Hydrogeochemical interaction between a wetland and an unconfined glacial drift aquifer, southwestern Michigan

In the glacial topography of southwestern Michigan, the water table does not always conform exactly to the land surface and flow-through wetlands, those with both ground water recharge and discharge, are common. The W-1 wetland in Cass County, Michigan, a flow-through system, shows a distinct contra...

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Bibliographic Details
Published in:Ground water 1998-09, Vol.36 (5), p.849-856
Main Authors: Kehew, A.E. (Western Michigan University, Kalamazoo, MI.), Passero, R.N, Krishnamurthy, R.V, Lovett, C.K, Betts, M.A, Dayharsh, B.A
Format: Article
Language:English
Subjects:
ABONOS NITROGENADOS
AGUA SUPERFICIAL
AMMONIUM COMPOUNDS
AMMONIUM NITROGEN
ANION
ANIONES
ANIONS
APPLICATION METHODS
AZOTE
CALIDAD DEL AGUA
CAPA FREATICA
CATION
CATIONES
CATIONS
CERDO
COMPOSE DE L'AMMONIUM
COMPOSE ORGANIQUE
COMPUESTOS DE AMONIO
COMPUESTOS ORGANICOS
DISCHARGE
DISSOLVED ORGANIC CARBON
EAU SUPERFICIELLE
ENGRAIS AZOTE
ESTIERCOL
FARMYARD MANURE
FER
FUMIER
GROUNDWATER POLLUTION
GROUNDWATER RECHARGE
GROUNDWATER TABLE
HIERRO
IRON
METHODE D'APPLICATION
METODOS DE APLICACION
MICHIGAN
NAPPE SOUTERRAINE
NITRATE
NITRATES
NITRATOS
NITROGEN
NITROGEN FERTILIZERS
NITROGENO
ORGANIC COMPOUNDS
OXIGENO
OXYGEN
OXYGENE
POLLUTION DE L'EAU SOUTERRAINE
POLUCION DE AGUAS SUBTERRANEAS
PORCIN
QUALITE DE L'EAU
RECARGA DE AGUAS SUBTERRANEAS
RECHARGE DE LA NAPPE
SURFACE WATER
SWINE
TERRE HUMIDE
TIERRAS HUMEDAS
USA, Michigan, Cass Cty
WATER QUALITY
WETLANDS
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Summary:In the glacial topography of southwestern Michigan, the water table does not always conform exactly to the land surface and flow-through wetlands, those with both ground water recharge and discharge, are common. The W-1 wetland in Cass County, Michigan, a flow-through system, shows a distinct contrast between upgradient and downgradient ground water quality. Ground water discharging into the wetland is oxic, has up to 40 mg/L NO3-N derived from fertilizer and hog manure application to corn fields, and has major ion concentrations typical of the shallow unconfined aquifer in the area. In contrast, shallow ground water that originates as recharge from the wetland forms a plume extending downgradient that can be identified by isotopic enrichment in 18O and deuterium resulting from evaporation in the wetland prior to recharge and by distinct chemical characteristics similar to the wetland surface water (low conductivity and alkalinity, low concentrations of sulfate, nitrate and dissolved oxygen and high concentrations of ammonia, and DOC). As the wetland surface water infiltrates into the unconfined aquifer, conductivity and alkalinity increase due to carbonate mineral dissolution and iron concentrations increase as ferric iron in the aquifer solids serves as an electron acceptor in microbially mediated reactions. The other chemical characteristics, including the lack of nitrate, persist in the flow system for significant distances downgradient from the wetland. The chemical and isotopic composition of shallow ground water around wetlands can be used to spatially delineate areas of groundwater discharge to the wetland and ground water recharge from the wetland, thereby providing a supplemental method to the use of sometimes inconclusive hydraulic head data in the determination of wetland recharge discharge function. In this study, the chemical and isotopic data confirm that the water table does not replicate surface topography around closed depressions in the landscape
ISSN:0017-467X
1745-6584
DOI:10.1111/j.1745-6584.1998.tb02204.x