Multiple management units of short-beaked common dolphins subject to fisheries bycatch off southern and southeastern Australia

Abstract

Worldwide, fisheries bycatch remains one of the greatest immediate threats to cetacean populations. In Australia, short-beaked common dolphins are subject to bycatch mortal- ity in 2 fisheries: the purse-seine fishery for sardines off central South Australia and the gillnet fishery for gummy sharks off southern Australia. The cumulative impact of bycatch from both fish- eries on the dolphin population(s) in these regions are unknown. We used information from microsatellite markers and mitochondrial DNA to investigate population genetic structure and estimate contemporary migration rates in 332 biopsied and 15 stranded samples of common dol- phins. Samples were collected from 11 locations along ~3500 km of coastline in southern and southeastern Australia. Bayesian and traditional analyses of population genetic structure revealed the presence of at least 6 management units of common dolphins, of which a minimum of 3 are potentially impacted by the 2 fisheries. These management units need to be managed separately for conservation purposes and for monitoring and mitigation of common dolphin fishery inter - actions off southern and southeastern Australia. We suggest that substructuring and migra - tory movements of common dolphins across these regions may be driven by spatial variations in oceanography, upwelling events and/or fish distribution. This study exemplifies how infor - mation on genetic substructuring in a neritic top predator can be valuable for fisheries bycatch management.