Stephanie Gordon
Daniel K. Jones
Brianna Williams
Christopher Wright
2021
Potential contaminant sources and other landscape variables summarized for NHDPlus Version 2.1 catchments within the Chesapeake Bay Watershed (ver. 2.0, June 2021)
Tabular Digital Data
Reston, VA
U.S. Geological Survey
https://doi.org/10.5066/F7SQ8ZB3
This dataset consists of 262 variables which describe various known and suspected point and non-point sources of contaminants and endocrine disrupting compounds (EDCs) throughout the Chesapeake Bay Watershed. Contaminant data was summarized to the NHDPlus Version 2.1 catchment level (1:100K). Contaminant data summarized span a time range of 2001 to 2016 and include regulated facilities, pesticides, manure and biosolids application data, mercury deposition, animal feeding applications, septic systems, landfills, and land use and land cover. These data are presented in a comma separated file, which includes all variables summarized and the NHDPlus Version 2.1 FEATUREID field (also known as COMID). The FEATUREID field can be used to relate these summaries to the NHDPlus Version 2.1 data suite for mapping and other analytical purposes. Total (TOT) and Divergent (DIV) upstream summaries were generated using the NHDPlusV2 Catchment Attribute Allocation and Accumulation Tool (CA3TV2). Using this method, upstreams summaries are generated for 82,263 of the 83,637 NHDPlus catchments in the Chesapeake Bay Watershed.
These data will be used to investigate source-sink linkages between contaminant sources, water quality issues, and impacted receptor populations (e.g., smallmouth bass) throughout the Bay Watershed. Information gained from this work may also be used to evaluate the success of mitigation activities and help to prioritize new locations for mitigation, implementation of best management practices, or habitat conservation actions.
The purpose of this dataset is to provide an accounting of potential point and non-point sources of toxic and endocrine disrupting compounds to waterways throughout the Chesapeake Bay Watershed, summarized to NHDPlus Version 2.1 catchments.
2001
2016
publication date
None planned
-80.541
-75.224
42.987
36.672
USGS Thesaurus
contamination and pollution
health and disease
human impacts
land use and land cover
natural resources
water quality
industrial pollution
nonpoint-source pollution
pesticide and herbicide contamination
pharmaceutical contamination
water resources
geography
geographic information systems
None
septic facilities
Toxic Release Inventory (TRI)
Facility Registry Service (FRS)
Discharge Monitoring Report (DMR)
biosolids application
concentrated animal feeding operations (CAFOs)
landfills
phytoestrogens
mercury deposition
manure nitrogen and phosphorus
USGS Metadata Identifier
USGS:59e537d6e4b05fe04cd1bc90
Geographic Names Information System (GNIS)
District of Columbia
Delaware
Maryland
New York
Pennsylvania
Virginia
West Virginia
Chesapeake Bay
Chesapeake Bay Basin
Oregon GEO temporal Keywords
Modern
none
Public domain data from the U.S. Government are freely redistributable with proper metadata and source attribution. The U.S. Geological Survey requests to be acknowledged as originator of these data in future products or derivative research.
Daniel K. Jones
U.S. Geological Survey
mailing and physical
2329 West Orton Circle
West Valley City
Utah
84119-2047
U.S.A.
240-620-7822
dkjones@usgs.gov
Funding for this data release was provided by the U.S. Geological Survey Contaminants Biology Program
Nancy T. Baker
Wesley W. Stone
2015
Estimated annual agricultural pesticide use for counties of the conterminous United States, 2008–12
Reston, VA
U.S. Geological Survey
https://dx.doi.org/10.3133/ds907
David K. Mueller
Jo Ann M. Gronberg
2013
County-level estimates of nitrogen and phosphorus from animal manure for the conterminous United States, 2002
Reston, VA
U.S. Geological Survey
https://pubs.usgs.gov/of/2013/1065/
Jo Ann M. Gronberg
Terri L. Arnold
2017
County-level estimates of nitrogen and phosphorus from animal manure for the conterminous United States, 2007 and 2012
Reston, VA
U.S. Geological Survey
https://doi.org/10.3133/ofr20171021
U.S. Environmental Protection Agency
U.S. Geological Survey
2012
National Hydrography Dataset Plus (NHDPlus) Version 2.1
Reston, VA
U.S. Geological Survey
http://www.horizon-systems.com/NHDPlus/NHDPlusV2_data.php
Maryland Department of the Environment
2016
Maryland Reported Sewer Overflow Database
Baltimore, MD
Maryland Department of the Environment
http://www.mde.state.md.us/programs/water/Compliance/Pages/ReportedSewerOverflow.aspx
State of New York
2016
Combined Sewer Overflows (CSOs): Beginning 2013
New York
State of New York
https://catalog.data.gov/dataset/combined-sewer-overflows-csos-beginning-2013
U.S. Environmental Protection Agency
2016
EPA FRS Facilities State Single File CSV Download
Washington, DC
U.S. Environmental Protection Agency
https://www.epa.gov/enviro/epa-frs-facilities-state-single-file-csv-download
U.S. Environmental Protection Agency
2016
Toxics Release Inventory (TRI) Program
Washington, DC
U.S. Environmental Protection Agency
https://www.epa.gov/toxics-release-inventory-tri-program
U.S. Environmental Protection Agency
2016
Discharge Monitoring Report (DMR) Pollutant Loading Tool
Washington, DC
U.S. Environmental Protection Agency
https://cfpub.epa.gov/dmr/adv_search.cfm
U.S. Census Bureau
2014
American Fact Finder
Washington, DC
U.S. Census Bureau
https://factfinder.census.gov/faces/nav/jsf/pages/download_center.xhtml
U.S. Census Bureau
2014
TIGER/Line® Shapefiles and TIGER/Line® Files
Washington, DC
U.S. Census Bureau
ftp://ftp2.census.gov/geo/tiger/TGRGDB14/
Chesapeake Bay Program
2017
Chesapeake Bay Phase 6 Watershed Model Nutrients Applied Inputs
Annapolis, MD
Chesapeake Bay Program
https://mpa.chesapeakebay.net/NutrientData.html
Multi-Resolution Land Characteristics Consortium
2011
National Land Cover Database 2011
Reston, VA
U.S. Geological Survey
https://www.mrlc.gov/nlcd11_data.php
U.S. Department of Agriculture
2015
National Agricultural Statistics Service Cropland Data Layer
Washington, DC
U.S. Department of Agriculture
https://nassgeodata.gmu.edu/CropScape/
National Atmospheric Deposition Program
2017
Mercury Deposition Network
Champaign, IL
National Atmospheric Deposition Program
http://nadp.sws.uiuc.edu/MDN/annualmdnmaps.aspx
U.S. Environmental Protection Agency
2016
Landfill locations from the U.S. EPA Greenhouse Gas Emissions from Large Facilities
Washington, DC
U.S. Environmental Protection Agency
http://ghgdata.epa.gov/ghgp
PA Department of Environmental Protection
2017
Municipal Waste Operations
University Park, PA
PA Department of Environmental Protection
http://www.pasda.psu.edu/uci/DataSummary.aspx?dataset=281
U.S. Geological Survey
2016
National Water-Quality Assessment Program (NAWQA) Pesticide National Synthesis Project
Reston, VA
U.S. Geological Survey
https://water.usgs.gov/nawqa/pnsp/usage/maps/county-level/
Grant Scavello
2016
EPA reported septic data for EPA Region 3
Washington, DC
U.S. Environmental Protection Agency Ground Water and Enforcement Branch
Dana Hales
2016
Combined Sewer Overflow (CSO) Outfalls
Washington, DC
U.S. Environmental Protection Agency NPDES Permit Branch
Environmental Systems Research Institute, Inc.
2009
World Imagery
Redlands, CA
Environmental Systems Research Institute, Inc.
http://www.arcgis.com/home/item.html?id=10df2279f9684e4a9f6a7f08febac2a9
New York Department of Environmental Conservation
2017
Landfill – Solid Waste Management Facilities Map
New York
New York Department of Environmental Conservation
https://data.ny.gov/Energy-Environment/Landfill-Solid-Waste-Management-Facilities-Map/afg5-7i6u
Maryland Department of the Environment Solid Waste Program
2017
Permitted Solid Waste Acceptance Facilities
Maryland
Maryland Department of the Environment Solid Waste Program
http://mde.maryland.gov/programs/Land/SolidWaste/Pages/PermittedFacilities.aspx
Horizon Systems
U.S. Environmental Protection Agency
U.S. Geological Survey
2016
NHDPlusV2 Catchment Attribute Allocation and Accumulation Tool (CA3TV2)
Reston, VA
U.S. Geological Survey
https://nhdplus.com/NHDPlus/NHDPlusV2_tools.php#NHDPlusV2%20Catchment%20Attribute%20Allocation%20and%20Accumulation%20Tool%20(CA3TV2)
No formal attribute accuracy tests were conducted
No formal logical accuracy tests were conducted
Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.
No formal positional accuracy tests were conducted
No formal positional accuracy tests were conducted
Unless otherwise noted, all analyses were performed in ArcMap version 10.3/4, Excel 2010, or R version 3.3.2.
2017
For variables EPA_septic_total, EPA_septic_active, EPA_septic_abd and EPA_septic_pl_abd, septic system locations were provided by the US Environmental Protection Agency. Counts of septic systems were summarized by NHDPlus Version 2.1 catchment by: 1) associating septic facility locations to NHDPlus catchments, and 2) summing the number of each EPA reported septic system type and total septic systems per catchment.
2017
For the CSO_count variable, Combined Sewer Overflow (CSO) locations for Maryland were downloaded from the Maryland.gov Reported Sewer Overflow Database, for New York from Data.gov, and were provided for EPA Region 3 by the National Pollution Discharge Elimination System (NPDES) Permits Branch Water Protection Division. Data from Maryland were edited to exclude records for Sanitary Sewer Overflow and Bypass categories thereby leaving only CSO reported overflows, which were furthered edited to remove duplicate location records and any sites which fell outside the Maryland state boundary. Data points from New York were edited to remove any locations that fell outside the state boundary or which had no recorded latitude and longitude. CSO locations provided by EPA were edited to remove any VOID or INACTIVE status CSOs. A count of CSOs per NHDPlus Version 2.1 catchment were created by: 1) combining all points into one dataset, 2) associating the CSO locations to NHDPlus Version 2.1 catchments in the Chesapeake Bay Watershed, and 3) summing the number of total CSOs per NHDPlus Version 2.1 catchment.
2017
For the FRS_Count variable, Facility Registry Services (FRS) records were downloaded in December, 2016 from the EPA Envirofacts site by state for Virginia, Washington DC, Delaware, New York, Pennsylvania, West Virginia, and Maryland. The data reflects up-to-date facility information as of November 2016. A total count of FRS facilities per NHDPlus Version 2.1 catchment was created by: 1) merging all facility locations into one dataset, 2) removing facilities outside of a 50 meter buffer around the Chesapeake Bay Watershed boundary, 3) removing duplicate records using the “RegistryID”, “lat”, and “long” fields, 5) associating the facility locations to NHDPlus Version 2.1 catchments in the Chesapeake Bay Watershed, and 6) summing the number of FRS facilities per NHDPlus Version 2.1 catchment.
2017
For the TRI_Count variable, Toxic Release Inventory (TRI) records were downloaded in December, 2016 from the EPA TRI Factsheet site by state for Virginia, Washington DC, Delaware, New York, Pennsylvania, West Virginia, and Maryland. The data represents 2015 facility information from the 2015 National Analysis Dataset (released October 2016). A total count of TRI facilities per NHDPlus Version 2.1 catchment was created by: 1) merging all facility locations into one dataset, 2) removing facilities outside of a 50 meter buffer around the Chesapeake Bay Watershed boundary, 3) removing duplicate records using the “FRS ID”, “lat”, and “long” fields, 5) associating the facility locations to NHDPlus Version 2.1 catchments in the Chesapeake Bay Watershed, and 6) summing the number of total TRI facilities per NHDPlus Version 2.1 catchment.
2017
For the DMR_All, DMR_fed, DMR_POTW, and DMR_nonPOTW variables, EPA Discharge Monitoring Report (DMR) data was downloaded per HUC 4 catchment as 4-level comma separated files (csvs) from the EPA DMR Pollutant Loading Tool. Counts of DMR outfalls were summarized by NHDPlus Version 2.1 catchment by: 1) joining all HUC 4 csvs into one dataset, 2) adjusting positive longitude values to negative, 3) removing duplicate records using the "NPDES number", "Facility Name", "Facility Type", "OutfallNumber", "Monitoring lat", and "Monitoring Long" fields, 4) removing outfalls outside of a 50 meter buffer around the Chesapeake Bay Watershed boundary, 5) manually adjusting the latitude and longitude of 19 outfall locations; the latitude and longitude of these outfalls were located in the Chesapeake Bay waters just outside of the Chesapeake Bay NHDPlus version 2.1 catchments in Maryland and Virginia, but when compared to aerial imagery (ESRI Basemap), appeared to be a facility which extended beyond the edge of the NHDPlus Version 2.1 catchment. The location of the outfall was manually adjusted so that the outfall location was properly recorded in the appropriate NHDPlus Version 2.1 catchment, 6) associating the outfall locations to NHDPlus Version 2.1 catchments in the Chesapeake Bay Watershed, and 7) summing the number of each DMR outfall type per NHDPlus Version 2.1 catchment.
2017
For the Septic_num variable, the number of septic tanks per NHDPlus Version 2.1 catchment were generated from two datasets provided by Peter Claggett, USGS Eastern Geographic Science Center: 1) a 30x30m raster of Total Housing Units (THU) 2010, and 2) a 30x30m raster of sewer treatment areas for the Chesapeake Bay Watershed. American Community Survey (ACS) Fact Finder was used to download the 2014 five-year all housing data, Table B25024 for census block groups in Virginia, Washington DC, Delaware, New York, Pennsylvania, West Virginia, and Maryland. Tigerline census blocks for each state were also downloaded from the 2014 Tigerline FTP site. Counts of septic tanks were summarized by NHDPlus Version 2.1 catchment by: 1) removing the sewered areas from the total housing units raster, 2) joining the ACS census data to the Tigerline census block shapefiles via the common “GEOID” column, 3) merging all of the states’ census blocks, 4) clipping the census blocks to a 50 meter buffer around the Chesapeake Bay Watershed, 5) calculating the ratio of detached to total houses by dividing the “HD01_VD02” field by the “HD01_VD01” field, and 6) multiplying the total housing units raster by the calculated ratio. Resulting values were visually compared against actual house footprints on the ESRI World Imagery base map in ArcGIS. From visual inspection it became clear that apartment complexes and townhouse rows on septic systems had no more than 2-3 houses max (aka septic systems) per 30m cell. Therefore all cells in the resulting septic raster with a value greater than 2 were removed. The resulting raster was used to sum the total number of septic tanks per NHDPlus Version 2.1 catchment. Final septic counts per catchment were then rounded to the nearest whole number to eliminate fractional counts.
2017
For variables CAFO_COW_TOT, CAFO_SWINE_TOT, CAFO_POULT_TOT, CAFO_OTH_TOT, and CAFO_ALL_TOT, Confined Animal Feeding Operation (CAFO) animal headcounts were obtained from 1) Mark Zolandz, U.S. Environmental Protection Agency Region 3 National Pollution Discharge Elimination System (NPDES) Enforcement Branch, Water Protection Division, 2) Betsy Bowles, Animal Feeding Operations Program Coordinator, Virginia Department of Environmental Quality, 3) Douglas Ashline, Division of Water, New York State Department of Environmental Conservation, and 4) Kristina Heinemann, Agricultural and Decentralized Wastewater Management Coordinator, U.S. Environmental Protection Agency Region 2 Watershed Management Branch. CAFO animal headcounts per animal type and across all animals were summarized by NHDPlus Version 2.1 catchment by: 1) sorting the CAFO locations by operation type, then by animal type with the following final categories: Cow_total (includes beef, dairy, steer, cattle, heifer, and veal), Swine_total (includes swine, pig, hog, finishing swine, gilt, boar, sow, nursing pig, and farrow/feeder), Poultry_total (includes chicken, layer, broiler, hen, turkey, duck, and pullets), and Other (includes horses, sheep, goats, bison, ponies, and mini horse), 2) converting records marked as "AEUs" to animal headcounts using State of Pennsylvania AFO calculator (http://www.paagombudsman.com/farmers/aeu-calculator/) as guidance to develop the following conversion factors: 1 broiler = 0.0035499 AEU, 1 nursery swine = 0.035 AEU, 1 finishing pig = 0.165 AEU, 1 boar = 0.45 AEU, 1 swine (nonspecific) = 0.2855 AEU, 1 beef cattle = 1.4 AEU, 1 turkey = 0.01113 AEU, 1 pullet = 0.00138 AEU, 1 layers = 0.00314 AEU, 1 duck = 0.00314 AEU, 1 dairy cow = 1.45 AEU, 1 goat = 0.035 (used Miniature horses/donkeys 0 -6 months) AEU, 1 sheep (ewe) = 0.175 AEU, 1 horse = 1.1 AEU, 1 dairy heifer = 1 AEU, 1 veal = 0.28 AEU. Records with multiple animal types indicated but which only included a single value were evenly divided by the number of animal types indicated prior to applying the conversion unit except in cases where two animal types were indicated but the number of animals for one type was significantly larger than all other records would indicate; 3) associating the sorted CAFO locations to NHDPlus Version 2.1 catchments in the Chesapeake Bay Watershed, and 4) summing the head counts of total CAFO animals and CAFO animals by type for each NHDPlus Version 2.1 catchment. For catchments with no reported CAFO animal headcounts, a value of 'ND' (no data) was assigned. ND values may be converted to 0's for statistical analyses at the data user's discretion.
