Dead dolphins have been washing up in alarming numbers on mid-Atlantic beaches since July as scientists struggle to find a cause for the largest such die-off in a quarter-century.
More than 160 Atlantic bottlenose dolphins have turned up dead from New York to Virginia, says Charley Potter, a marine mammal collection manager at the Smithsonian Institution's National Museum of Natural History, tells NPR's Weekend Edition Saturday.
Potter, who is working with a rescue team from the Virginia Aquarium and Marine Science Center , tells host Scott Simon that the die-off involves "all age classes, both males and females" and that it "seems to have two centers of concentration – one in New Jersey and the other in Virginia."
While no definitive cause for the dolphin deaths has been determined, Potter says one possibility is the morbillivirus, a member of the same family of virus that causes measles and canine distemper.
Morbillivirus was pinpointed as a cause in a 1987 dolphin die-off that killed some 2,500 animals. Potter says it "has been found in some of the animals to date."
Scientists must now determine "whether or not the [morbillivirus] infection is something that's always been there and that we're picking it up because of increased surveillance, or in fact it's the smoking gun," he says.
Delmarvanow.com quotes Teri Rowles, National Marine Mammal Stranding coordinator with the National Oceanic and Atmospheric Administration, as saying the suspect virus is "at the top of our list to rule out."
Rowles tells the news website that the virus requires close contact to pass between dolphins, but that some of the marine mammals have antibodies that protect them.
According to Delmarvanow.com:
"There are four near-shore populations of dolphins from New York to North Carolina, said Lance Garrison, research biologist with NOAA Fisheries.
There is an estuarine North Carolina population that also moves north into Virginia, a southern migratory group off the coast of Virginia and a northern migratory group from Delaware to New York. In addition, there is a genetically distinct, offshore population, he said.
The northern group likely will likely begin migrating to the coast of North Carolina coast in October.
The southern group, which will also [begin] migrating in October, moves as far south as northern Florida, he said."