Filters: Tags: Upper Chesapeake Bay (X) > partyWithName: Douglas A Burns (X)

Filters Date Range Past year (0) Past month (0) Past week (0) Past day (0) Custom range... To   Search Contacts Jessica A Hopple Silvia Terziotti U.S. Geological Survey Perry M Jones U.S. Geological Survey - ScienceBase More... Tag Types Theme (2) Place (2) USGS Scientific Topic Keyword (2) Harvest Set (2) Tag Schemes USGS Thesaurus (2) Common geographic areas (2) None (2) Marine Realms Information Bank (MRIB) keywords (2) View Results as: JSON ATOM CSV

Estimates of atmospheric inorganic nitrogen deposition to the Chesapeake Bay watershed, 1950-2050 Reactive nitrogen is transported from the atmosphere to the landscape as wet and dry deposition that contributes to annual nitrogen loads to the Chesapeake Bay. Estimates of atmospheric inorganic nitrogen deposition to the Chesapeake Bay watershed during 1950 to 2050 are presented, and are based on field measurements, model simulations, statistical relations, and surrogate constituents used for estimates. Wet atmospheric nitrogen deposition has generally been quantified from weekly precipitation sample collections, whereas dry atmospheric nitrogen deposition has been simulated by a model at an hourly time step. Tags: Chesapeake, Chesapeake Bay watershed, Delaware, District of Columbia, Environmental Health, All tags... Geochemistry, Hydrology, Land Use Change, Lower Chesapeake Bay, Maryland, New York, Pennsylvania, USGS Science Data Catalog (SDC), Upper Chesapeake Bay, Virginia, Water Quality, West Virginia, ammonia, ammonium, atmospheric and climatic processes, atmospheric deposition (chemical & particulate), atmospheric properties, direct atmospheric deposition, estuary, inorganic, nitrate, nitric acid, nitric oxide, nitrogen, oxides, precipitation (atmospheric), reduced, water quality, watershed, watershed management, Fewer tags Nitrogen sources to and export from the Chesapeake Bay watershed, 1950 to 2050 This U.S. Geological Survey data release contains datasets that combine past data with future projections of nitrogen sources and nitrogen export to the Chesapeake Bay watershed for the years 1950-2050. To help understand the effect of human and environmental changes over this time period, data for nitrogen sources from wastewater, agricultural fertilizer and manure, and atmospheric deposition are combined with datasets of population and land use. These datasets were used in conjunction with a previously calibrated SPAtially Referenced Regression On Watershed attributes (SPARROW) modeling tool to estimate the mean annual loads of total nitrogen to the Chesapeake Bay and nontidal stream reaches in the watershed at... Tags: Chesapeake, Chesapeake Bay watershed, Delaware, District of Columbia, Environmental Health, All tags... Geochemistry, Hydrology, Land Use Change, Lower Chesapeake Bay, Maryland, New York, Pennsylvania, TMDL, USGS Science Data Catalog (SDC), Upper Chesapeake Bay, Virginia, Water Quality, West Virginia, agriculture, baseflow, climate change, effects of climate change, estuary, eutrophication, evaporation, fertilizer, groundwater, groundwater and surface-water interaction, groundwater quality, land cover change, land use change, manure, mathematical modeling, nitrate, nitrogen, point sources, runoff, stormwater, streamflow, surface water, surface water (non-marine), surface water quality, transpiration, urban areas, wastewater discharge, water quality, watershed, watershed management, Fewer tags