2019
For the variables bioskg_2003n, bioskg_2003p, bioskg_2004n, bioskg_2004p, bioskg_2005n, bioskg_2005p, bioskg_2006n, bioskg_2006p, bioskg_2007n, bioskg_2007p, bioskg_2008n, bioskg_2008p, bioskg_2009n, bioskg_2009p, bioskg_2010n, bioskg_2010p, bioskg_2011n, bioskg_2011p, bioskg_2012n, bioskg_2012p, bioskg_2013n, and bioskg_2013p, nitrogen and phosphorus from biosolids applications per county were downloaded for 2003-2013 from the Chesapeake Bay Midpoint Assessment. Land cover from the National Land Cover Dataset (NLCD) was downloaded for 2001, 2006, and 2011 from the Multi-Resolution Land Characteristics Consortium. Biosolids application data was applied to each NLCD year as follows: NLCD 2001 used with 2003 biosolids data; NLCD 2006 used with biosolids data for 2004-2008; NLCD 2011 used with biosolids data from 2009-2013. Nitrogen and phosphorus applications from biosolids in kilograms were summed by NHDPlus Version 2.1 catchment by 1) identifying al the counties that intersect the Chesapeake Bay Watershed boundary and clipping each NLCD dataset to the county boundaries, 2) reclassifying the land cover to cells which represent Pasture/Hay (NLCD value 81) and Row Crop (NLCD value 82) land uses, 3) obtaining a count of the number of cells in the Pasture/Hay and Row Crop categories per county, 4) converting the polygons of county boundaries to rasters, 5) joining the reclassified raster (only Pasture/Hay and Row Crops) raster to the county raster so that the cells identified as Pasture/Hay and Row Crops also contained the “FIPS” code for each county, 6) joining the county biosolids data to Pasture/Hay and Row Crops raster using the “FIPS” code, 7) calculating pounds of nitrogen and phosphorus from biosolids by dividing reported county applications by the count of Pasture/Hay and Row Crop cells per county, 8) creating a new raster for each field (nitrogen or phosphorus from biosolids for the years 2003-2013), 9) summing the pounds of nitrogen/phosphorus applications from the Pasture/Hay and Row Crop cells in each NHDPlus Version 2.1 catchment, and 10) multiplying the final pounds applied per catchment value by 0.453592 to convert pounds to kilograms.
2017
For the variables CDL2002_phyto, CDL2008_phyto, CDL2009_phyto, CDL2010_phyto, CDL2011_phyto, CDL2012_phyto, CDL2013_phyto, CDL2014_phyto, CDL2015_phyto and CDL2016_phyto the U.S. Department of Agriculture Cropland Data Layer (CDL) was downloaded for 2002 and 2008-2015. The percent of land per NHDPlus Version 2.1 catchment covered by phytoestrogenic crops was determined by 1) clipping the CDL layers to the boundary of counties which intersect the Chesapeake Bay Watershed boundary and resampling 2008 and 2009 layers to 30x30 meter cells, 2) reclassifying the values of crop cover types to include only plants identified as having high levels of phytoestrogens (alfalfa, barley, clover/wildflowers, flaxseed, grapes, oats, peanuts, rye, soybeans, hops and wheat); the reclassification values were 2 for crops identified as year-round crop cover and 1 for plants identified as rotating or half-year crop cover, 3) summing the values of the reclassified raster for each NHDPlus Version 2.1 catchment, 4) separately summing the total number of CDL cells from each raster layer per NHDPlus Version 2.1 catchment, and 5) calculating the percent coverage by dividing the sum of the reclassified values (1 or 2 for high phytoestrogen crops) by 2 so that phytoestrogen cover for all year equaled 1, and half year cover equaled 0.5. These reclassified values were then divided by the total number of CDL cells per catchment and multiplied by 100 to achieve percent coverage of phytoestrogenic plants per NHDPlus Version 2.1 catchment.
2017
For the variables hg2003, hg2004, hg2005, hg2006, hg2007, hg2008, hg2009, hg2010, hg2011, hg2012, hg2013, and hg2014, mercury deposition grids were downloaded from the National Atmospheric Deposition Network for 2003-2014. Total micrograms of mercury deposited from the atmosphere per NHDPlus Version 2.1 catchment were calculated by 1) converting each deposition grid from float to integer-type by multiplying by 10,000, 2) converting the rasters to polygons, 3) calculating the percent of each deposition polygon that covers each NHDPlus Version 2.1 catchment, 4) using the percent of grid coverage to calculate the amount of deposition per catchment as deposition (ug/m2/yr) = (deposition/10,000) * percent coverage per NHDPlus Version 2.1 catchment, 5) adding the deposition per coverage area to find the total deposition per NHDPlus Version 2.1 catchment, and 6) multiplying the deposition (ug/m2/yr/catchment) by the NHDPlus Version 2.1 reported catchment area to find total deposition per catchment per year.
2017
For the Landfill_Count variable, New York and Maryland landfill locations were obtained from Peter Claggett, USGS Eastern Geographic Science Center. The EPA Greenhouse Gas Reporting Program (GHGRP) points for 2015 were downloaded from EPA’s FLIGHT Tool using the search parameters: keyword=landfill; year=2015; GHGs=ALL; data type=All Emitters. The data was reported to EPA by facilities as of 08/13/2016. New York locations were downloaded from the New York State open data site, from which a point shapefile of landfill locations was created using the column “East Coordinate” as the X field and “North Coordinate” as the Y field in UTM Zone 18N. Maryland landfill locations were obtained from the 2015 list of Permitted Solid Waste Acceptance Facilities published by the Maryland Department of the Environment. Pennsylvania municipal waste operations were downloaded from the Pennsylvania Spatial Data Access site on 3/6/2017. A count of landfills for each NHDPlus Version 2.1 catchment were generated by 1) cleaning the Pennsylvania municipal waste operations to remove all facility types aside from “Landfill” and “Landfill-Abandoned” facilities, 2) merging the landfill locations from New York, Maryland, EPA, and Pennsylvania into one spatial dataset, 3) associating the facility locations to NHDPlus Version 2.1 catchments in the Chesapeake Bay Watershed, and 6) summing the number of total landfills per NHDPlus Version 2.1 catchment.
2017
For the variables CATN_2002, CATP_2002, CONN_2002, CONP_2002, HOGN_2002, HOGP_2002, OTHN_2002, OTHP_2002, POULTN_2002, POULTP_2002, TOTN_2002, TOTP_2002, UNCONN_2002, UNCONP_2002, CATN_2007, CATP_2007, HOGN_2007, HOGP_2007, OTHN_2007, OTHP_2007, POULTN_2007, POULTP_2007, TOTN_2007, TOTP_2007, CATN_2012, CATP_2012, HOGN_2012, HOGP_2012, OTHN_2012, OTHP_2012, POULTN_2012, POULTP_2012, TOTN_2012, and TOTP_2012, manure data was obtained from Andy Sekellick, USGS. County estimates of nitrogen and phosphorus in manure were made from the USDA Census of Agriculture livestock population category as kilograms of nutrients in manure per year, calculated as the sum of the animal population multiplied by the N or P manure factor multiplied by the life cycle. For data used and more details on the process to determine county-level estimates, see Mueller and Gronberg (2013) and Gronberg and Arnold (2017). Nitrogen and phosphorus from animal manure in kilograms were summed by NHDPlus Version 2.1 catchment by 1) identifying the counties that intersect the Chesapeake Bay Watershed boundary and clipping the NLCD 2001, 2006, and 2011 dataset to the county boundaries; NLCD 2001 was used for 2002 manure data, NLCD 2006 was used for 2007 manure data, and NLCD 2011 was used for 2012 manure data, 2) reclassifying the land cover to cells which represent Grassland/Herbaceous (NLCD value 71) and Pasture/Hay (NLCD value 81), 3) obtaining a count of the number of cells in the Pasture/Hay and Grassland/Herbaceous categories per county, 4) converting the polygons of county boundaries to rasters, 5) joining the reclassified raster (only Pasture/Hay and Grassland/Herbaceous) raster to the county raster so that the cells identified as Pasture/Hay and Grassland/Herbaceous also contained the FIPS code for each county, 6) joining the county manure data to Pasture/Hay and Grassland/Herbaceous raster using the “FIPS” code, 7) calculating kilograms of nitrogen and phosphorus from manure per cell as nitrogen or phosphorus per county divided by the count of Pasture/Hay and Grassland/Herbaceous cells per county, 8) creating a new raster for each field (nitrogen or phosphorus from manure by animal type for the years 2002, 2007, and 2012), and 9) summing the kilograms of nitrogen/phosphorus in manure from the Pasture/Hay and Grassland/Herbaceous cells in each NHDPlus Version 2.1 catchment.
2017
For each year of the variables starting with 24d, atrazine, bif, fipronil, glyphosate, imidacloprid, metalaxyl, metolachlor, simazine, and thiamethoxam, county-level pesticide application estimates were downloaded as tabular data from the National Water-Quality Assessment Program (NAWQA) Pesticide National Synthesis Project. Following methods detailed by Nancy Baker (NAWQA National Pesticide Synthesis Program, personal communication), and the advice of Dean Hively (USGS Eastern Geographic Science Center), the pesticides of interest were split into two categories: crop-specific use pesticides (Atrazine, Bifenthrin, Clothianidin, Fipronil, Imidacloprid, Metalaxyl, Metolachlor, Simazine, Thiamethoxam), and crop and pasture use pesticides (2,4-D and Glyphosate). The high values for estimated pesticide use were then used for the summaries, and pesticide applications (in kilograms) for each NHDPlus Version 2.1 catchment were generated by: 1) identifying all the counties that intersect the Chesapeake Bay Watershed boundary and clipping the NLCD 2001, 2006, and 2011 dataset to the county boundaries, 2) reclassifying the NLCD 2001, 2006, and 2011 raster to Pasture/Hay (NLCD value 81) and Row Crop (NLCD value 82) cells for use with the crop and pasture use pesticides, 3) reclassifying the NLCD 2001, 2006, and 2011 raster to only Row Crop (NLCD value 82) cells for use with the crop-specific use pesticides, 4) summing the number of Pasture/Hay and Row Crop cells per year per NHDPlus Version 2.1 catchment, 5) summing the number of just Pasture/Hay cells per year per NHDPlus Version 2.1 catchment, 6) combining the Pasture/Hay and Row Crop cells to the raster of counties so that the Pasture/Hay and Row Crop have the “FIPS” code (same was done for just the Pasture/Hay cells), 7) joining sums of the number of cells of Pasture/Hay and Row Crop, and just Pasture/Hay to county polygons along with pesticide application data for the application years associated with the NLCD data year (NLCD 2011 used with pesticides for 2009-2015, NLCD 2006 used for pesticides for 2004-2008, and NLCD 2001 used for pesticides for 2001 and 2003), 8) dividing the county pesticide application by the number of cells of Pasture/Hay and Row Crops or just Pasture/Hay per county, 9) creating a separate raster for each pesticide for each year of reported applications, and 10) summing pesticide application by year for each NHDPlus Version 2.1 catchment to find total kilograms applied per catchment.
2017
These data are presented in comma separated files, which includes all variables summarized and the NHDPlus Version 2.1 FEATUREID field. The FEATUREID field can be used to relate these summaries to the NHDPlus Version 2.1 catchments for mapping and other analytical purposes.
EDC_V9_Sciencebase_v2.csv
comma separated tabular data
U.S. Geological Survey
FEATUREID
Unique ID to relate to each NHDPlus Version 2.1 catchment (FEATUREID) and flow line (COMID).
http://nhd.usgs.gov/NHDDataDictionary_model2.0.pdf
Unique numbers that are automatically generated.
AreaSqKM
Area of NHDPlus Version 2.1 catchments based on Albers Equal Area.
http://nhd.usgs.gov/NHDDataDictionary_model2.0.pdf.
0.0009
108.4023
square kilometers
LengthKM
NHDFlowline feature length in kilometers
http://nhd.usgs.gov/NHDDataDictionary_model2.0.pdf.
0.001
38.2970009
kilometers
EPA_septic_active
Number of active EPA reported septic facilities per catchment.
U.S. Geological Survey
0
75
count
EPA_septic_abd
Number of abandoned EPA reported septic facilities per catchment.
U.S. Geological Survey
0
1
count
EPA_septic_pl_abd
Number of plugged and abandoned EPA reported septic facilities per catchment.
U.S. Geological Survey
0
2
count
EPA_septic_total
Total number of EPA reported septic facilities per catchment. These are large scale septic systems that might be used for non-sanitary purposes, primarily at industrial and automotive types of areas; these septic systems serve more than 20 persons as injection wells under the underground injection control (UIC) program.
U.S. Geological Survey
0
75
count
CSO_Count
Count of Combined Sewer Overflows (CSOs) per catchment.
U.S. Geological Survey.
1
66
count
ND denotes catchments with no reported Combined Sewer Overflows (CSOs).
FRS_Count
Count of Facility Registry Service (FRS) facilities per catchment.
U.S. Geological Survey
0
814
count
TRI_Count
Count of Toxic Release Inventory (TRI) facilities per catchment.
U.S. Geological Survey
0
6
count
DMR_All
Number of all Discharge Monitoring Report (DMR) outfall monitoring locations per catchment.
U.S. Geological Survey
0
58
count
DMR_Fed
Number of Federal Discharge Monitoring Report (DMR) outfall monitoring locations per catchment.
U.S. Geological Survey
0
24
count
DMR_POTW
Number of Publicly Owned Treatment Works (POTW) Discharge Monitoring Report (DMR) outfall monitoring locations per catchment.
U.S. Geological Survey
0
12
count
DMR_nonPOTW
Number of non-Publicly Owned Treatment Works (non-POTW) Discharge Monitoring Report (DMR) outfall monitoring locations per catchment.
U.S. Geological Survey
0
58
count
Septic_Num
Number of septic facilities per catchment.
U.S. Geological Survey
0
1951
count
ND denotes catchments that are entirely on municipal sewer, or catchments where no housing data was available to calculate septic counts.
CAFO_COW_TOT
Number of Confined Animal Feeding Operation (CAFO) cows per catchment, including dairy, cattle, heifers, steer, veal, and steer.
U.S. Geological Survey
0
14000
animal headcount
ND denotes no cow CAFOs reported for catchment.
CAFO_SWINE_TOT
Number of Confined Animal Feeding Operation (CAFO) swine per catchment including swine, hogs, AEU (animal equivalent units) swine, and finishing swine.
U.S. Geological Survey
0
85143
animal headcount
ND denotes no swine CAFOs reported for catchment.
CAFO_POULT_TOT
Number of Confined Animal Feeding Operation (CAFO) poultry per catchment including poultry, breeders, turkeys, duck, pullets, and layers.
U.S. Geological Survey
0
6550000
animal headcount
ND denotes no poultry CAFOs reported for catchment.
CAFO_OTH_TOT
Number of Confined Animal Feeding Operation (CAFO) "other" animals per catchment including horse, ponies, and goats.
U.S. Geological Survey
0
9360
animal headcount
ND denotes no "other" CAFOs reported for catchment.
CAFO_ALL_TOT
Total number of Confined Animal Feeding Operation (CAFO) animals per catchment.
U.S. Geological Survey
74
65500000
animal headcount
ND denotes catchments with no reported CAFOs.
CAFO_POULT_Notes
Notes for the CAFO_POULT_TOT column to indicate records that had unknowns reported in the original raw data.
U.S. Geological Survey
Likely Under Reported
Items indicated as Likely Under Reported had poultry CAFOs present in some raw datasets, but headcounts were reported as unknown. Therefore, the number shown for poultry CAFOs is likely an underestimate of the total number of poultry animals present in a given NHDPlus catchment. Additionally CAFO_ALL_TOT is likely an underestimate of the total headcounts of CAFO animals.
U.S. Geological Survey
NA
NA denotes catchments with no notes to indicate under reported or missing values for catchments with CAFOs present.
U.S. Geological Survey
ND
ND denotes catchments with no reported CAFOs.
U.S. Geological Survey
Unknown
Unknown records indicate catchment where a CAFO was reported present but the number of poultry was reported as either “unknown” or left blank.
U.S. Geological Survey
bioskg_2003n
Kilograms nitrogen from biosolids 2003.
U.S. Geological Survey
0
893.0582361
kilograms per catchment
bioskg_2003p
Kilograms phosphorus from biosolids 2003.
U.S. Geological Survey
0
302.0491525
kilograms per catchment
bioskg_2004n
Kilograms nitrogen from biosolids 2004.
U.S. Geological Survey
0
508.9205194
kilograms per catchment
bioskg_2004p
Kilograms phosphorus from biosolids 2004.
U.S. Geological Survey
0
172.1275838
kilograms per catchment
bioskg_2005n
Kilograms nitrogen from biosolids 2005.
U.S. Geological Survey
0
506.2538126
kilograms per catchment
bioskg_2005p
Kilograms phosphorus from biosolids 2005.
