# Perivitelline Membrane‐Bound Sperm as a Source of Paternal Genomic DNA to Inform Breeding Male Marine Turtle Genetics and Demographics

**Authors:** Brian M. Shamblin, Cheryl L. Sanchez, Sean M. Perry, Simona A. Ceriani

PMC · DOI: 10.1002/ece3.73115 · 2026-02-15

## TL;DR

A new method uses sperm in egg membranes to study male marine turtle genetics, helping track breeding patterns and population health.

## Contribution

Genotyping sperm in perivitelline membranes allows scalable assessment of male marine turtle genetics and breeding demographics.

## Key findings

- PVM genotyping accurately identified 38 loggerhead and 29 green turtle sires with high concordance.
- The method detected most sires contributing ≤11% of offspring, comparable to sampling 20 hatchlings per nest.
- PVM genotyping is non-invasive to females and hatchlings and enables long-term monitoring of key demographic metrics.

## Abstract

Sex in marine turtles is determined by incubation conditions, raising concerns of population feminization and loss of genetic diversity due to warming temperatures. Demographic data on breeding males are limited due to their relative inaccessibility. Hatchling sampling can inform multiple paternity (MP) and breeding sex ratios (BSR) but is logistically intensive, limiting the number of nests and populations analyzed. Here, we present a novel approach to characterize successfully breeding males by genotyping sperm trapped in the perivitelline membrane (PVM) surrounding the yolk of a single egg per clutch. We compared maternal genotypes via eggshells with PVM extract genotypes from 27 loggerhead turtle (
Caretta caretta
) eggs and 13 green turtle (
Chelonia mydas
) eggs from Melbourne Beach, Florida, USA, at 16 and 13 microsatellite loci, respectively. Sampled offspring genotypes (620 loggerhead and 1117 green turtle) provided ground‐truthing of PVM sperm allele detections. Paternity analyses resolved 38 loggerhead and 29 green turtle sires, all but two of which were correctly inferred via PVM allele calls. All paternal alleles representing single paternity clutches and primary contributors of multiply sired clutches were detected in the PVM genotypes except in one case of maternal DNA swamping of the PVM. Seven of eight sires that contributed ≤ 11% of offspring were detected via PVM genotyping, comparable to inferences based on sampling 20 hatchlings per nest. PVM‐inferred paternal genotypes from single‐paternity clutches were > 99% concordant with reconstructed sire genotypes in both species. Although destructive to a single egg per clutch, this method is non‐invasive to nesting females and hatchlings. Its scalability across space and time enables long‐term monitoring of MP and BSR, key demographic metrics for assessing population viability under climate change. Male genotypes generated from the PVM in single paternity nests may also inform population assignment, assessments of genetic connectivity, and relatedness analyses.

Breeding male marine turtles are poorly characterized due to their inaccessibility. Here, we demonstrate that genotyping sperm trapped in the perivitelline membrane of a single egg permits assessment of multiple paternity and direct paternal genotyping in singly sired clutches. This approach is scalable spatially and temporally and should facilitate estimation of breeding sex ratios and male demographic parameters.

## Linked entities

- **Species:** Caretta caretta (taxon 8467), Chelonia mydas (taxon 8469)

## Full-text entities

- **Species:** Caretta caretta (loggerhead, species) [taxon 8467], Chelonia mydas (green seaturtle, species) [taxon 8469]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12907579/full.md

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Source: https://tomesphere.com/paper/PMC12907579