"While the movement of whales from one ocean to another has always been a possibility, it's quite difficult to track in the wild," said WCS researcher Dr. Cristina Pomilla, lead author of the study. "This study demonstrates the ability of molecular technologies to confirm the movements of an individual whale between ocean basins."
The study examined DNA samples extracted from skin biopsies collected from whales in the wintering grounds of both the Indian and South Atlantic Oceans for evidence of inter-oceanic exchange of individuals. Using a method of genetic capture-recapture of genotypes constructed of microsatellite markers, the researchers identified an individual whale sampled in Gabonese waters in 2002 that had been first seen (and sampled) with its mother in Madagascar waters in 2000. Pomilla and her colleague, Dr. Howard Rosenbaum of WCS and AMNH, suspect that the whale could have been a three- to four-year old juvenile at the time of the second encounter with researchers.
The only other documentation of individual humpback whales moving from one ocean basin to another dates back to when the species still was hunted commercially. Two whales that were marked off western Australia (in the Indian Ocean basin) were later killed off the coast of eastern Australian, in the Pacific Ocean.
The identification of individual whales moving between ocean basins will help inform a number of conservation activities relating to humpback whales, including how these populations are defined, studied and managed. Humpback whales were hunted commercially until the International Whaling Commission protected the species globally in 1966.
"These findings will help us improve our understanding of how populations of whales are connected, both genetically and even culturally, in the form of the haunting songs that this species is well-known for," added Rosenbaum. "In particular, inter-oceanic migration data will help us to better evaluate the current international management procedures for humpback whales."