U.S. Geological Survey
0
171.2244798
kilograms per catchment
bioskg_2006n
Kilograms nitrogen from biosolids 2006.
U.S. Geological Survey
0
458.5767928
kilograms per catchment
bioskg_2006p
Kilograms phosphorus from biosolids 2006.
U.S. Geological Survey
0
155.1003985
kilograms per catchment
bioskg_2007n
Kilograms nitrogen from biosolids 2007.
U.S. Geological Survey
0
460.8794739
kilograms per catchment
bioskg_2007p
Kilograms phosphorus from biosolids 2007.
U.S. Geological Survey
0
155.8790716
kilograms per catchment
bioskg_2008n
Kilograms nitrogen from biosolids 2008.
U.S. Geological Survey
0
707.1846564
kilograms per catchment
bioskg_2008p
Kilograms phosphorus from biosolids 2008.
U.S. Geological Survey
0
239.18588
kilograms per catchment
bioskg_2009n
Kilograms nitrogen from biosolids 2009.
U.S. Geological Survey
0
754.2988614
kilograms per catchment
bioskg_2009p
Kilograms phosphorus from biosolids 2009.
U.S. Geological Survey
0
255.680265
kilograms per catchment
bioskg_2010n
Kilograms nitrogen from biosolids 2010.
U.S. Geological Survey
0
553.1247313
kilograms per catchment
bioskg_2010p
Kilograms phosphorus from biosolids 2010.
U.S. Geological Survey
0
187.6925166
kilograms per catchment
bioskg_2011n
Kilograms nitrogen from biosolids 2011.
U.S. Geological Survey
0
402.0118235
kilograms per catchment
bioskg_2011p
Kilograms phosphorus from biosolids 2011.
U.S. Geological Survey
0
135.9673067
kilograms per catchment
bioskg_2012n
Kilograms nitrogen from biosolids 2012.
U.S. Geological Survey
0
487.5823592
kilograms per catchment
bioskg_2012p
Kilograms phosphorus from biosolids 2012.
U.S. Geological Survey
0
164.9116771
kilograms per catchment
bioskg_2013n
Kilograms nitrogen from biosolids 2013.
U.S. Geological Survey
0
448.5373973
kilograms per catchment
bioskg_2013p
Kilograms phosphorus from biosolids 2013.
U.S. Geological Survey
0
151.7041415
kilograms per catchment
CDL2002_phyto
Percent high-phytoestrogen plant crop cover per catchment in 2002.
U.S. Geological Survey
0
100
percent
CDL2008_phyto
Percent high-phytoestrogen plant crop cover per catchment in 2008.
U.S. Geological Survey
0
100
percent
CDL2009_phyto
Percent high-phytoestrogen plant crop cover per catchment in 2009.
U.S. Geological Survey
0
100
percent
CDL2010_phyto
Percent high-phytoestrogen plant crop cover per catchment in 2010.
U.S. Geological Survey
0
100
percent
CDL2011_phyto
Percent high-phytoestrogen plant crop cover per catchment in 2011.
U.S. Geological Survey
0
100
percent
CDL2012_phyto
Percent high-phytoestrogen plant crop cover per catchment in 2012.
U.S. Geological Survey
0
100
percent
CDL2013_phyto
Percent high-phytoestrogen plant crop cover per catchment in 2013.
U.S. Geological Survey
0
100
percent
CDL2014_phyto
Percent high-phytoestrogen plant crop cover per catchment in 2014.
U.S. Geological Survey
0
100
percent
CDL2015_phyto
Percent high-phytoestrogen plant crop cover per catchment in 2015.
U.S. Geological Survey
0
100
percent
CDL2016_phyto
Percent high-phytoestrogen plant crop cover per catchment in 2016.
U.S. Geological Survey
0
100
percent
hg2003
Micrograms of mercury deposited from the atmosphere for 2003.
U.S. Geological Survey
362.65158
1392200441
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
hg2004
Micrograms of mercury deposited from the atmosphere for 2004.
U.S. Geological Survey
141.1344
946484915
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
hg2005
Micrograms of mercury deposited from the atmosphere for 2005.
U.S. Geological Survey
115.43985
704508943.4
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
hg2006
Micrograms of mercury deposited from the atmosphere for 2006.
U.S. Geological Survey
118.2708
805205043.1
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
hg2007
Micrograms of mercury deposited from the atmosphere for 2007.
U.S. Geological Survey
106.00335
900824424.7
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
hg2008
Micrograms of mercury deposited from the atmosphere for 2008.
U.S. Geological Survey
23.0076
856985562.6
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
hg2009
Micrograms of mercury deposited from the atmosphere for 2009.
U.S. Geological Survey
23.7996
710409031.3
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
hg2010
Micrograms of mercury deposited from the atmosphere for 2010.
U.S. Geological Survey
589.03074
653046902.7
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
hg2011
Micrograms of mercury deposited from the atmosphere for 2011.
U.S. Geological Survey
80.1405
1026539862
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
hg2012
Micrograms of mercury deposited from the atmosphere for 2012.
U.S. Geological Survey
486.78867
941703495.7
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
hg2013
Micrograms of mercury deposited from the atmosphere for 2013.
U.S. Geological Survey
377.47107
799646238.2
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
hg2014
Micrograms of mercury deposited from the atmosphere for 2014.
U.S. Geological Survey
400.02867
810574178
micrograms per catchment
ND denotes catchments with no mercury deposition data available.
Landfill_Count
Number of landfills per catchment.
U.S. Geological Survey
1
10
count
ND denotes catchments with no reported landfills.
CATN_2002
Kilograms nitrogen in manure from cattle, 2002.
Mueller et al. 2013
0
229960.2802
kilograms per catchment
CATP_2002
Kilograms phosphorus in manure from cattle, 2002.
Mueller et al. 2013
0
61646.45291
kilograms per catchment
CONN_2002
Kilograms of nitrogen in manure from confined livestock, 2002.
Mueller et al. 2013
0
490187.8744
kilograms per catchment
CONP_2002
Kilograms of phosphorus in manure from confined livestock, 2002.
Mueller et al. 2013
0
144522.9234
kilograms per catchment
HOGN_2002
Kilograms nitrogen in manure from hogs, 2002.
Mueller et al. 2013
0
37692.99788
kilograms per catchment
HOGP_2002
Kilograms phosphorus in manure from hogs, 2002.
Mueller et al. 2013
0
16752.4383
kilograms per catchment
OTHN_2002
Kilograms nitrogen in manure from other animals, 2002.
Mueller et al. 2013
0
9297.304156
kilograms per catchment
OTHP_2002
Kilograms phosphorus in manure from other animals, 2002.
Mueller et al. 2013
0
1612.910169
kilograms per catchment
POULTN_2002
Kilograms nitrogen in manure from poultry, 2002.
Mueller et al. 2013
0
379087.8608
kilograms per catchment
POULTP_2002
Kilograms phosphorus in manure from poultry, 2002.
Mueller et al. 2013
0
118863.1572
kilograms per catchment
TOTN_2002
Total kilograms nitrogen from manure, 2002.
Mueller et al. 2013
0
570126.462
kilograms per catchment
TOTP_2002
Total kilograms phosphorus from manure, 2002.
Mueller et al. 2013
0
163497.7556
kilograms per catchment
UNCONN_2002
Kilograms of nitrogen in manure from unconfined livestock, 2002.
Mueller et al. 2013
0
108044.6709
kilograms per catchment
UNCONP_2002
Kilograms of phosphorus in manure from unconfined livestock, 2002.
Mueller et al. 2013
0
28192.07176
kilograms per catchment
CATN_2007
Kilograms nitrogen in manure from cattle, 2007.
Mueller et al. 2013
0
138504.9958
kilograms per catchment
CATP_2007
Kilograms phosphorus in manure from cattle, 2007.
Mueller et al. 2013
0
28500.03878
kilograms per catchment
HOGN_2007
Kilograms nitrogen in manure from hogs, 2007.
Mueller et al. 2013
0
34657.97213
kilograms per catchment
HOGP_2007
Kilograms phosphorus in manure from hogs, 2007.
Mueller et al. 2013
0
15403.54489
kilograms per catchment
OTHN_2007
Kilograms nitrogen in manure from other animals, 2007.
Mueller et al. 2013
0
7948.576382
kilograms per catchment
OTHP_2007
Kilograms phosphorus in manure from other animals, 2007.
Mueller et al. 2013
0
1377.462872
kilograms per catchment
POULTN_2007
Kilograms nitrogen in manure from poultry, 2007.
Mueller et al. 2013
0
320812.4608
kilograms per catchment
POULTP_2007
Kilograms phosphorus in manure from poultry, 2007.
Mueller et al. 2013
0
96243.73152
kilograms per catchment
TOTN_2007
Total kilograms nitrogen from manure, 2007.
Mueller et al. 2013
0
325847.8907
kilograms per catchment
TOTP_2007
Total kilograms phosphorus from manure, 2007.
Mueller et al. 2013
0
97771.81088
kilograms per catchment
CATN_2012
Kilograms nitrogen in manure from cattle, 2012.
Mueller et al. 2013
0
212643.32
kilograms per catchment
CATP_2012
Kilograms phosphorus in manure from cattle, 2012.
Mueller et al. 2013
0
57689.90196
kilograms per catchment
HOGN_2012
Kilograms nitrogen in manure from hogs, 2012.
Mueller et al. 2013
0
34547.60493
kilograms per catchment
HOGP_2012
Kilograms phosphorus in manure from hogs, 2012.
Mueller et al. 2013
0
15354.49159
kilograms per catchment
OTHN_2012
Kilograms nitrogen in manure from other animals, 2012.
Mueller et al. 2013
0
10278.83774
kilograms per catchment
OTHP_2012
Kilograms phosphorus in manure from other animals, 2012.
Mueller et al. 2013
0
1783.345586
kilograms per catchment
POULTN_2012
Kilograms nitrogen in manure from poultry, 2012.
Mueller et al. 2013
0
421429.2105
kilograms per catchment
POULTP_2012
Kilograms phosphorus in manure from poultry, 2012.
Mueller et al. 2013
0
126428.7651
kilograms per catchment
TOTN_2012
Total kilograms nitrogen from manure, 2012.
Mueller et al. 2013
0
465885.7772
kilograms per catchment
TOTP_2012
Total kilograms phosphorus from manure, 2012.
Mueller et al. 2013
0
131883.8967
kilograms per catchment
24d2001
Kilograms of 24-d applied in 2001.
Baker and Stone 2015
0
8732.686423
kilograms per catchment
24d2003
Kilograms of 24-d applied in 2003.
Baker and Stone 2015
0
46091.09211
kilograms per catchment
24d2004
Kilograms of 24-d applied in 2004.
Baker and Stone 2015
0
249.8625126
kilograms per catchment
24d2005
Kilograms of 24-d applied in 2005.
Baker and Stone 2015
0
735.7222985
kilograms per catchment
24d2006
Kilograms of 24-d applied in 2006.
Baker and Stone 2015
0
352.0314879
kilograms per catchment
24d2007
Kilograms of 24-d applied in 2007.
Baker and Stone 2015
0
6446.709347
kilograms per catchment
24d2008
Kilograms of 24-d applied in 2008.
Baker and Stone 2015
0
717.2730236
kilograms per catchment
24d2009
Kilograms of 24-d applied in 2009.
Baker and Stone 2015
0
330.440326
kilograms per catchment
24d2010
Kilograms of 24-d applied in 2010.
Baker and Stone 2015
0
361.1064825
kilograms per catchment
24d2011
Kilograms of 24-d applied in 2011.
Baker and Stone 2015
0
526.5009168
kilograms per catchment
24d2012
Kilograms of 24-d applied in 2012
Baker and Stone 2015
0
428.4516266
kilograms per catchment
24d2013
Kilograms of 24-d applied in 2013.
Baker and Stone 2015
0
516.33663
kilograms per catchment
24d2014
Kilograms of 24-d applied in 2014.
Baker and Stone 2015
0
626.5947941
kilograms per catchment
24d2015
Kilograms of 24-d applied in 2015.
Baker and Stone 2015
0
475.0787605
kilograms per catchment
atrazine2001
Kilograms of atrazine applied in 2001.
Baker and Stone 2015
0
977.80909
kilograms per catchment
atrazine2003
Kilograms of atrazine applied in 2003.
Baker and Stone 2015
0
833.932386
kilograms per catchment
atrazine2004
Kilograms of atrazine applied in 2004.
Baker and Stone 2015
0
1845.55860
kilograms per catchment
atrazine2005
Kilograms of atrazine applied in 2005.
Baker and Stone 2015
0
1517.35954
kilograms per catchment
atrazine2006
Kilograms of atrazine applied in 2006.
Baker and Stone 2015
0
5102.815562
kilograms per catchment
atrazine2007
Kilograms of atrazine applied in 2007.
Baker and Stone 2015
0
1748.47811
kilograms per catchment
atrazine2008
Kilograms of atrazine applied in 2008.
Baker and Stone 2015
0
3687.79337
kilograms per catchment
atrazine2009
Kilograms of atrazine applied in 2009.
Baker and Stone 2015
0
1630.87517
kilograms per catchment
atrazine2010
Kilograms of atrazine applied in 2010.
Baker and Stone 2015
0
1572.25602
kilograms per catchment
atrazine2011
Kilograms of atrazine applied in 2011.
Baker and Stone 2015
0
1571.62950
kilograms per catchment
atrazine2012
Kilograms of atrazine applied in 2012.
Baker and Stone 2015
0
1815.53976
kilograms per catchment
atrazine2013
Kilograms of atrazine applied in 2013.
Baker and Stone 2015
0
3324.05461
kilograms per catchment
atrazine2014
Kilograms of atrazine applied in 2014.
Baker and Stone 2015
0
1641.48231
kilograms per catchment
atrazine2015
Kilograms of atrazine applied in 2015.
Baker and Stone 2015
0
1244.72821
kilograms per catchment
bif2001
Kilograms of bifenthrin applied in 2001.
Baker and Stone 2015
0
1.437824042
kilograms per catchment
bif2003
Kilograms of bifenthrin applied in 2003.
Baker and Stone 2015
0
3.509054886
kilograms per catchment
bif2004
Kilograms of bifenthrin applied in 2004.
Baker and Stone 2015
0
42.91846178
kilograms per catchment
bif2005
Kilograms of bifenthrin applied in 2005.
Baker and Stone 2015
0
5.084570031
kilograms per catchment
bif2006
Kilograms of bifenthrin applied in 2006.
Baker and Stone 2015
0
10.44907197
kilograms per catchment
bif2007
Kilograms of bifenthrin applied in 2007.
Baker and Stone 2015
0
2.413234972
kilograms per catchment
bif2008
Kilograms of bifenthrin applied in 2008.
Baker and Stone 2015
0
5.917688932
kilograms per catchment
bif2009
Kilograms of bifenthrin applied in 2009.
Baker and Stone 2015
0
22.20115024
kilograms per catchment
bif2010
Kilograms of bifenthrin applied in 2010.
Baker and Stone 2015
0
26.87608739
kilograms per catchment
bif2011
Kilograms of bifenthrin applied in 2011.
Baker and Stone 2015
0
9.858713925
kilograms per catchment
bif2012
Kilograms of bifenthrin applied in 2012.
Baker and Stone 2015
0
39.56795035
kilograms per catchment
bif2013
Kilograms of bifenthrin applied in 2013.
Baker and Stone 2015
0
34.51932418
kilograms per catchment
bif2014
Kilograms of bifenthrin applied in 2014.
Baker and Stone 2015
0
66.95780859
kilograms per catchment
bif2015
Kilograms of bifenthrin applied in 2015.
Baker and Stone 2015
0
39.2244443
kilograms per catchment
fipronil2001
Kilograms of fipronil applied in 2001.
Baker and Stone 2015
0
1.942697976
kilograms per catchment
fipronil2003
Kilograms of fipronil applied in 2003.
Baker and Stone 2015
0
1.926540051
kilograms per catchment
fipronil2004
Kilograms of fipronil applied in 2004.
Baker and Stone 2015
0
13.7051107
kilograms per catchment
fipronil2005
Kilograms of fipronil applied in 2005.
Baker and Stone 2015
0
0.014607
kilograms per catchment
fipronil2008
Kilograms of fipronil applied in 2008.
Baker and Stone 2015
0
0.015785
kilograms per catchment
fipronil2012
Kilograms of fipronil applied in 2012.
Baker and Stone 2015
0
0.995400038
kilograms per catchment
fipronil2013
Kilograms of fipronil applied in 2013.
Baker and Stone 2015
0
0.417120003
kilograms per catchment
fipronil2014
Kilograms of fipronil applied in 2014.
Baker and Stone 2015
0
0.021385
kilograms per catchment
fipronil2015
Kilograms of fipronil applied in 2015.
Baker and Stone 2015
0
0.973279962
kilograms per catchment
glyphosate2001
Kilograms of glyphosate applied in 2001.
Baker and Stone 2015
0
12155.84733
kilograms per catchment
glyphosate2003
Kilograms of glyphosate applied in 2003.
Baker and Stone 2015
0
56187.97439
kilograms per catchment
glyphosate2004
Kilograms of glyphosate applied in 2004.
Baker and Stone 2015
0
933.9694637
kilograms per catchment
glyphosate2005
Kilograms of glyphosate applied in 2005.
