02072nam 2200445 450 991071362250332120200709092448.0(CKB)5470000002503452(OCoLC)1164093060(EXLCZ)99547000000250345220200709d2019 ua 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierSimulation of groundwater flow and chloride transport in the 1,500-foot sand, 2,400-foot sand, and 2,800-foot sand of the Baton Rouge area, Louisiana /by Charles E. Heywood, Maxwell Lindaman, and John K. LovelaceReston, Virginia :U.S. Department of the Interior, U.S. Geological Survey,2019.1 online resource (ix, 49 pages) color illustrationsScientific Investigations report,2328-0328 ;2019-5102"Prepared in cooperation with the Capital Area Groundwater Conservation Commission; the Louisiana Department of Transportation and Development, Public Works and Water Resources Division; and the City of Baton Rouge and Parish of East Baton Rouge.Includes bibliographical references.Groundwater flowLouisianaComputer simulationGroundwaterLouisianaBaton RougeSaltwater encroachmentLouisianaBaton RougeGroundwater flowComputer simulation.GroundwaterSaltwater encroachmentHeywood Charles E.1409183Lovelace John K.Lindaman MaxwellGeological Survey (U.S.),Capital Area Ground Water Conservation Commission.Louisiana.Public Works and Water Resources Division.GPOGPOBOOK9910713622503321Simulation of groundwater flow and chloride transport in the 1,500-foot sand, 2,400-foot sand, and 2,800-foot sand of the Baton Rouge area, Louisiana3542251UNINA