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Carbon transport by the Mississippi River

Carlos E. Del Castillo, Johns Hopkins University-APL, carlos.del.castillo@jhuapl.edu (Presenting)
Richard L. Miller, NASA-SSC, richard.l.miller@nasa.gov

We investigated the use of ocean color remote sensing to measure transport of dissolved organic carbon (DOC) by the Mississippi River to the Gulf of México. From 2000 to 2005 we made surface measurements of DOC, colored dissolved organic matter (CDOM), salinity, and water leaving radiances during five cruises to the Mississippi River Plume. These measurements were used to develop empirical relationships to derive CDOM, DOC, and salinity from monthly composites of SeaWiFS imagery collected from 1998 through 2005. We used river flow data and a two-end-member mixing model to derive DOC concentrations in the river end-member, river flow, and DOC transport using remote sensing data. We compared our remote sensing estimates of river flow and DOC transport with data collected by the United States Geological Survey (USGS) for 1998 through 2005. Our remote sensing estimates of river flow and DOC transport correlated well (r2 ~ 0.70) with the USGS data. Our remote sensing estimates and USGS field data showed low variability in DOC concentrations in the river end-member (7-11%), and high seasonal variability in river flow (~50%). Therefore, changes in river flow control the variability in DOC transport indicating that the remote sensing estimate of river flow is the most critical element of our DOC transport measurement. We concluded that it is possible to use this method to estimate DOC transport by other large rivers if there are data on the relationship between CDOM, DOC, and salinity in the river plume.


NASA Carbon Cycle & Ecosystems Active Awards Represented by this Poster:

  • Award: NNG06GH04G
    Start Date: 2006-04-15
     

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