Baker and Stone 2015
0
1210.805183
kilograms per catchment
glyphosate2006
Kilograms of glyphosate applied in 2006.
Baker and Stone 2015
0
1197.938579
kilograms per catchment
glyphosate2007
Kilograms of glyphosate applied in 2007.
Baker and Stone 2015
0
76341.66638
kilograms per catchment
glyphosate2008
Kilograms of glyphosate applied in 2008.
Baker and Stone 2015
0
2343.816531
kilograms per catchment
glyphosate2009
Kilograms of glyphosate applied in 2009.
Baker and Stone 2015
0
1557.164915
kilograms per catchment
glyphosate2010
Kilograms of glyphosate applied in 2010.
Baker and Stone 2015
0
2259.562512
kilograms per catchment
glyphosate2011
Kilograms of glyphosate applied in 2011.
Baker and Stone 2015
0
2945.945095
kilograms per catchment
glyphosate2012
Kilograms of glyphosate applied in 2012.
Baker and Stone 2015
0
1953.197033
kilograms per catchment
glyphosate2013
Kilograms of glyphosate applied in 2013.
Baker and Stone 2015
0
2394.458457
kilograms per catchment
glyphosate2014
Kilograms of glyphosate applied in 2014.
Baker and Stone 2015
0
2183.32463
kilograms per catchment
glyphosate2015
Kilograms of glyphosate applied in 2015.
Baker and Stone 2015
0
1627.695989
kilograms per catchment
imidacloprid2001
Kilograms of imidacloprid applied in 2001.
Baker and Stone 2015
0
4.546989927
kilograms per catchment
imidacloprid2003
Kilograms of imidacloprid applied in 2003.
Baker and Stone 2015
0
1.962168013
kilograms per catchment
imidacloprid2004
Kilograms of imidacloprid applied in 2004.
Baker and Stone 2015
0
4.514080052
kilograms per catchment
imidacloprid2005
Kilograms of imidacloprid applied in 2005.
Baker and Stone 2015
0
6.983510035
kilograms per catchment
imidacloprid2006
Kilograms of imidacloprid applied in 2006.
Baker and Stone 2015
0
21.09212971
kilograms per catchment
imidacloprid2007
Kilograms of imidacloprid applied in 2007.
Baker and Stone 2015
0
11.03183181
kilograms per catchment
imidacloprid2008
Kilograms of imidacloprid applied in 2008.
Baker and Stone 2015
0
5.411189871
kilograms per catchment
imidacloprid2009
Kilograms of imidacloprid applied in 2009.
Baker and Stone 2015
0
6.605564876
kilograms per catchment
imidacloprid2010
Kilograms of imidacloprid applied in 2010.
Baker and Stone 2015
0
13.84288035
kilograms per catchment
imidacloprid2011
Kilograms of imidacloprid applied in 2011.
Baker and Stone 2015
0
12.41955379
kilograms per catchment
imidacloprid2012
Kilograms of imidacloprid applied in 2012.
Baker and Stone 2015
0
30.30908361
kilograms per catchment
imidacloprid2013
Kilograms of imidacloprid applied in 2013.
Baker and Stone 2015
0
23.22483621
kilograms per catchment
imidacloprid2014
Kilograms of imidacloprid applied in 2014.
Baker and Stone 2015
0
31.1998509
kilograms per catchment
imidacloprid2015
Kilograms of imidacloprid applied in 2015.
Baker and Stone 2015
0
21.89318421
kilograms per catchment
metalaxyl2006
Kilograms of metalaxyl applied in 2006.
Baker and Stone 2015
0
0.027109001
kilograms per catchment
metalaxyl2008
Kilograms of metalaxyl applied in 2008.
Baker and Stone 2015
0
0.008887
kilograms per catchment
metalaxyl2009
Kilograms of metalaxyl applied in 2009.
Baker and Stone 2015
0
0.044595999
kilograms per catchment
metalaxyl2010
Kilograms of metalaxyl applied in 2010.
Baker and Stone 2015
0
0.301425006
kilograms per catchment
metalaxyl2011
Kilograms of metalaxyl applied in 2011.
Baker and Stone 2015
0
1.446911075
kilograms per catchment
metalaxyl2012
Kilograms of metalaxyl applied in 2012.
Baker and Stone 2015
0
1.459241972
kilograms per catchment
metalaxyl2013
Kilograms of metalaxyl applied in 2013.
Baker and Stone 2015
0
2.279577925
kilograms per catchment
metalaxyl2014
Kilograms of metalaxyl applied in 2014.
Baker and Stone 2015
0
3.709792975
kilograms per catchment
metolachlor2001
Kilograms of Metolachlor applied in 2001.
Baker and Stone 2015
0
318.6914508
kilograms per catchment
metolachlor2003
Kilograms of Metolachlor applied in 2003.
Baker and Stone 2015
0
3.37144504
kilograms per catchment
metolachlor2004
Kilograms of Metolachlor applied in 2004.
Baker and Stone 2015
0
4.732353939
kilograms per catchment
metolachlor2005
Kilograms of Metolachlor applied in 2005.
Baker and Stone 2015
0
190.8395864
kilograms per catchment
metolachlor2006
Kilograms of Metolachlor applied in 2006.
Baker and Stone 2015
0
65.7333118
kilograms per catchment
metolachlor2007
Kilograms of Metolachlor applied in 2007.
Baker and Stone 2015
0
10.30351606
kilograms per catchment
metolachlor2008
Kilograms of Metolachlor applied in 2008.
Baker and Stone 2015
0
407.4237655
kilograms per catchment
metolachlor2009
Kilograms of Metolachlor applied in 2009.
Baker and Stone 2015
0
118.0734022
kilograms per catchment
metolachlor2010
Kilograms of Metolachlor applied in 2010.
Baker and Stone 2015
0
92.20959214
kilograms per catchment
metolachlor2011
Kilograms of Metolachlor applied in 2011.
Baker and Stone 2015
0
370.3679623
kilograms per catchment
metolachlor2012
Kilograms of Metolachlor applied in 2012.
Baker and Stone 2015
0
589.4570105
kilograms per catchment
metolachlor2013
Kilograms of Metolachlor applied in 2013.
Baker and Stone 2015
0
898.03585
kilograms per catchment
metolachlor2014
Kilograms of Metolachlor applied in 2014.
Baker and Stone 2015
0
641.7942366
kilograms per catchment
metolachlor2015
Kilograms of Metolachlor applied in 2015.
Baker and Stone 2015
0
288.2996455
kilograms per catchment
simazine2001
Kilograms of Simazine applied in 2001.
Baker and Stone 2015
0
189.87144
kilograms per catchment
simazine2003
Kilograms of Simazine applied in 2003.
Baker and Stone 2015
0
288.8673071
kilograms per catchment
simazine2004
Kilograms of Simazine applied in 2004.
Baker and Stone 2015
0
332.6199928
kilograms per catchment
simazine2005
Kilograms of Simazine applied in 2005.
Baker and Stone 2015
0
1002.160957
kilograms per catchment
simazine2006
Kilograms of Simazine applied in 2006.
Baker and Stone 2015
0
550.0232224
kilograms per catchment
simazine2007
Kilograms of Simazine applied in 2007.
Baker and Stone 2015
0
843.8012043
kilograms per catchment
simazine2008
Kilograms of Simazine applied in 2008.
Baker and Stone 2015
0
2155.153671
kilograms per catchment
simazine2009
Kilograms of Simazine applied in 2009.
Baker and Stone 2015
0
417.4827187
kilograms per catchment
simazine2010
Kilograms of Simazine applied in 2010.
Baker and Stone 2015
0
636.6001642
kilograms per catchment
simazine2011
Kilograms of Simazine applied in 2011.
Baker and Stone 2015
0
540.3857322
kilograms per catchment
simazine2012
Kilograms of Simazine applied in 2012.
Baker and Stone 2015
0
596.0789589
kilograms per catchment
simazine2013
Kilograms of Simazine applied in 2013.
Baker and Stone 2015
0
496.4710211
kilograms per catchment
simazine2014
Kilograms of Simazine applied in 2014.
Baker and Stone 2015
0
724.629287
kilograms per catchment
simazine2015
Kilograms of Simazine applied in 2015.
Baker and Stone 2015
0
451.0281173
kilograms per catchment
thiamethoxam2001
Kilograms of Thiamethoxam applied in 2001.
Baker and Stone 2015
0
0.028399999
kilograms per catchment
thiamethoxam2003
Kilograms of Thiamethoxam applied in 2003.
Baker and Stone 2015
0
2.710064909
kilograms per catchment
thiamethoxam2004
Kilograms of Thiamethoxam applied in 2004.
Baker and Stone 2015
0
4.291139861
kilograms per catchment
thiamethoxam2005
Kilograms of Thiamethoxam applied in 2005.
Baker and Stone 2015
0
17.08785549
kilograms per catchment
thiamethoxam2006
Kilograms of Thiamethoxam applied in 2006.
Baker and Stone 2015
0
7.947189992
kilograms per catchment
thiamethoxam2007
Kilograms of Thiamethoxam applied in 2007.
Baker and Stone 2015
0
9.397717831
kilograms per catchment
thiamethoxam2008
Kilograms of Thiamethoxam applied in 2008.
Baker and Stone 2015
0
15.58567932
kilograms per catchment
thiamethoxam2009
Kilograms of Thiamethoxam applied in 2009.
Baker and Stone 2015
0
9.068038879
kilograms per catchment
thiamethoxam2010
Kilograms of Thiamethoxam applied in 2010.
Baker and Stone 2015
0
9.490487828
kilograms per catchment
thiamethoxam2011
Kilograms of Thiamethoxam applied in 2011.
Baker and Stone 2015
0
17.38904744
kilograms per catchment
thiamethoxam2012
Kilograms of Thiamethoxam applied in 2012.
Baker and Stone 2015
0
19.73491649
kilograms per catchment
thiamethoxam2013
Kilograms of Thiamethoxam applied in 2013.
Baker and Stone 2015
0
18.96157405
kilograms per catchment
thiamethoxam2014
Kilograms of Thiamethoxam applied in 2014.
Baker and Stone 2015
0
25.80376847
kilograms per catchment
thiamethoxam2015
Kilograms of Thiamethoxam applied in 2015
Baker and Stone 2015
0
3.000227898
kilograms per catchment
EDC_V9_TOT_Sciencebase_v2.csv
comma separated tabular data
U.S. Geological Survey
FEATUREID
Unique ID to relate to each NHDPlus Version 2.1 catchment (FEATUREID) and flow line (COMID).
http://nhd.usgs.gov/NHDDataDictionary_model2.0.pdf
Unique numbers that are automatically generated.
EPA_septic_active_TOT
Number of active EPA reported septic facilities per upstream catchment using total upstream accumulation.
U.S. Geological Survey
0
2230
count
EPA_septic_abd_TOT
Number of abandoned EPA reported septic facilities per upstream catchment using total upstream accumulation.
U.S. Geological Survey
0
2
count
EPA_septic_pl_abd_TOT
Number of plugged and abandoned EPA reported septic facilities per upstream catchment using total upstream accumulation.
U.S. Geological Survey
0
53
count
EPA_septic_total_TOT
Total number of EPA reported septic facilities per upstream catchment. These are large scale septic systems that might be used for non-sanitary purposes, primarily at industrial and automotive types of areas; these septic systems serve more than 20 persons as injection wells under the underground injection control (UIC) program using total upstream accumulation.
U.S. Geological Survey
0
2283
count
CSO_Count_TOT
Count of Combined Sewer Overflows (CSOs) per upstream catchment using total upstream accumulation.
U.S. Geological Survey.
1
541
count
ND denotes catchments with no reported Combined Sewer Overflows (CSOs).
FRS_Count_TOT
Count of Facility Registry Service (FRS) facilities per upstream catchment using total upstream accumulation.
U.S. Geological Survey
0
27875
count
TRI_Count_TOT
Count of Toxic Release Inventory (TRI) facilities per upstream catchment using total upstream accumulation.
U.S. Geological Survey
0
420
count
DMR_All_TOT
Number of all Discharge Monitoring Report (DMR) outfall monitoring locations per upstream catchment using total upstream accumulation.
U.S. Geological Survey
0
1226
count
DMR_Fed_TOT
Number of Federal Discharge Monitoring Report (DMR) outfall monitoring locations per upstream catchment using total upstream accumulation.
U.S. Geological Survey
0
72
count
DMR_POTW_TOT
Number of Publicly Owned Treatment Works (POTW) Discharge Monitoring Report (DMR) outfall monitoring locations per upstream catchment using total upstream accumulation.
U.S. Geological Survey
0
234
count
DMR_nonPOTW_TOT
Number of non-Publicly Owned Treatment Works (non-POTW) Discharge Monitoring Report (DMR) outfall monitoring locations per upstream catchment using total upstream accumulation.
U.S. Geological Survey
0
920
count
Septic_Num_TOT
Number of septic facilities per upstream catchment using total upstream accumulation.
U.S. Geological Survey
0
558967
count
CAFO_COW_TOT_TOT
Number of Confined Animal Feeding Operation (CAFO) cows per upstream catchment, including dairy, cattle, heifers, steer, veal, and steer using total upstream accumulation.
U.S. Geological Survey
0
159964
animal headcount
CAFO_SWINE_TOT_TOT
Number of Confined Animal Feeding Operation (CAFO) swine per upstream catchment including swine, hogs, AEU (animal equivalent units) swine, and finishing swine using total upstream accumulation.
U.S. Geological Survey
0
662611
animal headcount
CAFO_POULT_TOT_TOT
Number of Confined Animal Feeding Operation (CAFO) poultry per upstream catchment including poultry, breeders, turkeys, duck, pullets, and layers using total upstream accumulation.
U.S. Geological Survey
0
44808508
animal headcount
CAFO_OTH_TOT_TOT
Number of Confined Animal Feeding Operation (CAFO) "other" animals per upstream catchment including horse, ponies, and goats using total upstream accumulation.
U.S. Geological Survey
0
26880
animal headcount
CAFO_ALL_TOT_TOT
Total number of Confined Animal Feeding Operation (CAFO) animals per upstream catchment using total upstream accumulation.
U.S. Geological Survey
74
44975936
animal headcount
bioskg_2003n_TOT
Kilograms nitrogen from biosolids 2003 using total upstream accumulation.
U.S. Geological Survey
0
102220.2794
kilograms per upstream catchment
bioskg_2003p_TOT
Kilograms phosphorus from biosolids 2003 using total upstream accumulation.
U.S. Geological Survey
0
34573.01173
kilograms per upstream catchment
bioskg_2004n_TOT
Kilograms nitrogen from biosolids 2004 using total upstream accumulation.
U.S. Geological Survey
0
89688.09794
kilograms per upstream catchment
bioskg_2004p_TOT
Kilograms phosphorus from biosolids 2004 using total upstream accumulation.
U.S. Geological Survey
0
30334.32907
kilograms per upstream catchment
bioskg_2005n_TOT
Kilograms nitrogen from biosolids 2005 using total upstream accumulation.
U.S. Geological Survey
0
94128.93491
kilograms per upstream catchment
bioskg_2005p_TOT
Kilograms phosphorus from biosolids 2005 using total upstream accumulation.
U.S. Geological Survey
0
31836.57663
kilograms per upstream catchment
bioskg_2006n_TOT
Kilograms nitrogen from biosolids 2006 using total upstream accumulation.
U.S. Geological Survey
0
97063.01478
kilograms per upstream catchment
bioskg_2006p_TOT
Kilograms phosphorus from biosolids 2006 using total upstream accumulation.
U.S. Geological Survey
0
32828.88546
kilograms per upstream catchment
bioskg_2007n_TOT
Kilograms nitrogen from biosolids 2007 using total upstream accumulation.
U.S. Geological Survey
0
94430.1192
kilograms per upstream catchment
bioskg_2007p_TOT
Kilograms phosphorus from biosolids 2007 using total upstream accumulation.
U.S. Geological Survey
0
31938.0681
kilograms per upstream catchment
bioskg_2008n_TOT
Kilograms nitrogen from biosolids 2008 using total upstream accumulation.
U.S. Geological Survey
0
107614.8267
kilograms per upstream catchment
bioskg_2008p_TOT
Kilograms phosphorus from biosolids 2008 using total upstream accumulation.
U.S. Geological Survey
0
36397.55573
kilograms per upstream catchment
bioskg_2009n_TOT
Kilograms nitrogen from biosolids 2009 using total upstream accumulation.
U.S. Geological Survey
0
106306.9349
kilograms per upstream catchment
bioskg_2009p_TOT
Kilograms phosphorus from biosolids 2009 using total upstream accumulation.
U.S. Geological Survey
0
35955.18451
kilograms per upstream catchment
bioskg_2010n_TOT
Kilograms nitrogen from biosolids 2010 using total upstream accumulation.
U.S. Geological Survey
0
87120.2344
kilograms per upstream catchment
bioskg_2010p_TOT
Kilograms phosphorus from biosolids 2010 using total upstream accumulation.
U.S. Geological Survey
0
29466.04129
kilograms per upstream catchment
bioskg_2011n_TOT
Kilograms nitrogen from biosolids 2011 using total upstream accumulation.
U.S. Geological Survey
0
89244.38515
kilograms per upstream catchment
bioskg_2011p_TOT
Kilograms phosphorus from biosolids 2011 using total upstream accumulation.
