Population declines, genetic bottlenecks and potential hybridization in sea snakes on Australia's Timor Sea reefs

摘要

Population bottlenecks can result in loss of genetic variation, increased extinction risk, and hybridization with related sympatric species. Many challenges are associated with empirical detection of population declines, thus conservation biologists often use molecular approaches as surrogates. This study explored whether declines in abundances of viviparous sea snakes on Australia's Timor Sea reefs could have been foreshadowed using genetic surveys. Ashmore Reef (the largest Timor Sea reef) once hosted large breeding populations of sea snakes. Abundances have declined precipitously since 1994 and Ashmore Reef has been devoid of snakes since 2012. Moreover, high rates of hybridization between two sympatric species have been documented on Timor Sea reefs, possibly associated with sea snake declines. I analysed mitochondrial DNA and 11 nuclear microsatellites for >250 sea snakes from three species,Aipysurus laevis,Aipysurus fuscusandEmdocephalus annulatus, sampled on four Timor Sea reefs in 2002 and 2010. While there was strong spatial genetic structure among reefs, there was little temporal genetic divergence forA. laevisat Ashmore Reef, despite the massive declines in abundance during that temporal window. Positive Tajima's D and Fu's FSvalues at Ashmore Reef indicated demographic contraction for:A. laevisin 2002 and 2010;E. annulatus(2002); but notA. fuscus(2002). Microsatellites showed inbreeding depression (positiveFisvalues) and non-random mating (heterozygote deficit) for all three species at Ashmore Reef, consistent with population declines. Bottleneck tests were equivocal, with significant heterozygous excesses at Ashmore Reef, but non-significant M-ratios or mode-shifts in allele frequencies, with the significance of tests differing markedly with microsatellite mutation models. Thus genetic analyses alone would not have been sufficient to provide managers with unequivocal evidence of population declines. There was little evidence for hybridization betweenA. laevisandA. fuscus, despite previous research suggesting that the EndangeredA. fuscuswas at risk of reverse speciation secondary to the highly porous reproductive barriers between these species.