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Mating system, multiple paternity and effective population size in the endemic flatback turtle (Natator depressus) in Australia

journal contribution
posted on 2017-12-06, 00:00 authored by K Theissinger, C Limpus, Clifford Parmenter, Andrea Phillott, N Fitzsimmons
In recent years, genetic studies have been used to investigate mating systems of marine turtles, but to date no such research has been conducted on the flatback turtle (Natator depressus). This study investigates paternity of flatback turtle clutches at two rookeries in Queensland, Australia; Peak Island (Keppel Bay), and Mon Repos (Bundaberg). In the 2004–2005 nesting season, tissue samples were taken from either single or multiple clutches (n = 16) of nesting females (n = 8) representing a sampling effort ranging from 25% to 50% offspring per nest.Determination of the extent of multiple paternity was done using a comparative approach that included initial inferences based on observed alleles, Chi-square tests for deviations from Mendelian expectations, and three software programs (PARENTAGE1.0, GERUD2.0 and MER3.0). Results varied depending on the approach, but by calculating a consensus value of the output from these different methods, the null hypothesis of single paternity could be rejected in at least 11 of the 16 clutches (69%).Multiple paternity was thus observed in the clutches of six of nine females (67%), with two or three fathers being the most likely outcome. Analyses of successive clutches illustrated that paternal contribution to clutch fertilization can vary through time, as observed for two females. This first evidence regarding the mating system of flatbackturtles indicates that multiple paternity is common in this species and that the observed frequency of multiple paternity is among the higher values reported in marine turtle species Application of these results to estimates of effective population size (Ne) suggests that population size may have been relatively stable over long periods. Continued monitoring of population dynamics is recommended to ensure that future changes in the east coast can be detected.

Funding

Category 1 - Australian Competitive Grants (this includes ARC, NHMRC)

History

Volume

10

Issue

2

Start Page

329

End Page

346

Number of Pages

18

eISSN

1572-9737

ISSN

1566-0621

Location

Netherlands

Publisher

Springer

Language

en-aus

Peer Reviewed

  • Yes

Open Access

  • No

External Author Affiliations

Environment Protection Agency; Faculty of Sciences, Engineering and Health; James Cook University; Johannes Gutenberg-Universität; Not affiliated to a Research Institute; University of Canberra;

Era Eligible

  • Yes

Journal

Conservation genetics.

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