U.S. Geological Survey
0
30184.23524
kilograms per upstream catchment
bioskg_2012n_TOT
Kilograms nitrogen from biosolids 2012 using total upstream accumulation.
U.S. Geological Survey
0
92679.25512
kilograms per upstream catchment
bioskg_2012p_TOT
Kilograms phosphorus from biosolids 2012 using total upstream accumulation.
U.S. Geological Survey
0
31346.26604
kilograms per upstream catchment
bioskg_2013n_TOT
Kilograms nitrogen from biosolids 2013 using total upstream accumulation.
U.S. Geological Survey
0
77305.11341
kilograms per upstream catchment
bioskg_2013p_TOT
Kilograms phosphorus from biosolids 2013 using total upstream accumulation.
U.S. Geological Survey
0
26146.07437
kilograms per upstream catchment
CDL2002_phyto_TOT
Percent high-phytoestrogen plant crop cover per upstream catchment in 2002 using total upstream accumulation.
U.S. Geological Survey
0
100
percent
CDL2008_phyto_TOT
Percent high-phytoestrogen plant crop cover per upstream catchment in 2008 using total upstream accumulation.
U.S. Geological Survey
0
91.44
percent
CDL2009_phyto_TOT
Percent high-phytoestrogen plant crop cover per upstream catchment in 2009 using total upstream accumulation.
U.S. Geological Survey
0
92.17
percent
CDL2010_phyto_TOT
Percent high-phytoestrogen plant crop cover per upstream catchment in 2010 using total upstream accumulation.
U.S. Geological Survey
0
99.71
percent
CDL2011_phyto_TOT
Percent high-phytoestrogen plant crop cover per upstream catchment in 2011 using total upstream accumulation.
U.S. Geological Survey
0
86.96
percent
CDL2012_phyto_TOT
Percent high-phytoestrogen plant crop cover per upstream catchment in 2012 using total upstream accumulation.
U.S. Geological Survey
0
98.99
percent
CDL2013_phyto_TOT
Percent high-phytoestrogen plant crop cover per upstream catchment in 2013 using total upstream accumulation.
U.S. Geological Survey
0
91.86
percent
CDL2014_phyto_TOT
Percent high-phytoestrogen plant crop cover per upstream catchment in 2014 using total upstream accumulation.
U.S. Geological Survey
0
92.28
percent
CDL2015_phyto_TOT
Percent high-phytoestrogen plant crop cover per upstream catchment in 2015 using total upstream accumulation.
U.S. Geological Survey
0
93.95
percent
CDL2016_phyto_TOT
Percent high-phytoestrogen plant crop cover per upstream catchment in 2016 using total upstream accumulation.
U.S. Geological Survey
0
92.62
percent
hg2003_TOT
Micrograms of mercury deposited from the atmosphere for 2003 using total upstream accumulation.
U.S. Geological Survey
1224.02808
759000000000.00
micrograms per upstream catchment
hg2004_TOT
Micrograms of mercury deposited from the atmosphere for 2004 using total upstream accumulation.
U.S. Geological Survey
141.23295
732000000000.00
micrograms per upstream catchment
hg2005_TOT
Micrograms of mercury deposited from the atmosphere for 2005 using total upstream accumulation.
U.S. Geological Survey
115.43985
496000000000.00
micrograms per upstream catchment
hg2006_TOT
Micrograms of mercury deposited from the atmosphere for 2006 using total upstream accumulation.
U.S. Geological Survey
118.2708
624000000000.00
micrograms per upstream catchment
hg2007_TOT
Micrograms of mercury deposited from the atmosphere for 2007 using total upstream accumulation.
U.S. Geological Survey
106.00335
584000000000.00
micrograms per upstream catchment
hg2008_TOT
Micrograms of mercury deposited from the atmosphere for 2008 using total upstream accumulation.
U.S. Geological Survey
1323.65664
615000000000.00
micrograms per upstream catchment
hg2009_TOT
Micrograms of mercury deposited from the atmosphere for 2009 using total upstream accumulation.
U.S. Geological Survey
1530.243
460000000000.00
micrograms per upstream catchment
hg2010_TOT
Micrograms of mercury deposited from the atmosphere for 2010 using total upstream accumulation.
U.S. Geological Survey
1136.42352
467000000000.00
micrograms per upstream catchment
hg2011_TOT
Micrograms of mercury deposited from the atmosphere for 2011 using total upstream accumulation.
U.S. Geological Survey
1266.4818
736000000000.00
micrograms per upstream catchment
hg2012_TOT
Micrograms of mercury deposited from the atmosphere for 2012 using total upstream accumulation.
U.S. Geological Survey
486.78867
555000000000.00
micrograms per upstream catchment
hg2013_TOT
Micrograms of mercury deposited from the atmosphere for 2013 using total upstream accumulation.
U.S. Geological Survey
377.47107
508000000000.00
micrograms per upstream catchment
hg2014_TOT
Micrograms of mercury deposited from the atmosphere for 2014 using total upstream accumulation.
U.S. Geological Survey
400.05036
575000000000.00
micrograms per upstream catchment
Landfill_Count_TOT
Number of landfills per upstream catchment using total upstream accumulation.
U.S. Geological Survey
1
463
count
ND denotes catchments with no reported landfills.
CATN_2002_TOT
Kilograms nitrogen in manure from cattle, 2002 using total upstream accumulation.
Mueller et al. 2013
0
64416899.49
kilograms per upstream catchment
CATP_2002_TOT
Kilograms phosphorus in manure from cattle, 2002 using total upstream accumulation.
Mueller et al. 2013
0
13429064.37
kilograms per upstream catchment
CONN_2002_TOT
Kilograms of nitrogen in manure from confined livestock, 2002 using total upstream accumulation.
Mueller et al. 2013
0
72664508.68
kilograms per upstream catchment
CONP_2002_TOT
Kilograms of phosphorus in manure from confined livestock, 2002 using total upstream accumulation.
Mueller et al. 2013
0
18878722.95
kilograms per upstream catchment
HOGN_2002_TOT
Kilograms nitrogen in manure from hogs, 2002 using total upstream accumulation.
Mueller et al. 2013
0
9702122.352
kilograms per upstream catchment
HOGP_2002_TOT
Kilograms phosphorus in manure from hogs, 2002 using total upstream accumulation.
Mueller et al. 2013
0
4312054.086
kilograms per upstream catchment
OTHN_2002_TOT
Kilograms nitrogen in manure from other animals, 2002 using total upstream accumulation.
Mueller et al. 2013
0
3760523.449
kilograms per upstream catchment
OTHP_2002_TOT
Kilograms phosphorus in manure from other animals, 2002 using total upstream accumulation.
Mueller et al. 2013
0
651804.9778
kilograms per upstream catchment
POULTN_2002_TOT
Kilograms nitrogen in manure from poultry, 2002 using total upstream accumulation.
Mueller et al. 2013
0
23234367.51
kilograms per upstream catchment
POULTP_2002_TOT
Kilograms phosphorus in manure from poultry, 2002 using total upstream accumulation.
Mueller et al. 2013
0
7579226.089
kilograms per upstream catchment
TOTN_2002_TOT
Total kilograms nitrogen from manure, 2002 using total upstream accumulation.
Mueller et al. 2013
0
96024773.54
kilograms per upstream catchment
TOTP_2002_TOT
Total kilograms phosphorus from manure, 2002 using total upstream accumulation.
Mueller et al. 2013
0
24814709.01
kilograms per upstream catchment
UNCONN_2002_TOT
Kilograms of nitrogen in manure from unconfined livestock, 2002 using total upstream accumulation.
Mueller et al. 2013
0
23360266.88
kilograms per upstream catchment
UNCONP_2002_TOT
Kilograms of phosphorus in manure from unconfined livestock, 2002 using total upstream accumulation.
Mueller et al. 2013
0
5935990.849
kilograms per upstream catchment
CATN_2007_TOT
Kilograms nitrogen in manure from cattle, 2007 using total upstream accumulation.
Mueller et al. 2013
0
62180078.87
kilograms per upstream catchment
CATP_2007_TOT
Kilograms phosphorus in manure from cattle, 2007 using total upstream accumulation.
Mueller et al. 2013
0
12997644.56
kilograms per upstream catchment
HOGN_2007_TOT
Kilograms nitrogen in manure from hogs, 2007 using total upstream accumulation.
Mueller et al. 2013
0
9002925.364
kilograms per upstream catchment
HOGP_2007_TOT
Kilograms phosphorus in manure from hogs, 2007 using total upstream accumulation.
Mueller et al. 2013
0
4001297.839
kilograms per upstream catchment
OTHN_2007_TOT
Kilograms nitrogen in manure from other animals, 2007 using total upstream accumulation.
Mueller et al. 2013
0
3728459.596
kilograms per upstream catchment
OTHP_2007_TOT
Kilograms phosphorus in manure from other animals, 2007 using total upstream accumulation.
Mueller et al. 2013
0
646201.3758
kilograms per upstream catchment
POULTN_2007_TOT
Kilograms nitrogen in manure from poultry, 2007 using total upstream accumulation.
Mueller et al. 2013
0
19095233.72
kilograms per upstream catchment
POULTP_2007_TOT
Kilograms phosphorus in manure from poultry, 2007 using total upstream accumulation.
Mueller et al. 2013
0
6562806.388
kilograms per upstream catchment
TOTN_2007_TOT
Total kilograms nitrogen from manure, 2007 using total upstream accumulation.
Mueller et al. 2013
0
94006697.44
kilograms per upstream catchment
TOTP_2007_TOT
Total kilograms phosphorus from manure, 2007 using total upstream accumulation.
Mueller et al. 2013
0
24207952.41
kilograms per upstream catchment
CATN_2012_TOT
Kilograms nitrogen in manure from cattle, 2012 using total upstream accumulation.
Mueller et al. 2013
0
61931690.22
kilograms per upstream catchment
CATP_2012_TOT
Kilograms phosphorus in manure from cattle, 2012 using total upstream accumulation.
Mueller et al. 2013
0
13009611.87
kilograms per upstream catchment
HOGN_2012_TOT
Kilograms nitrogen in manure from hogs, 2012 using total upstream accumulation.
Mueller et al. 2013
0
8791995.993
kilograms per upstream catchment
HOGP_2012_TOT
Kilograms phosphorus in manure from hogs, 2012 using total upstream accumulation.
Mueller et al. 2013
0
3907553.838
kilograms per upstream catchment
OTHN_2012_TOT
Kilograms nitrogen in manure from other animals, 2012 using total upstream accumulation.
Mueller et al. 2013
0
3802727.049
kilograms per upstream catchment
OTHP_2012_TOT
Kilograms phosphorus in manure from other animals, 2012 using total upstream accumulation.
Mueller et al. 2013
0
659080.2287
kilograms per upstream catchment
POULTN_2012_TOT
Kilograms nitrogen in manure from poultry, 2012 using total upstream accumulation.
Mueller et al. 2013
0
22262209.04
kilograms per upstream catchment
POULTP_2012_TOT
Kilograms phosphorus in manure from poultry, 2012 using total upstream accumulation.
Mueller et al. 2013
0
7764499.221
kilograms per upstream catchment
TOTN_2012_TOT
Total kilograms nitrogen from manure, 2012 using total upstream accumulation.
Mueller et al. 2013
0
96788622.3
kilograms per upstream catchment
TOTP_2012_TOT
Total kilograms phosphorus from manure, 2012 using total upstream accumulation.
Mueller et al. 2013
0
25340745.16
kilograms per upstream catchment
24d2001_TOT
Kilograms of 24-d applied in 2001 using total upstream accumulation.
Baker and Stone 2015
0
672354.8177
kilograms per upstream catchment
24d2003_TOT
Kilograms of 24-d applied in 2003 using total upstream accumulation.
Baker and Stone 2015
0
1787245.912
kilograms per upstream catchment
24d2004_TOT
Kilograms of 24-d applied in 2004 using total upstream accumulation.
Baker and Stone 2015
0
91730.22482
kilograms per upstream catchment
24d2005_TOT
Kilograms of 24-d applied in 2005 using total upstream accumulation.
Baker and Stone 2015
0
80177.13315
kilograms per upstream catchment
24d2006_TOT
Kilograms of 24-d applied in 2006 using total upstream accumulation.
Baker and Stone 2015
0
50749.39685
kilograms per upstream catchment
24d2007_TOT
Kilograms of 24-d applied in 2007 using total upstream accumulation.
Baker and Stone 2015
0
115071.4435
kilograms per upstream catchment
24d2008_TOT
Kilograms of 24-d applied in 2008 using total upstream accumulation.
Baker and Stone 2015
0
56230.1565
kilograms per upstream catchment
24d2009_TOT
Kilograms of 24-d applied in 2009 using total upstream accumulation.
Baker and Stone 2015
0
52853.08631
kilograms per upstream catchment
24d2010_TOT
Kilograms of 24-d applied in 2010 using total upstream accumulation.
Baker and Stone 2015
0
71048.72041
kilograms per upstream catchment
24d2011_TOT
Kilograms of 24-d applied in 2011 using total upstream accumulation.
Baker and Stone 2015
0
85851.49731
kilograms per upstream catchment
24d2012_TOT
Kilograms of 24-d applied in 2012
Baker and Stone 2015
0
74187.78926
kilograms per upstream catchment
24d2013_TOT
Kilograms of 24-d applied in 2013 using total upstream accumulation.
Baker and Stone 2015
0
106623.7339
kilograms per upstream catchment
24d2014_TOT
Kilograms of 24-d applied in 2014 using total upstream accumulation.
Baker and Stone 2015
0
118002.9698
kilograms per upstream catchment
24d2015_TOT
Kilograms of 24-d applied in 2015 using total upstream accumulation.
Baker and Stone 2015
0
83816.14583
kilograms per upstream catchment
atrazine2001_TOT
Kilograms of atrazine applied in 2001 using total upstream accumulation.
Baker and Stone 2015
0
245946.5378
kilograms per upstream catchment
atrazine2003_TOT
Kilograms of atrazine applied in 2003 using total upstream accumulation.
Baker and Stone 2015
0
211785.7233
kilograms per upstream catchment
atrazine2004_TOT
Kilograms of atrazine applied in 2004 using total upstream accumulation.
Baker and Stone 2015
0
467766.9167
kilograms per upstream catchment
atrazine2005_TOT
Kilograms of atrazine applied in 2005 using total upstream accumulation.
Baker and Stone 2015
0
440532.3984
kilograms per upstream catchment
atrazine2006_TOT
Kilograms of atrazine applied in 2006 using total upstream accumulation.
Baker and Stone 2015
0
558975.2207
kilograms per upstream catchment
atrazine2007_TOT
Kilograms of atrazine applied in 2007 using total upstream accumulation.
Baker and Stone 2015
0
471002.3537
kilograms per upstream catchment
atrazine2008_TOT
Kilograms of atrazine applied in 2008 using total upstream accumulation.
Baker and Stone 2015
0
305970.4041
kilograms per upstream catchment
atrazine2009_TOT
Kilograms of atrazine applied in 2009 using total upstream accumulation.
Baker and Stone 2015
0
390705.0092
kilograms per upstream catchment
atrazine2010_TOT
Kilograms of atrazine applied in 2010 using total upstream accumulation.
Baker and Stone 2015
0
364592.317
kilograms per upstream catchment
atrazine2011_TOT
Kilograms of atrazine applied in 2011 using total upstream accumulation.
Baker and Stone 2015
0
340644.3996
kilograms per upstream catchment
atrazine2012_TOT
Kilograms of atrazine applied in 2012 using total upstream accumulation.
Baker and Stone 2015
0
396606.5447
kilograms per upstream catchment
atrazine2013_TOT
Kilograms of atrazine applied in 2013 using total upstream accumulation.
Baker and Stone 2015
0
422828.5332
kilograms per upstream catchment
atrazine2014_TOT
Kilograms of atrazine applied in 2014 using total upstream accumulation.
Baker and Stone 2015
0
428825.4762
kilograms per upstream catchment
atrazine2015_TOT
Kilograms of atrazine applied in 2015 using total upstream accumulation.
Baker and Stone 2015
0
322082.2659
kilograms per upstream catchment
bif2001_TOT
Kilograms of bifenthrin applied in 2001 using total upstream accumulation.
Baker and Stone 2015
0
369.789678
kilograms per upstream catchment
bif2003_TOT
Kilograms of bifenthrin applied in 2003 using total upstream accumulation.
Baker and Stone 2015
0
1292.079626
kilograms per upstream catchment
bif2004_TOT
Kilograms of bifenthrin applied in 2004 using total upstream accumulation.
Baker and Stone 2015
0
7142.277749
kilograms per upstream catchment
bif2005_TOT
Kilograms of bifenthrin applied in 2005 using total upstream accumulation.
Baker and Stone 2015
0
908.940503
kilograms per upstream catchment
bif2006_TOT
Kilograms of bifenthrin applied in 2006 using total upstream accumulation.
Baker and Stone 2015
0
1747.766362
kilograms per upstream catchment
bif2007_TOT
Kilograms of bifenthrin applied in 2007 using total upstream accumulation.
Baker and Stone 2015
0
582.679796
kilograms per upstream catchment
bif2008_TOT
Kilograms of bifenthrin applied in 2008 using total upstream accumulation.
Baker and Stone 2015
0
408.454415
kilograms per upstream catchment
bif2009_TOT
Kilograms of bifenthrin applied in 2009 using total upstream accumulation.
