Remote sensing analysis of rainstorm effects on sediment concentrations in Apalachicola Bay, USA

Remote sensing of total suspended solids (TSS) by satellite techniques in estuaries and bays plays an important role in monitoring water quality over a large area. It is valuable to the management of coastal water environment and ecosystems. In this study, remote sensing mapping of TSS was conducted to investigate the effects of rainstorm events on Apalachicola Bay. A rainstorm event (October 7-8, 2008) was selected for a period when wind speeds were weak and the river inflow was almost steady. TSS mapping of MODIS images before and after the rainstorm event showed substantial increase of TSS induced by the rainstorm. Using an image during low river discharge before the rainstorm as a reference. TSS distribution was mapped by an improved regression model using MODIS image after a rainstorm event. Two thresholds of TSS (25 and 60 mg l(-1)) were applied to delineate the rough edge of the sediment plume. The boundary separating highly turbid and relatively clear water was near Sikes Cut. The event did not influence the East Gulf Beach in the west side of East Pass. The study also shows the surface TSS concentrations can get back to their reference values (mean TSS at about 17 similar to 20 mg l(-1) and maximum TSS at about 70 mg l(-1)) after 60 h and 50 min (i.e. almost the day 2.5) of rainstorm stopping. The method developed can be used to monitor sediment load to support estuarine ecological research and water quality assessment in Apalachicola Bay. (C) 2010 Elsevier B.V. All rights reserved.