Emily L. Zierdt Smith Janet K. Thompson Francis Parchaso 2021 <html><body><p class="p1">Benthic samples were collected from the Sacramento–San Joaquin Delta of northern California to examine the effect of the changing hydrologic flow on the bivalves <i>Potamocorbula </i>and <i>Corbicula </i>before, during, and after the False River Barrier (hereafter, barrier) was in operation (May–November 2015). <i>Potamocorbula </i>moved upstream in the Sacramento River as the salinity intruded. Given the lower electrical conductivity of the San Joaquin River, <i>Potamocorbula </i>did not move as far upriver as it did in the Sacramento River. <i>Potamocorbula </i>recruits settled in the Sacramento and False Rivers, whereas <i>Corbicula </i>recruits were mostly found in the San Joaquin River. When the grazing rates for the two bivalves were combined, new populations of <i>Potamocorbula </i>plus existing <i>Corbicula </i>likely reduced the net growth rate of the phytoplankton in and just upstream from the Sacramento and San Joaquin River confluence region when the barrier was in place. Prior to the barrier installation, a very dry period assumably aided the success of <i>Potamocorbula </i>in the confluence region; nonetheless, they also responded to the increasing salinity in the Sacramento River and their population spatially expanded. <i>Potamocorbula’s </i>upriver incursion was stopped owing to the return of freshwater flow due to the removal of the barrier, but the adults of the species were still present at the upstream end of Decker Island in January 2016. <i>Corbicula </i>adults did not seem to respond to the increased salinity caused by the barrier and maintained their biomass at all locations compared to what was recorded before the barrier.</p></body></html> application/pdf 10.3133/ofr20211088 en U.S. Geological Survey Effect of the emergency drought barrier on the distribution, biomass, and grazing rate of the bivalves Corbicula fluminea and Potamocorbula amurensis, False River, California reports