Baker and Stone 2015
0
1364.339816
kilograms per upstream catchment
bif2010_TOT
Kilograms of bifenthrin applied in 2010 using total upstream accumulation.
Baker and Stone 2015
0
2052.397381
kilograms per upstream catchment
bif2011_TOT
Kilograms of bifenthrin applied in 2011 using total upstream accumulation.
Baker and Stone 2015
0
2319.178573
kilograms per upstream catchment
bif2012_TOT
Kilograms of bifenthrin applied in 2012 using total upstream accumulation.
Baker and Stone 2015
0
4234.204201
kilograms per upstream catchment
bif2013_TOT
Kilograms of bifenthrin applied in 2013 using total upstream accumulation.
Baker and Stone 2015
0
4715.825959
kilograms per upstream catchment
bif2014_TOT
Kilograms of bifenthrin applied in 2014 using total upstream accumulation.
Baker and Stone 2015
0
2576.735351
kilograms per upstream catchment
bif2015_TOT
Kilograms of bifenthrin applied in 2015 using total upstream accumulation.
Baker and Stone 2015
0
2291.120824
kilograms per upstream catchment
fipronil2001_TOT
Kilograms of fipronil applied in 2001 using total upstream accumulation.
Baker and Stone 2015
0
581.44211
kilograms per upstream catchment
fipronil2003_TOT
Kilograms of fipronil applied in 2003 using total upstream accumulation.
Baker and Stone 2015
0
777.204
kilograms per upstream catchment
fipronil2004_TOT
Kilograms of fipronil applied in 2004 using total upstream accumulation.
Baker and Stone 2015
0
2594.420822
kilograms per upstream catchment
fipronil2005_TOT
Kilograms of fipronil applied in 2005 using total upstream accumulation.
Baker and Stone 2015
0
0.764256
kilograms per upstream catchment
fipronil2008_TOT
Kilograms of fipronil applied in 2008 using total upstream accumulation.
Baker and Stone 2015
0
0.59367
kilograms per upstream catchment
fipronil2012_TOT
Kilograms of fipronil applied in 2012 using total upstream accumulation.
Baker and Stone 2015
0
151.308364
kilograms per upstream catchment
fipronil2013_TOT
Kilograms of fipronil applied in 2013 using total upstream accumulation.
Baker and Stone 2015
0
67.548366
kilograms per upstream catchment
fipronil2014_TOT
Kilograms of fipronil applied in 2014 using total upstream accumulation.
Baker and Stone 2015
0
0.977267
kilograms per upstream catchment
fipronil2015_TOT
Kilograms of fipronil applied in 2015 using total upstream accumulation.
Baker and Stone 2015
0
153.952657
kilograms per upstream catchment
glyphosate2001_TOT
Kilograms of glyphosate applied in 2001 using total upstream accumulation.
Baker and Stone 2015
0
1319282.699
kilograms per upstream catchment
glyphosate2003_TOT
Kilograms of glyphosate applied in 2003 using total upstream accumulation.
Baker and Stone 2015
0
2037688.895
kilograms per upstream catchment
glyphosate2004_TOT
Kilograms of glyphosate applied in 2004 using total upstream accumulation.
Baker and Stone 2015
0
276387.6275
kilograms per upstream catchment
glyphosate2005_TOT
Kilograms of glyphosate applied in 2005 using total upstream accumulation.
Baker and Stone 2015
0
339798.8111
kilograms per upstream catchment
glyphosate2006_TOT
Kilograms of glyphosate applied in 2006 using total upstream accumulation.
Baker and Stone 2015
0
374717.0972
kilograms per upstream catchment
glyphosate2007_TOT
Kilograms of glyphosate applied in 2007 using total upstream accumulation.
Baker and Stone 2015
0
1362671.671
kilograms per upstream catchment
glyphosate2008_TOT
Kilograms of glyphosate applied in 2008 using total upstream accumulation.
Baker and Stone 2015
0
449355.117
kilograms per upstream catchment
glyphosate2009_TOT
Kilograms of glyphosate applied in 2009 using total upstream accumulation.
Baker and Stone 2015
0
590374.9151
kilograms per upstream catchment
glyphosate2010_TOT
Kilograms of glyphosate applied in 2010 using total upstream accumulation.
Baker and Stone 2015
0
601597.4398
kilograms per upstream catchment
glyphosate2011_TOT
Kilograms of glyphosate applied in 2011 using total upstream accumulation.
Baker and Stone 2015
0
604632.8964
kilograms per upstream catchment
glyphosate2012_TOT
Kilograms of glyphosate applied in 2012 using total upstream accumulation.
Baker and Stone 2015
0
724416.5311
kilograms per upstream catchment
glyphosate2013_TOT
Kilograms of glyphosate applied in 2013 using total upstream accumulation.
Baker and Stone 2015
0
752395.332
kilograms per upstream catchment
glyphosate2014_TOT
Kilograms of glyphosate applied in 2014 using total upstream accumulation.
Baker and Stone 2015
0
826315.598
kilograms per upstream catchment
glyphosate2015_TOT
Kilograms of glyphosate applied in 2015 using total upstream accumulation.
Baker and Stone 2015
0
770548.0718
kilograms per upstream catchment
imidacloprid2001_TOT
Kilograms of imidacloprid applied in 2001 using total upstream accumulation.
Baker and Stone 2015
0
498.483439
kilograms per upstream catchment
imidacloprid2003_TOT
Kilograms of imidacloprid applied in 2003 using total upstream accumulation.
Baker and Stone 2015
0
355.659988
kilograms per upstream catchment
imidacloprid2004_TOT
Kilograms of imidacloprid applied in 2004 using total upstream accumulation.
Baker and Stone 2015
0
890.823788
kilograms per upstream catchment
imidacloprid2005_TOT
Kilograms of imidacloprid applied in 2005 using total upstream accumulation.
Baker and Stone 2015
0
1162.101559
kilograms per upstream catchment
imidacloprid2006_TOT
Kilograms of imidacloprid applied in 2006 using total upstream accumulation.
Baker and Stone 2015
0
1214.766674
kilograms per upstream catchment
imidacloprid2007_TOT
Kilograms of imidacloprid applied in 2007 using total upstream accumulation.
Baker and Stone 2015
0
1467.998513
kilograms per upstream catchment
imidacloprid2008_TOT
Kilograms of imidacloprid applied in 2008 using total upstream accumulation.
Baker and Stone 2015
0
1251.401874
kilograms per upstream catchment
imidacloprid2009_TOT
Kilograms of imidacloprid applied in 2009 using total upstream accumulation.
Baker and Stone 2015
0
1502.523202
kilograms per upstream catchment
imidacloprid2010_TOT
Kilograms of imidacloprid applied in 2010 using total upstream accumulation.
Baker and Stone 2015
0
2441.347833
kilograms per upstream catchment
imidacloprid2011_TOT
Kilograms of imidacloprid applied in 2011 using total upstream accumulation.
Baker and Stone 2015
0
3042.572203
kilograms per upstream catchment
imidacloprid2012_TOT
Kilograms of imidacloprid applied in 2012 using total upstream accumulation.
Baker and Stone 2015
0
6014.223943
kilograms per upstream catchment
imidacloprid2013_TOT
Kilograms of imidacloprid applied in 2013 using total upstream accumulation.
Baker and Stone 2015
0
3626.924316
kilograms per upstream catchment
imidacloprid2014_TOT
Kilograms of imidacloprid applied in 2014 using total upstream accumulation.
Baker and Stone 2015
0
7213.040985
kilograms per upstream catchment
imidacloprid2015_TOT
Kilograms of imidacloprid applied in 2015 using total upstream accumulation.
Baker and Stone 2015
0
1702.823753
kilograms per upstream catchment
metalaxyl2006_TOT
Kilograms of metalaxyl applied in 2006 using total upstream accumulation.
Baker and Stone 2015
0
0.720988
kilograms per upstream catchment
metalaxyl2008_TOT
Kilograms of metalaxyl applied in 2008 using total upstream accumulation.
Baker and Stone 2015
0
0.177247
kilograms per upstream catchment
metalaxyl2009_TOT
Kilograms of metalaxyl applied in 2009 using total upstream accumulation.
Baker and Stone 2015
0
0.960413
kilograms per upstream catchment
metalaxyl2010_TOT
Kilograms of metalaxyl applied in 2010 using total upstream accumulation.
Baker and Stone 2015
0
6.167726
kilograms per upstream catchment
metalaxyl2011_TOT
Kilograms of metalaxyl applied in 2011 using total upstream accumulation.
Baker and Stone 2015
0
352.975624
kilograms per upstream catchment
metalaxyl2012_TOT
Kilograms of metalaxyl applied in 2012 using total upstream accumulation.
Baker and Stone 2015
0
307.836356
kilograms per upstream catchment
metalaxyl2013_TOT
Kilograms of metalaxyl applied in 2013 using total upstream accumulation.
Baker and Stone 2015
0
363.242629
kilograms per upstream catchment
metalaxyl2014_TOT
Kilograms of metalaxyl applied in 2014 using total upstream accumulation.
Baker and Stone 2015
0
888.324838
kilograms per upstream catchment
metolachlor2001_TOT
Kilograms of Metolachlor applied in 2001 using total upstream accumulation.
Baker and Stone 2015
0
44555.95415
kilograms per upstream catchment
metolachlor2003_TOT
Kilograms of Metolachlor applied in 2003 using total upstream accumulation.
Baker and Stone 2015
0
895.002257
kilograms per upstream catchment
metolachlor2004_TOT
Kilograms of Metolachlor applied in 2004 using total upstream accumulation.
Baker and Stone 2015
0
510.984504
kilograms per upstream catchment
metolachlor2005_TOT
Kilograms of Metolachlor applied in 2005 using total upstream accumulation.
Baker and Stone 2015
0
19335.03284
kilograms per upstream catchment
metolachlor2006_TOT
Kilograms of Metolachlor applied in 2006 using total upstream accumulation.
Baker and Stone 2015
0
12973.6696
kilograms per upstream catchment
metolachlor2007_TOT
Kilograms of Metolachlor applied in 2007 using total upstream accumulation.
Baker and Stone 2015
0
960.146286
kilograms per upstream catchment
metolachlor2008_TOT
Kilograms of Metolachlor applied in 2008 using total upstream accumulation.
Baker and Stone 2015
0
71559.87156
kilograms per upstream catchment
metolachlor2009_TOT
Kilograms of Metolachlor applied in 2009 using total upstream accumulation.
Baker and Stone 2015
0
31226.124
kilograms per upstream catchment
metolachlor2010_TOT
Kilograms of Metolachlor applied in 2010 using total upstream accumulation.
Baker and Stone 2015
0
18727.07769
kilograms per upstream catchment
metolachlor2011_TOT
Kilograms of Metolachlor applied in 2011 using total upstream accumulation.
Baker and Stone 2015
0
62836.98083
kilograms per upstream catchment
metolachlor2012_TOT
Kilograms of Metolachlor applied in 2012 using total upstream accumulation.
Baker and Stone 2015
0
114063.9607
kilograms per upstream catchment
metolachlor2013_TOT
Kilograms of Metolachlor applied in 2013 using total upstream accumulation.
Baker and Stone 2015
0
69263.82406
kilograms per upstream catchment
metolachlor2014_TOT
Kilograms of Metolachlor applied in 2014 using total upstream accumulation.
Baker and Stone 2015
0
123033.5891
kilograms per upstream catchment
metolachlor2015_TOT
Kilograms of Metolachlor applied in 2015 using total upstream accumulation.
Baker and Stone 2015
0
56504.05653
kilograms per upstream catchment
simazine2001_TOT
Kilograms of Simazine applied in 2001 using total upstream accumulation.
Baker and Stone 2015
0
17014.72136
kilograms per upstream catchment
simazine2003_TOT
Kilograms of Simazine applied in 2003 using total upstream accumulation.
Baker and Stone 2015
0
55510.12186
kilograms per upstream catchment
simazine2004_TOT
Kilograms of Simazine applied in 2004 using total upstream accumulation.
Baker and Stone 2015
0
72672.6522
kilograms per upstream catchment
simazine2005_TOT
Kilograms of Simazine applied in 2005 using total upstream accumulation.
Baker and Stone 2015
0
95402.22824
kilograms per upstream catchment
simazine2006_TOT
Kilograms of Simazine applied in 2006 using total upstream accumulation.
Baker and Stone 2015
0
58319.19092
kilograms per upstream catchment
simazine2007_TOT
Kilograms of Simazine applied in 2007 using total upstream accumulation.
Baker and Stone 2015
0
81532.06923
kilograms per upstream catchment
simazine2008_TOT
Kilograms of Simazine applied in 2008 using total upstream accumulation.
Baker and Stone 2015
0
120016.4655
kilograms per upstream catchment
simazine2009_TOT
Kilograms of Simazine applied in 2009 using total upstream accumulation.
Baker and Stone 2015
0
43007.40542
kilograms per upstream catchment
simazine2010_TOT
Kilograms of Simazine applied in 2010 using total upstream accumulation.
Baker and Stone 2015
0
57654.58178
kilograms per upstream catchment
simazine2011_TOT
Kilograms of Simazine applied in 2011 using total upstream accumulation.
Baker and Stone 2015
0
53444.99072
kilograms per upstream catchment
simazine2012_TOT
Kilograms of Simazine applied in 2012 using total upstream accumulation.
Baker and Stone 2015
0
80892.42634
kilograms per upstream catchment
simazine2013_TOT
Kilograms of Simazine applied in 2013 using total upstream accumulation.
Baker and Stone 2015
0
71474.07799
kilograms per upstream catchment
simazine2014_TOT
Kilograms of Simazine applied in 2014 using total upstream accumulation.
Baker and Stone 2015
0
144675.8007
kilograms per upstream catchment
simazine2015_TOT
Kilograms of Simazine applied in 2015 using total upstream accumulation.
Baker and Stone 2015
0
75135.84434
kilograms per upstream catchment
thiamethoxam2001_TOT
Kilograms of Thiamethoxam applied in 2001 using total upstream accumulation.
Baker and Stone 2015
0
0.954575
kilograms per upstream catchment
thiamethoxam2003_TOT
Kilograms of Thiamethoxam applied in 2003 using total upstream accumulation.
Baker and Stone 2015
0
263.651898
kilograms per upstream catchment
thiamethoxam2004_TOT
Kilograms of Thiamethoxam applied in 2004 using total upstream accumulation.
Baker and Stone 2015
0
747.009117
kilograms per upstream catchment
thiamethoxam2005_TOT
Kilograms of Thiamethoxam applied in 2005 using total upstream accumulation.
Baker and Stone 2015
0
2597.681128
kilograms per upstream catchment
thiamethoxam2006_TOT
Kilograms of Thiamethoxam applied in 2006 using total upstream accumulation.
Baker and Stone 2015
0
1071.349456
kilograms per upstream catchment
thiamethoxam2007_TOT
Kilograms of Thiamethoxam applied in 2007 using total upstream accumulation.
Baker and Stone 2015
0
1087.510614
kilograms per upstream catchment
thiamethoxam2008_TOT
Kilograms of Thiamethoxam applied in 2008 using total upstream accumulation.
Baker and Stone 2015
0
1986.575176
kilograms per upstream catchment
thiamethoxam2009_TOT
Kilograms of Thiamethoxam applied in 2009 using total upstream accumulation.
Baker and Stone 2015
0
1709.203847
kilograms per upstream catchment
thiamethoxam2010_TOT
Kilograms of Thiamethoxam applied in 2010 using total upstream accumulation.
Baker and Stone 2015
0
2692.433851
kilograms per upstream catchment
thiamethoxam2011_TOT
Kilograms of Thiamethoxam applied in 2011 using total upstream accumulation.
Baker and Stone 2015
0
3114.005468
kilograms per upstream catchment
thiamethoxam2012_TOT
Kilograms of Thiamethoxam applied in 2012 using total upstream accumulation.
Baker and Stone 2015
0
4229.183655
kilograms per upstream catchment
thiamethoxam2013_TOT
Kilograms of Thiamethoxam applied in 2013 using total upstream accumulation.
Baker and Stone 2015
0
4235.936032
kilograms per upstream catchment
thiamethoxam2014_TOT
Kilograms of Thiamethoxam applied in 2014 using total upstream accumulation.
Baker and Stone 2015
0
4323.722717
kilograms per upstream catchment
thiamethoxam2015_TOT
Kilograms of Thiamethoxam applied in 2015
Baker and Stone 2015
0
205.827023
kilograms per upstream catchment
EDC_V9_DIV_Sciencebase_v2.csv
comma separated tabular data
U.S. Geological Survey
FEATUREID
Unique ID to relate to each NHDPlus Version 2.1 catchment (FEATUREID) and flow line (COMID).
http://nhd.usgs.gov/NHDDataDictionary_model2.0.pdf
Unique numbers that are automatically generated.
EPA_septic_active_DIV
Number of active EPA reported septic facilities per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
0
2230
count
EPA_septic_abd_DIV
Number of abandoned EPA reported septic facilities per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
0
2
count
EPA_septic_pl_abd_DIV
Number of plugged and abandoned EPA reported septic facilities per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
0
53
count
EPA_septic_total_DIV
Total number of EPA reported septic facilities per usptream catchment. These are large scale septic systems that might be used for non-sanitary purposes, primarily at industrial and automotive types of areas; these septic systems serve more than 20 persons as injection wells under the underground injection control (UIC) program using divergent routed accumulation.
