NYU Spatial Data Repository

Chlorophyll A (Fall), Northwest Atlantic United States, 1998-2006

This data product was created as part of the Northwest Atlantic Marine Ecoregional Assessment. The Nature Conservancy developed this science-based ecoregional assessment for the Northwest Atlantic Marine region (Bay of Fundy to Cape Hatteras, North Carolina). This assessment synthesizes information on oceanography, chemistry, geology, biology, and social science to inform decisions about coastal and marine ecosystems. By integrating this information at a regional level, the Conservancy is able to provide both a greater understanding of the interrelated biological diversity of the marine ecoregion, and a clearer picture of the current condition of its natural areas and the challenges to their continued persistence. The ten categories of targets identified as the primary structure for the marine ecoregional assessment are: coastal and estuarine habitats, benthic habitats, diadromous fish, demersal fish, pelagic fish, forage fish, nearshore shellfish, shorebirds and seabirds, marine mammals, and sea turtles. For more information and a detailed report, please visit http://nature.org/namera/. Phytoplankton concentration was determined by measuring chlorophyll a, which can be detected using remote sensing techniques. Plankton are important for many reasons: · Phytoplankton and zooplankton support commercially and ecologically important fisheries (including shellfish); · Increases in phytoplankton abundance is a good indicator of commercially productive waters; · Plankton play a critical role in global biogeochemical cycles, including those of essential nutrients and carbon; · Artificially-introduced nutrients (nutrient loading), particularly nitrate in marine systems, cause phytoplankton blooms (eutrophication) that can reduce bottom oxygen levels to hypoxic or anoxic levels in stratified water, causing fish kills if anoxic for periods of time; · Species composition and abundance can be used as a) historic or current indicators or predictors of ecosystem or fishery health and b) to assess changes in climate, sea level, and biogeochemistry; and · Blooms of toxic algae can harm both marine life and people.Phytoplankton concentration was determined by measuring chlorophyll a, which can be detected using remote sensing techniques. To measure chlorophyll by satellite, images from the Sea Viewing Wide Field-of-View Sensor (SeaWiFS) obtained from NASA were used. These images have a 1.1 km2 nominal resolution. These data were processed by Dr. Tim Moore at the Ocean Process Analysis Laboratory, University of New Hampshire in order to improve the estimation of chlorophyll in the coastal zone. The chlorophyll data were derived from a regionally-parameterized empirical algorithm which follows the functional form: X=log(max(Rrs443,Rrs490,Rrs510)/Rrs555) Log(Chl)=a0+a1*X+a2*X2+a3*X3+a4X4 where the exponential coefficients were fitted to a regional subset of the NASA bio-Optical Marine Algorithm Data (NOMAD) set. The data were processed in MATLAB and delivered in .HDF format. The data were converted from .HDF to MATLAB using Marine Geospatial Ecology tools (Roberts et al. 2009). In each image, land and clouds were removed, so as to not skew the calculation. Seasonally averaged chlorophyll images were created for the time period January 1998 - December 2006. The data time series ranges are monthly for January 1997 - February 2007. Years with inconsistent monthly data were eliminated (1997 and 2007). The seasons are defined to be consistent with other target data: winter, January - March; spring, April - June; summer, July - September; fall, October - December.
Northeast Ocean Data
Albemarle Sound (N.C.), Baltimore Canyon, Fundy, Bay of, Chesapeake Bay (Md. and Va.), Delaware Bay (Del. and N.J.), Georges Bank, Great South Channel (North Atlantic Ocean), Maine, Gulf of, Ontario, Lake (N.Y. and Ont.), Long Island Sound (N.Y. and Conn.), Mid-Atlantic Bight, Nantucket Shoals (Mass.), Norfolk Canyon, Stellwagen Bank, Northeastern States, and Middle Atlantic States
Chlorophyll, Phytoplankton, Environment, and Oceans
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