Multidecadal declines in particulate mercury and sediment export from Russian rivers in the pan-Arctic basin.
Scott ZolkosAlexander V ZhulidovTatiana Yu GurtovayaVyacheslav V GordeevSergey BerdnikovNadezhda PavlovaEvgenia A KalkoYana A KuklinaDanil A ZhulidovLyudmila S KosmenkoAlexander I ShiklomanovAnya SuslovaBenjamin M GeymanColin P ThackrayElsie M SunderlandSuzanne E TankJames W McClellandRobert G M SpencerDavid P KrabbenhoftRichard RobartsRobert M HolmesPublished in: Proceedings of the National Academy of Sciences of the United States of America (2022)
SignificanceRussian rivers are the predominant source of riverine mercury to the Arctic Ocean, where methylmercury biomagnifies to high levels in food webs. Pollution controls are thought to have decreased late-20th-century mercury loading to Arctic watersheds, but there are no published long-term observations on mercury in Russian rivers. Here, we present a unique hydrochemistry dataset to determine trends in Russian river particulate mercury concentrations and fluxes in recent decades. Using hydrologic and mercury deposition modeling together with multivariate time series analysis, we determine that 70 to 90% declines in particulate mercury fluxes were driven by pollution reductions and sedimentation in reservoirs. Results suggest that Russian rivers likely dominated over all other sources of mercury to the Arctic Ocean until recently.