. Unlike prior studies at both more‐tropical and more‐temperate, and higher‐abundance, Recovery Units in this region, we found a balanced BSR of 1.3:1 males:female and a low incidence (~17%) of multiple paternity. This suggests that there are relatively few males breeding at this assemblage and within this Recovery Unit. Beaches in this region are expected to produce substantial numbers of male hatchlings based on sand temperature data. The relative dearth of mature males may then be due to hydrologic disturbances that disproportionately affect the fitness and survival of male hatchlings, or due to demographic stochasticity. More work is needed to study the factors that might influence male hatchling production and fitness in this region, particularly as climate change is predicted to lead to feminization in global sea turtle populations. Our work demonstrates the broad utility of characterizing BSRs and other sex ratios across a range of populations in imperiled, environmentally sensitive species.

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Potential drivers and implications of a balanced breeding sex ratio in a small population of an imperiled species with environmental sex determination

Silver‐Gorges,

Shamblin,

Ashford

et al. 2024

Ecology and Evolution

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Population genetics of gharial Gavialis gangeticus in the Chambal River, India, using novel polymorphic microsatellite markers

Singh,

AjjiM,

Lang

et al. 2024

Endang. Species. Res.

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The gharial Gavialis gangeticus is a Critically Endangered crocodylian endemic to the Indian subcontinent. The species has experienced a 95% population decline over the past 2 centuries. The largest self-sustaining population inhabits the protected National Chambal Sanctuary (NCS) in north India and represents >80% of extant gharials globally. We developed de novo a panel of polymorphic gharial-specific microsatellites, using whole genome information and microsatellite search tools. These 15 new markers have multiple numbers of polymorphic alleles that are more informative than those obtained from previous studies. Analyses of 93 scute samples collected across age classes from wild gharials residing in the NCS facilitated accurate assessments of genetic diversity and inbreeding coefficient and identified a historical bottleneck event. Estimates of the observed and expected heterozygosities were lower than those reported earlier. The inbreeding coefficient was low, and the population did not deviate significantly from Hardy-Weinberg equilibrium. The calculated M ratio and 2 heterozygosity tests detected a genetic bottleneck, which is consistent with historic sharp declines in population size, followed by recent recovery. These new gharial microsatellite markers are statistically robust and provide an improved means to assess the population genetics of the largest self-sustaining wild gharial population. This study will facilitate additional investigations on the genetic diversity of other extant gharial populations—not only the few remaining wild populations but also those in zoos and rearing facilities. Additional genetic studies of gharial in the NCS are warranted to inform management strategies.

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Small differences between primary and breeding sex ratios at the largest loggerhead turtle rookery in the North Pacific

Hatase,

Watanabe,

Kobayashi

2024

Mar. Ecol. Prog. Ser.

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Elucidating how sex ratios change as a cohort ages may aid with understanding the relative recruitment of male and female adults to a population. In sea turtles, sex is determined by incubation temperature, with males and females produced at low and high temperatures, respectively. At rookeries exposed to high incubation temperatures, the primary sex ratios are thus skewed toward females. However, because very high incubation temperatures also negatively affect the survival-related traits of female hatchlings, the female bias may be mitigated as the cohort matures and the adult sex ratio may be more male-biased than primary sex ratios. Here, we examined whether the sex ratio changes from hatchlings to breeding adults at Yakushima Island, Japan, the largest loggerhead turtle Caretta caretta rookery in the North Pacific, which is not exposed to high incubation temperatures. The mean (±SD) primary sex ratio (% female) during 1975-2022, estimated from incubation durations linked to sand temperatures, was 24.7 ± 13.6%. Based on genotype data at 3 microsatellite loci from 26 females and their 291 offspring sampled in 2020 and 2021, we detected multiple paternity in 5 clutches (19.2%) and estimated 34 unique sires, which provided a breeding sex ratio (% female) of 43.3%. Small differences between primary and breeding sex ratios suggest similar survival rates for male and female offspring. This rookery is unusual in that it has male-biased hatchling production, whereas most sea turtle rookeries have female-biased hatchling production. The Yakushima rookery is likely resilient to climate warming.

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How many fathers? Study design implications when inferring multiple paternity in crocodilians

Cited by 3 publications

References 47 publications

Potential drivers and implications of a balanced breeding sex ratio in a small population of an imperiled species with environmental sex determination

Potential drivers and implications of a balanced breeding sex ratio in a small population of an imperiled species with environmental sex determination

Population genetics of gharial Gavialis gangeticus in the Chambal River, India, using novel polymorphic microsatellite markers

Small differences between primary and breeding sex ratios at the largest loggerhead turtle rookery in the North Pacific

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