U.S. Geological Survey
0
2283
count
CSO_Count_DIV
Count of Combined Sewer Overflows (CSOs) per usptream catchment using divergent routed accumulation.
U.S. Geological Survey.
1
541
count
ND denotes catchments with no reported Combined Sewer Overflows (CSOs).
FRS_Count_DIV
Count of Facility Registry Service (FRS) facilities per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
0
27875
count
TRI_Count_DIV
Count of Toxic Release Inventory (TRI) facilities per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
0
420
count
DMR_All_DIV
Number of all Discharge Monitoring Report (DMR) outfall monitoring locations per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
0
1226
count
DMR_Fed_DIV
Number of Federal Discharge Monitoring Report (DMR) outfall monitoring locations per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
0
72
count
DMR_POTW_DIV
Number of Publicly Owned Treatment Works (POTW) Discharge Monitoring Report (DMR) outfall monitoring locations per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
0
234
count
DMR_nonPOTW_DIV
Number of non-Publicly Owned Treatment Works (non-POTW) Discharge Monitoring Report (DMR) outfall monitoring locations per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
0
920
count
Septic_Num_DIV
Number of septic facilities per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
0
558968
count
CAFO_COW_TOT_DIV
Number of Confined Animal Feeding Operation (CAFO) cows per usptream catchment, including dairy, cattle, heifers, steer, veal, and steer using divergent routed accumulation.
U.S. Geological Survey
0
159964
animal headcount
CAFO_SWINE_TOT_DIV
Number of Confined Animal Feeding Operation (CAFO) swine per usptream catchment including swine, hogs, AEU (animal equivalent units) swine, and finishing swine using divergent routed accumulation.
U.S. Geological Survey
0
662611
animal headcount
CAFO_POULT_TOT_DIV
Number of Confined Animal Feeding Operation (CAFO) poultry per usptream catchment including poultry, breeders, turkeys, duck, pullets, and layers using divergent routed accumulation.
U.S. Geological Survey
0
44808508
animal headcount
CAFO_OTH_TOT_DIV
Number of Confined Animal Feeding Operation (CAFO) "other" animals per usptream catchment including horse, ponies, and goats using divergent routed accumulation.
U.S. Geological Survey
0
26880
animal headcount
CAFO_ALL_TOT_DIV
Total number of Confined Animal Feeding Operation (CAFO) animals per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
74
44975936
animal headcount
bioskg_2003n_DIV
Kilograms nitrogen from biosolids 2003 using divergent routed accumulation.
U.S. Geological Survey
0
102220.3
kilograms per usptream catchment
bioskg_2003p_DIV
Kilograms phosphorus from biosolids 2003 using divergent routed accumulation.
U.S. Geological Survey
0
34573.01
kilograms per usptream catchment
bioskg_2004n_DIV
Kilograms nitrogen from biosolids 2004 using divergent routed accumulation.
U.S. Geological Survey
0
89688.1
kilograms per usptream catchment
bioskg_2004p_DIV
Kilograms phosphorus from biosolids 2004 using divergent routed accumulation.
U.S. Geological Survey
0
30334.33
kilograms per usptream catchment
bioskg_2005n_DIV
Kilograms nitrogen from biosolids 2005 using divergent routed accumulation.
U.S. Geological Survey
0
94128.93
kilograms per usptream catchment
bioskg_2005p_DIV
Kilograms phosphorus from biosolids 2005 using divergent routed accumulation.
U.S. Geological Survey
0
31836.58
kilograms per usptream catchment
bioskg_2006n_DIV
Kilograms nitrogen from biosolids 2006 using divergent routed accumulation.
U.S. Geological Survey
0
97063.01
kilograms per usptream catchment
bioskg_2006p_DIV
Kilograms phosphorus from biosolids 2006 using divergent routed accumulation.
U.S. Geological Survey
0
32828.89
kilograms per usptream catchment
bioskg_2007n_DIV
Kilograms nitrogen from biosolids 2007 using divergent routed accumulation.
U.S. Geological Survey
0
94430.12
kilograms per usptream catchment
bioskg_2007p_DIV
Kilograms phosphorus from biosolids 2007 using divergent routed accumulation.
U.S. Geological Survey
0
31938.07
kilograms per usptream catchment
bioskg_2008n_DIV
Kilograms nitrogen from biosolids 2008 using divergent routed accumulation.
U.S. Geological Survey
0
107614.8
kilograms per usptream catchment
bioskg_2008p_DIV
Kilograms phosphorus from biosolids 2008 using divergent routed accumulation.
U.S. Geological Survey
0
36397.56
kilograms per usptream catchment
bioskg_2009n_DIV
Kilograms nitrogen from biosolids 2009 using divergent routed accumulation.
U.S. Geological Survey
0
106306.9
kilograms per usptream catchment
bioskg_2009p_DIV
Kilograms phosphorus from biosolids 2009 using divergent routed accumulation.
U.S. Geological Survey
0
35955.18
kilograms per usptream catchment
bioskg_2010n_DIV
Kilograms nitrogen from biosolids 2010 using divergent routed accumulation.
U.S. Geological Survey
0
87120.23
kilograms per usptream catchment
bioskg_2010p_DIV
Kilograms phosphorus from biosolids 2010 using divergent routed accumulation.
U.S. Geological Survey
0
29466.04
kilograms per usptream catchment
bioskg_2011n_DIV
Kilograms nitrogen from biosolids 2011 using divergent routed accumulation.
U.S. Geological Survey
0
89244.39
kilograms per usptream catchment
bioskg_2011p_DIV
Kilograms phosphorus from biosolids 2011 using divergent routed accumulation.
U.S. Geological Survey
0
30184.24
kilograms per usptream catchment
bioskg_2012n_DIV
Kilograms nitrogen from biosolids 2012 using divergent routed accumulation.
U.S. Geological Survey
0
92679.26
kilograms per usptream catchment
bioskg_2012p_DIV
Kilograms phosphorus from biosolids 2012 using divergent routed accumulation.
U.S. Geological Survey
0
31346.27
kilograms per usptream catchment
bioskg_2013n_DIV
Kilograms nitrogen from biosolids 2013 using divergent routed accumulation.
U.S. Geological Survey
0
77305.11
kilograms per usptream catchment
bioskg_2013p_DIV
Kilograms phosphorus from biosolids 2013 using divergent routed accumulation.
U.S. Geological Survey
0
26146.07
kilograms per usptream catchment
CDL2002_phyto_DIV
Percent high-phytoestrogen plant crop cover per usptream catchment in 2002 using divergent routed accumulation.
U.S. Geological Survey
0
100
percent
CDL2008_phyto_DIV
Percent high-phytoestrogen plant crop cover per usptream catchment in 2008 using divergent routed accumulation.
U.S. Geological Survey
0
91.44
percent
CDL2009_phyto_DIV
Percent high-phytoestrogen plant crop cover per usptream catchment in 2009 using divergent routed accumulation.
U.S. Geological Survey
0
92.17
percent
CDL2010_phyto_DIV
Percent high-phytoestrogen plant crop cover per usptream catchment in 2010 using divergent routed accumulation.
U.S. Geological Survey
0
99.71
percent
CDL2011_phyto_DIV
Percent high-phytoestrogen plant crop cover per usptream catchment in 2011 using divergent routed accumulation.
U.S. Geological Survey
0
86.96
percent
CDL2012_phyto_DIV
Percent high-phytoestrogen plant crop cover per usptream catchment in 2012 using divergent routed accumulation.
U.S. Geological Survey
0
98.99
percent
CDL2013_phyto_DIV
Percent high-phytoestrogen plant crop cover per usptream catchment in 2013 using divergent routed accumulation.
U.S. Geological Survey
0
91.86
percent
CDL2014_phyto_DIV
Percent high-phytoestrogen plant crop cover per usptream catchment in 2014 using divergent routed accumulation.
U.S. Geological Survey
0
92.28
percent
CDL2015_phyto_DIV
Percent high-phytoestrogen plant crop cover per usptream catchment in 2015 using divergent routed accumulation.
U.S. Geological Survey
0
93.95
percent
CDL2016_phyto_DIV
Percent high-phytoestrogen plant crop cover per usptream catchment in 2016 using divergent routed accumulation.
U.S. Geological Survey
0
92.62
percent
hg2003_DIV
Micrograms of mercury deposited from the atmosphere for 2003 using divergent routed accumulation.
U.S. Geological Survey
1224.028
759000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
hg2004_DIV
Micrograms of mercury deposited from the atmosphere for 2004 using divergent routed accumulation.
U.S. Geological Survey
141.2329
732000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
hg2005_DIV
Micrograms of mercury deposited from the atmosphere for 2005 using divergent routed accumulation.
U.S. Geological Survey
115.4399
496000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
hg2006_DIV
Micrograms of mercury deposited from the atmosphere for 2006 using divergent routed accumulation.
U.S. Geological Survey
118.2708
624000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
hg2007_DIV
Micrograms of mercury deposited from the atmosphere for 2007 using divergent routed accumulation.
U.S. Geological Survey
106.0033
584000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
hg2008_DIV
Micrograms of mercury deposited from the atmosphere for 2008 using divergent routed accumulation.
U.S. Geological Survey
1323.657
615000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
hg2009_DIV
Micrograms of mercury deposited from the atmosphere for 2009 using divergent routed accumulation.
U.S. Geological Survey
1530.243
460000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
hg2010_DIV
Micrograms of mercury deposited from the atmosphere for 2010 using divergent routed accumulation.
U.S. Geological Survey
1136.424
467000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
hg2011_DIV
Micrograms of mercury deposited from the atmosphere for 2011 using divergent routed accumulation.
U.S. Geological Survey
1266.482
736000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
hg2012_DIV
Micrograms of mercury deposited from the atmosphere for 2012 using divergent routed accumulation.
U.S. Geological Survey
486.7887
555000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
hg2013_DIV
Micrograms of mercury deposited from the atmosphere for 2013 using divergent routed accumulation.
U.S. Geological Survey
377.4711
508000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
hg2014_DIV
Micrograms of mercury deposited from the atmosphere for 2014 using divergent routed accumulation.
U.S. Geological Survey
400.0504
575000000000.00
micrograms per usptream catchment
ND denotes catchments with no mercury deposition data available.
Landfill_Count_DIV
Number of landfills per usptream catchment using divergent routed accumulation.
U.S. Geological Survey
1
463
count
ND denotes catchments with no reported landfills.
CATN_2002_DIV
Kilograms nitrogen in manure from cattle, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
64416899
kilograms per usptream catchment
CATP_2002_DIV
Kilograms phosphorus in manure from cattle, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
13429064
kilograms per usptream catchment
CONN_2002_DIV
Kilograms of nitrogen in manure from confined livestock, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
72664509
kilograms per usptream catchment
CONP_2002_DIV
Kilograms of phosphorus in manure from confined livestock, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
18878723
kilograms per usptream catchment
HOGN_2002_DIV
Kilograms nitrogen in manure from hogs, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
9702122
kilograms per usptream catchment
HOGP_2002_DIV
Kilograms phosphorus in manure from hogs, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
4312054
kilograms per usptream catchment
OTHN_2002_DIV
Kilograms nitrogen in manure from other animals, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
3760523
kilograms per usptream catchment
OTHP_2002_DIV
Kilograms phosphorus in manure from other animals, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
651805
kilograms per usptream catchment
POULTN_2002_DIV
Kilograms nitrogen in manure from poultry, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
23234368
kilograms per usptream catchment
POULTP_2002_DIV
Kilograms phosphorus in manure from poultry, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
7579226
kilograms per usptream catchment
TOTN_2002_DIV
Total kilograms nitrogen from manure, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
96024774
kilograms per usptream catchment
TOTP_2002_DIV
Total kilograms phosphorus from manure, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
24814709
kilograms per usptream catchment
UNCONN_2002_DIV
Kilograms of nitrogen in manure from unconfined livestock, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
23360267
kilograms per usptream catchment
UNCONP_2002_DIV
Kilograms of phosphorus in manure from unconfined livestock, 2002 using divergent routed accumulation.
Mueller et al. 2013
0
5935991
kilograms per usptream catchment
CATN_2007_DIV
Kilograms nitrogen in manure from cattle, 2007 using divergent routed accumulation.
Mueller et al. 2013
0
62180079
kilograms per usptream catchment
CATP_2007_DIV
Kilograms phosphorus in manure from cattle, 2007 using divergent routed accumulation.
Mueller et al. 2013
0
12997645
kilograms per usptream catchment
HOGN_2007_DIV
Kilograms nitrogen in manure from hogs, 2007 using divergent routed accumulation.
Mueller et al. 2013
0
9002925
kilograms per usptream catchment
HOGP_2007_DIV
Kilograms phosphorus in manure from hogs, 2007 using divergent routed accumulation.
Mueller et al. 2013
0
4001298
kilograms per usptream catchment
OTHN_2007_DIV
Kilograms nitrogen in manure from other animals, 2007 using divergent routed accumulation.
Mueller et al. 2013
0
3728460
kilograms per usptream catchment
OTHP_2007_DIV
Kilograms phosphorus in manure from other animals, 2007 using divergent routed accumulation.
Mueller et al. 2013
0
646201.4
kilograms per usptream catchment
POULTN_2007_DIV
Kilograms nitrogen in manure from poultry, 2007 using divergent routed accumulation.
Mueller et al. 2013
0
19095234
kilograms per usptream catchment
POULTP_2007_DIV
Kilograms phosphorus in manure from poultry, 2007 using divergent routed accumulation.
Mueller et al. 2013
0
6562806
kilograms per usptream catchment
TOTN_2007_DIV
Total kilograms nitrogen from manure, 2007 using divergent routed accumulation.
Mueller et al. 2013
0
94006697
kilograms per usptream catchment
TOTP_2007_DIV
Total kilograms phosphorus from manure, 2007 using divergent routed accumulation.
Mueller et al. 2013
0
24207952
kilograms per usptream catchment
CATN_2012_DIV
Kilograms nitrogen in manure from cattle, 2012 using divergent routed accumulation.
Mueller et al. 2013
0
61931690
kilograms per usptream catchment
CATP_2012_DIV
Kilograms phosphorus in manure from cattle, 2012 using divergent routed accumulation.
Mueller et al. 2013
0
13009612
kilograms per usptream catchment
HOGN_2012_DIV
Kilograms nitrogen in manure from hogs, 2012 using divergent routed accumulation.
Mueller et al. 2013
0
8791996
kilograms per usptream catchment
HOGP_2012_DIV
Kilograms phosphorus in manure from hogs, 2012 using divergent routed accumulation.
Mueller et al. 2013
0
3907554
kilograms per usptream catchment
OTHN_2012_DIV
Kilograms nitrogen in manure from other animals, 2012 using divergent routed accumulation.
Mueller et al. 2013
0
3802727
kilograms per usptream catchment
OTHP_2012_DIV
Kilograms phosphorus in manure from other animals, 2012 using divergent routed accumulation.
Mueller et al. 2013
0
659080.2
kilograms per usptream catchment
POULTN_2012_DIV
Kilograms nitrogen in manure from poultry, 2012 using divergent routed accumulation.
Mueller et al. 2013
0
22262209
kilograms per usptream catchment
POULTP_2012_DIV
Kilograms phosphorus in manure from poultry, 2012 using divergent routed accumulation.
Mueller et al. 2013
0
7764499
kilograms per usptream catchment
TOTN_2012_DIV
Total kilograms nitrogen from manure, 2012 using divergent routed accumulation.
Mueller et al. 2013
0
96788622
kilograms per usptream catchment
TOTP_2012_DIV
Total kilograms phosphorus from manure, 2012 using divergent routed accumulation.
Mueller et al. 2013
0
25340745
kilograms per usptream catchment
24d2001_DIV
Kilograms of 24-d applied in 2001 using divergent routed accumulation.
Baker and Stone 2015
0
672354.8
kilograms per usptream catchment
24d2003_DIV
Kilograms of 24-d applied in 2003 using divergent routed accumulation.
Baker and Stone 2015
0
1787246
kilograms per usptream catchment
24d2004_DIV
Kilograms of 24-d applied in 2004 using divergent routed accumulation.
Baker and Stone 2015
0
91730.22
kilograms per usptream catchment
24d2005_DIV
Kilograms of 24-d applied in 2005 using divergent routed accumulation.
Baker and Stone 2015
0
80177.13
kilograms per usptream catchment
24d2006_DIV
Kilograms of 24-d applied in 2006 using divergent routed accumulation.
Baker and Stone 2015
0
50749.4
kilograms per usptream catchment
24d2007_DIV
Kilograms of 24-d applied in 2007 using divergent routed accumulation.
Baker and Stone 2015
0
115071.4
kilograms per usptream catchment
24d2008_DIV
Kilograms of 24-d applied in 2008 using divergent routed accumulation.
Baker and Stone 2015
0
56230.16
kilograms per usptream catchment
24d2009_DIV
Kilograms of 24-d applied in 2009 using divergent routed accumulation.
Baker and Stone 2015
0
52853.09
kilograms per usptream catchment
24d2010_DIV
Kilograms of 24-d applied in 2010 using divergent routed accumulation.
