The researchers turned to bomb radiocarbon dating, which establishes an age based on levels of isotopes associated with thermonuclear testing from the mid-20th century. The team applied the technique to cross sections from 14 mature hawksbill shells provided by museums and archives, as well as law enforcement agencies that had confiscated them from traffickers. As the turtles grew, those isotopes left deposits in the shells’ thick keratin, the same stuff our fingernails are made of. The deposits not only revealed each turtle’s life span, but a chemical analysis also shed light on changes in the animal’s diet that reflect increasing habitat pressures.
Next, researchers will apply the technique to hawskbill populations outside of Hawaii. They’re also conducting a deeper analysis of the hawskbill’s diet in Hawaii, to help guide conservation efforts of their forage and habitat.