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Satellite-Derived Coastal Ocean and Estuarine Salinity in the Mid-Atlantic
Erick
F
Geiger, University of Delaware, egeiger@udel.edu
(Presenter)
Salinity is a basic oceanographic property that is not routinely estimated by satellites. Efforts to measure ocean salinity from space are designed for large scale open ocean environments, not coastal regions. In the Mid-Atlantic coastal ocean, salinity is critical for understanding ecosystems, river plumes, and transport. However, the spatial and temporal coverage of in situ salinity measurements in this region are sparse and do not synoptically capture salinity in the coastal ocean. We compiled ~2 million salinity records from four regional research vessels between the years 2003-2008 and found ~9 thousand salinity records that could be adequately matched to MODIS-Aqua data. We show that the spectral shape of water-leaving radiance and sea surface temperature are most correlated with in situ salinity. Four neural network models designed to predict salinity were developed for the Mid-Atlantic coastal region and three of its major estuaries (Hudson, Delaware, and Chesapeake). Our models predict salinity with RMS errors between 1.40 psu and 2.29 psu, which are much less than the null model ranges (4.87-10.08 psu) and the natural range of the system (0-32 psu). We computed seasonal climatologies for the Chesapeake, Delaware, and Mid-Atlantic regions and found that they were fresher than the existing NODC climatologies. We also found significant freshening trends in the Mid-Atlantic over the 6 years analyzed. Presentation Type: Poster Session: Other (Tue 11:30 AM) Associated Project(s):
Poster Location ID: 270
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