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Sawyer et al., 2011

Talk/Poster

An integrated monitoring network for hydrologic, geochemical, and sediment fluxes to characterize carbon-mineral fate in the Christina River Basin Critical Zone Observatory

A.H. Sawyer, Karwan, D. L., Lazareva, O. (2011)
AGU Fall Meeting, San Francisco, California, Dec. 5-9.  

Abstract

Organic carbon (C) -mineral complexation mechanism plays an important role in C sequestration within watersheds. The primary goal of the Christina River Basin Critical Zone Observatory in SE Pennsylvania and N Delaware, USA (one of six National Science Foundation-funded observatories) is to quantify net carbon sink or source due to mineral production and transport and its dependence on land use. This effort requires an interdisciplinary understanding of carbon and mineral fluxes across interfaces between soil, aquifer, floodplain, and river.

We have established a monitoring network that targets hydrologic, geochemical, and sedimentological transport processes across channel-floodplainaquifer interfaces within White Clay Creek Watershed. Within the channel, suspended material is sampled and analyzed for organic and mineral composition as well as geochemical fingerprints. Surface water and groundwater are analyzed for C, Fe, and Mn chemistry. Within the floodplain, in-situ sensors monitor soil moisture, pressure, temperature, conductivity, and redox potential. Integrated data analysis should yield estimates of water and solute fluxes between the vadose zone, riparian aquifer, and stream.

Our preliminary data show that storm events are important for carbon and mineral fluxes—suspended material in surface water changes in source and composition throughout the storm. Meanwhile, the variation in stream stage drives surface watergroundwater exchange, facilitating changes in redox potential and providing opportunity for enhanced transport and reactions involving C, Fe, and Mn in the riparian aquifer.

Citation

A.H. Sawyer, Karwan, D. L., Lazareva, O. (2011): An integrated monitoring network for hydrologic, geochemical, and sediment fluxes to characterize carbon-mineral fate in the Christina River Basin Critical Zone Observatory. AGU Fall Meeting, San Francisco, California, Dec. 5-9..