Dear colleagues, We are pleased to announce the publication of the following article in Biological Conservation:
Parra, G.J., Cagnazzi, D., Jedensjö, M., Ackermann, C., Frere, C., Seddon, J., Nikolic, N., Krützen, M., 2018. Low genetic diversity, limited gene flow and widespread genetic bottleneck effects in a threatened dolphin species, the Australian humpback dolphin. Biological Conservation 220, 192-200. The paper is available online for free for the next 50 days (or you can get it anytime by contacting me) on the following link: https://authors.elsevier.com/a/1WbdM1R~e740L Abstract Numerous species of marine megafauna are at risk of extinction and understanding their genetic population structure and demographic history is essential for their conservation. We used mitochondrial DNA and 18 nuclear microsatellite loci, on the largest genetic dataset compiled to date on Australian humpback dolphins (eight sampling sites, 159 samples), to assess their genetic diversity, gene flow and past demographic history along the east coast of Queensland, Australia. Levels of genetic diversity were low (mtDNA: h = 0-0.52, π = 0-0.007; nDNA: Ho = 0.27–0.41; AR = 1.7–2.4). Both mitochondrial (ΦST = 0.49, P = 0.001) and nuclear markers (FST = 0.14, P = 0.001) showed strong genetic structure among sampling sites. Four putative populations were identified, with little contemporary gene flow (m = 0.017 to 0.047) among populations. Genetic divergence follows an isolation-by-distance model (r = 0.38, P = 0.0001), with an apparent restriction in gene flow occurring at scales of 382-509 km. Estimates of contemporary effective population size were low (Ne = 11.5-31.2), with signatures of genetic bottlenecks for all putative populations about 50-150 generations ago. The current low levels of genetic diversity, gene flow, and effective population size in Australian humpback dolphins indicate the effects of historical population bottlenecks and/or founder events during the late Holocene period (~ 1250-3750 years ago); probably associated with sea level fall and increased intensity of El Niño Southern Oscillation -climatic events. Our results raise important conservation concerns and emphasizes the vulnerability of Australian humpback dolphins to stochastic demographic, genetic and environmental processes. Conservation strategies should focus on promoting connectivity among local populations and reducing direct causes of human-related mortality. All the best, Guido J. Parra (on behalf of all authors) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Guido J. Parra, PhD Senior Lecturer | College of Science and Engineering Research leader | Cetacean Ecology, Behaviour and Evolution Lab (CEBEL) Staff: http://www.flinders.edu.au/people/guido.parra Lab: www.cebel.org.au<http://www.cebel.org.au/> Flinders University Sturt Road, Bedford Park 5042 SA, Adelaide GPO Box 2100 Adelaide, SA 5001 Australia Tel: +61 8 8201 3565|email: guido.pa...@flinders.edu.au<mailto:guido.pa...@flinders.edu.au> ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Please consider the environment before printing this email
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