Baker and Stone 2015
0
71048.72
kilograms per usptream catchment
24d2011_DIV
Kilograms of 24-d applied in 2011 using divergent routed accumulation.
Baker and Stone 2015
0
85851.5
kilograms per usptream catchment
24d2012_DIV
Kilograms of 24-d applied in 2012
Baker and Stone 2015
0
74187.79
kilograms per usptream catchment
24d2013_DIV
Kilograms of 24-d applied in 2013 using divergent routed accumulation.
Baker and Stone 2015
0
106623.7
kilograms per usptream catchment
24d2014_DIV
Kilograms of 24-d applied in 2014 using divergent routed accumulation.
Baker and Stone 2015
0
118003
kilograms per usptream catchment
24d2015_DIV
Kilograms of 24-d applied in 2015 using divergent routed accumulation.
Baker and Stone 2015
0
83816.15
kilograms per usptream catchment
atrazine2001_DIV
Kilograms of atrazine applied in 2001 using divergent routed accumulation.
Baker and Stone 2015
0
245946.5
kilograms per usptream catchment
atrazine2003_DIV
Kilograms of atrazine applied in 2003 using divergent routed accumulation.
Baker and Stone 2015
0
211785.7
kilograms per usptream catchment
atrazine2004_DIV
Kilograms of atrazine applied in 2004 using divergent routed accumulation.
Baker and Stone 2015
0
467766.9
kilograms per usptream catchment
atrazine2005_DIV
Kilograms of atrazine applied in 2005 using divergent routed accumulation.
Baker and Stone 2015
0
440532.4
kilograms per usptream catchment
atrazine2006_DIV
Kilograms of atrazine applied in 2006 using divergent routed accumulation.
Baker and Stone 2015
0
558975.2
kilograms per usptream catchment
atrazine2007_DIV
Kilograms of atrazine applied in 2007 using divergent routed accumulation.
Baker and Stone 2015
0
471002.4
kilograms per usptream catchment
atrazine2008_DIV
Kilograms of atrazine applied in 2008 using divergent routed accumulation.
Baker and Stone 2015
0
305970.4
kilograms per usptream catchment
atrazine2009_DIV
Kilograms of atrazine applied in 2009 using divergent routed accumulation.
Baker and Stone 2015
0
390705
kilograms per usptream catchment
atrazine2010_DIV
Kilograms of atrazine applied in 2010 using divergent routed accumulation.
Baker and Stone 2015
0
364592.3
kilograms per usptream catchment
atrazine2011_DIV
Kilograms of atrazine applied in 2011 using divergent routed accumulation.
Baker and Stone 2015
0
340644.4
kilograms per usptream catchment
atrazine2012_DIV
Kilograms of atrazine applied in 2012 using divergent routed accumulation.
Baker and Stone 2015
0
396606.5
kilograms per usptream catchment
atrazine2013_DIV
Kilograms of atrazine applied in 2013 using divergent routed accumulation.
Baker and Stone 2015
0
422828.5
kilograms per usptream catchment
atrazine2014_DIV
Kilograms of atrazine applied in 2014 using divergent routed accumulation.
Baker and Stone 2015
0
428825.5
kilograms per usptream catchment
atrazine2015_DIV
Kilograms of atrazine applied in 2015 using divergent routed accumulation.
Baker and Stone 2015
0
322082.3
kilograms per usptream catchment
bif2001_DIV
Kilograms of bifenthrin applied in 2001 using divergent routed accumulation.
Baker and Stone 2015
0
369.7897
kilograms per usptream catchment
bif2003_DIV
Kilograms of bifenthrin applied in 2003 using divergent routed accumulation.
Baker and Stone 2015
0
1292.08
kilograms per usptream catchment
bif2004_DIV
Kilograms of bifenthrin applied in 2004 using divergent routed accumulation.
Baker and Stone 2015
0
7142.278
kilograms per usptream catchment
bif2005_DIV
Kilograms of bifenthrin applied in 2005 using divergent routed accumulation.
Baker and Stone 2015
0
908.9405
kilograms per usptream catchment
bif2006_DIV
Kilograms of bifenthrin applied in 2006 using divergent routed accumulation.
Baker and Stone 2015
0
1747.766
kilograms per usptream catchment
bif2007_DIV
Kilograms of bifenthrin applied in 2007 using divergent routed accumulation.
Baker and Stone 2015
0
582.6798
kilograms per usptream catchment
bif2008_DIV
Kilograms of bifenthrin applied in 2008 using divergent routed accumulation.
Baker and Stone 2015
0
407.5602
kilograms per usptream catchment
bif2009_DIV
Kilograms of bifenthrin applied in 2009 using divergent routed accumulation.
Baker and Stone 2015
0
1360.207
kilograms per usptream catchment
bif2010_DIV
Kilograms of bifenthrin applied in 2010 using divergent routed accumulation.
Baker and Stone 2015
0
2052.397
kilograms per usptream catchment
bif2011_DIV
Kilograms of bifenthrin applied in 2011 using divergent routed accumulation.
Baker and Stone 2015
0
2319.179
kilograms per usptream catchment
bif2012_DIV
Kilograms of bifenthrin applied in 2012 using divergent routed accumulation.
Baker and Stone 2015
0
4234.204
kilograms per usptream catchment
bif2013_DIV
Kilograms of bifenthrin applied in 2013 using divergent routed accumulation.
Baker and Stone 2015
0
4715.826
kilograms per usptream catchment
bif2014_DIV
Kilograms of bifenthrin applied in 2014 using divergent routed accumulation.
Baker and Stone 2015
0
2576.735
kilograms per usptream catchment
bif2015_DIV
Kilograms of bifenthrin applied in 2015 using divergent routed accumulation.
Baker and Stone 2015
0
2291.121
kilograms per usptream catchment
fipronil2001_DIV
Kilograms of fipronil applied in 2001 using divergent routed accumulation.
Baker and Stone 2015
0
581.4421
kilograms per usptream catchment
fipronil2003_DIV
Kilograms of fipronil applied in 2003 using divergent routed accumulation.
Baker and Stone 2015
0
777.204
kilograms per usptream catchment
fipronil2004_DIV
Kilograms of fipronil applied in 2004 using divergent routed accumulation.
Baker and Stone 2015
0
2594.421
kilograms per usptream catchment
fipronil2005_DIV
Kilograms of fipronil applied in 2005 using divergent routed accumulation.
Baker and Stone 2015
0
0.764256
kilograms per usptream catchment
fipronil2008_DIV
Kilograms of fipronil applied in 2008 using divergent routed accumulation.
Baker and Stone 2015
0
0.59367
kilograms per usptream catchment
fipronil2012_DIV
Kilograms of fipronil applied in 2012 using divergent routed accumulation.
Baker and Stone 2015
0
151.3084
kilograms per usptream catchment
fipronil2013_DIV
Kilograms of fipronil applied in 2013 using divergent routed accumulation.
Baker and Stone 2015
0
67.54837
kilograms per usptream catchment
fipronil2014_DIV
Kilograms of fipronil applied in 2014 using divergent routed accumulation.
Baker and Stone 2015
0
0.977267
kilograms per usptream catchment
fipronil2015_DIV
Kilograms of fipronil applied in 2015 using divergent routed accumulation.
Baker and Stone 2015
0
153.9527
kilograms per usptream catchment
glyphosate2001_DIV
Kilograms of glyphosate applied in 2001 using divergent routed accumulation.
Baker and Stone 2015
0
1319283
kilograms per usptream catchment
glyphosate2003_DIV
Kilograms of glyphosate applied in 2003 using divergent routed accumulation.
Baker and Stone 2015
0
2037689
kilograms per usptream catchment
glyphosate2004_DIV
Kilograms of glyphosate applied in 2004 using divergent routed accumulation.
Baker and Stone 2015
0
276387.6
kilograms per usptream catchment
glyphosate2005_DIV
Kilograms of glyphosate applied in 2005 using divergent routed accumulation.
Baker and Stone 2015
0
339798.8
kilograms per usptream catchment
glyphosate2006_DIV
Kilograms of glyphosate applied in 2006 using divergent routed accumulation.
Baker and Stone 2015
0
374717.1
kilograms per usptream catchment
glyphosate2007_DIV
Kilograms of glyphosate applied in 2007 using divergent routed accumulation.
Baker and Stone 2015
0
1362672
kilograms per usptream catchment
glyphosate2008_DIV
Kilograms of glyphosate applied in 2008 using divergent routed accumulation.
Baker and Stone 2015
0
449355.1
kilograms per usptream catchment
glyphosate2009_DIV
Kilograms of glyphosate applied in 2009 using divergent routed accumulation.
Baker and Stone 2015
0
590374.9
kilograms per usptream catchment
glyphosate2010_DIV
Kilograms of glyphosate applied in 2010 using divergent routed accumulation.
Baker and Stone 2015
0
601597.4
kilograms per usptream catchment
glyphosate2011_DIV
Kilograms of glyphosate applied in 2011 using divergent routed accumulation.
Baker and Stone 2015
0
604632.9
kilograms per usptream catchment
glyphosate2012_DIV
Kilograms of glyphosate applied in 2012 using divergent routed accumulation.
Baker and Stone 2015
0
724416.5
kilograms per usptream catchment
glyphosate2013_DIV
Kilograms of glyphosate applied in 2013 using divergent routed accumulation.
Baker and Stone 2015
0
752395.3
kilograms per usptream catchment
glyphosate2014_DIV
Kilograms of glyphosate applied in 2014 using divergent routed accumulation.
Baker and Stone 2015
0
826315.6
kilograms per usptream catchment
glyphosate2015_DIV
Kilograms of glyphosate applied in 2015 using divergent routed accumulation.
Baker and Stone 2015
0
770548.1
kilograms per usptream catchment
imidacloprid2001_DIV
Kilograms of imidacloprid applied in 2001 using divergent routed accumulation.
Baker and Stone 2015
0
498.4834
kilograms per usptream catchment
imidacloprid2003_DIV
Kilograms of imidacloprid applied in 2003 using divergent routed accumulation.
Baker and Stone 2015
0
355.66
kilograms per usptream catchment
imidacloprid2004_DIV
Kilograms of imidacloprid applied in 2004 using divergent routed accumulation.
Baker and Stone 2015
0
890.8238
kilograms per usptream catchment
imidacloprid2005_DIV
Kilograms of imidacloprid applied in 2005 using divergent routed accumulation.
Baker and Stone 2015
0
1162.102
kilograms per usptream catchment
imidacloprid2006_DIV
Kilograms of imidacloprid applied in 2006 using divergent routed accumulation.
Baker and Stone 2015
0
1214.767
kilograms per usptream catchment
imidacloprid2007_DIV
Kilograms of imidacloprid applied in 2007 using divergent routed accumulation.
Baker and Stone 2015
0
1467.999
kilograms per usptream catchment
imidacloprid2008_DIV
Kilograms of imidacloprid applied in 2008 using divergent routed accumulation.
Baker and Stone 2015
0
1251.402
kilograms per usptream catchment
imidacloprid2009_DIV
Kilograms of imidacloprid applied in 2009 using divergent routed accumulation.
Baker and Stone 2015
0
1502.523
kilograms per usptream catchment
imidacloprid2010_DIV
Kilograms of imidacloprid applied in 2010 using divergent routed accumulation.
Baker and Stone 2015
0
2441.348
kilograms per usptream catchment
imidacloprid2011_DIV
Kilograms of imidacloprid applied in 2011 using divergent routed accumulation.
Baker and Stone 2015
0
3042.572
kilograms per usptream catchment
imidacloprid2012_DIV
Kilograms of imidacloprid applied in 2012 using divergent routed accumulation.
Baker and Stone 2015
0
6014.224
kilograms per usptream catchment
imidacloprid2013_DIV
Kilograms of imidacloprid applied in 2013 using divergent routed accumulation.
Baker and Stone 2015
0
3626.924
kilograms per usptream catchment
imidacloprid2014_DIV
Kilograms of imidacloprid applied in 2014 using divergent routed accumulation.
Baker and Stone 2015
0
7213.041
kilograms per usptream catchment
imidacloprid2015_DIV
Kilograms of imidacloprid applied in 2015 using divergent routed accumulation.
Baker and Stone 2015
0
1702.824
kilograms per usptream catchment
metalaxyl2006_DIV
Kilograms of metalaxyl applied in 2006 using divergent routed accumulation.
Baker and Stone 2015
0
0.720988
kilograms per usptream catchment
metalaxyl2008_DIV
Kilograms of metalaxyl applied in 2008 using divergent routed accumulation.
Baker and Stone 2015
0
0.177247
kilograms per usptream catchment
metalaxyl2009_DIV
Kilograms of metalaxyl applied in 2009 using divergent routed accumulation.
Baker and Stone 2015
0
0.960413
kilograms per usptream catchment
metalaxyl2010_DIV
Kilograms of metalaxyl applied in 2010 using divergent routed accumulation.
Baker and Stone 2015
0
6.167726
kilograms per usptream catchment
metalaxyl2011_DIV
Kilograms of metalaxyl applied in 2011 using divergent routed accumulation.
Baker and Stone 2015
0
352.9756
kilograms per usptream catchment
metalaxyl2012_DIV
Kilograms of metalaxyl applied in 2012 using divergent routed accumulation.
Baker and Stone 2015
0
307.8364
kilograms per usptream catchment
metalaxyl2013_DIV
Kilograms of metalaxyl applied in 2013 using divergent routed accumulation.
Baker and Stone 2015
0
363.2426
kilograms per usptream catchment
metalaxyl2014_DIV
Kilograms of metalaxyl applied in 2014 using divergent routed accumulation.
Baker and Stone 2015
0
888.3248
kilograms per usptream catchment
metolachlor2001_DIV
Kilograms of Metolachlor applied in 2001 using divergent routed accumulation.
Baker and Stone 2015
0
44555.95
kilograms per usptream catchment
metolachlor2003_DIV
Kilograms of Metolachlor applied in 2003 using divergent routed accumulation.
Baker and Stone 2015
0
895.0023
kilograms per usptream catchment
metolachlor2004_DIV
Kilograms of Metolachlor applied in 2004 using divergent routed accumulation.
Baker and Stone 2015
0
510.9845
kilograms per usptream catchment
metolachlor2005_DIV
Kilograms of Metolachlor applied in 2005 using divergent routed accumulation.
Baker and Stone 2015
0
19335.03
kilograms per usptream catchment
metolachlor2006_DIV
Kilograms of Metolachlor applied in 2006 using divergent routed accumulation.
Baker and Stone 2015
0
12973.67
kilograms per usptream catchment
metolachlor2007_DIV
Kilograms of Metolachlor applied in 2007 using divergent routed accumulation.
Baker and Stone 2015
0
960.1463
kilograms per usptream catchment
metolachlor2008_DIV
Kilograms of Metolachlor applied in 2008 using divergent routed accumulation.
Baker and Stone 2015
0
71559.87
kilograms per usptream catchment
metolachlor2009_DIV
Kilograms of Metolachlor applied in 2009 using divergent routed accumulation.
Baker and Stone 2015
0
31226.12
kilograms per usptream catchment
metolachlor2010_DIV
Kilograms of Metolachlor applied in 2010 using divergent routed accumulation.
Baker and Stone 2015
0
18727.08
kilograms per usptream catchment
metolachlor2011_DIV
Kilograms of Metolachlor applied in 2011 using divergent routed accumulation.
Baker and Stone 2015
0
62836.98
kilograms per usptream catchment
metolachlor2012_DIV
Kilograms of Metolachlor applied in 2012 using divergent routed accumulation.
Baker and Stone 2015
0
114064
kilograms per usptream catchment
metolachlor2013_DIV
Kilograms of Metolachlor applied in 2013 using divergent routed accumulation.
Baker and Stone 2015
0
69263.82
kilograms per usptream catchment
metolachlor2014_DIV
Kilograms of Metolachlor applied in 2014 using divergent routed accumulation.
Baker and Stone 2015
0
123033.6
kilograms per usptream catchment
metolachlor2015_DIV
Kilograms of Metolachlor applied in 2015 using divergent routed accumulation.
Baker and Stone 2015
0
56504.06
kilograms per usptream catchment
simazine2001_DIV
Kilograms of Simazine applied in 2001 using divergent routed accumulation.
Baker and Stone 2015
0
17014.72
kilograms per usptream catchment
simazine2003_DIV
Kilograms of Simazine applied in 2003 using divergent routed accumulation.
Baker and Stone 2015
0
55510.12
kilograms per usptream catchment
simazine2004_DIV
Kilograms of Simazine applied in 2004 using divergent routed accumulation.
Baker and Stone 2015
0
72672.65
kilograms per usptream catchment
simazine2005_DIV
Kilograms of Simazine applied in 2005 using divergent routed accumulation.
Baker and Stone 2015
0
95402.23
kilograms per usptream catchment
simazine2006_DIV
Kilograms of Simazine applied in 2006 using divergent routed accumulation.
Baker and Stone 2015
0
58319.19
kilograms per usptream catchment
simazine2007_DIV
Kilograms of Simazine applied in 2007 using divergent routed accumulation.
Baker and Stone 2015
0
81532.07
kilograms per usptream catchment
simazine2008_DIV
Kilograms of Simazine applied in 2008 using divergent routed accumulation.
Baker and Stone 2015
0
120016.5
kilograms per usptream catchment
simazine2009_DIV
Kilograms of Simazine applied in 2009 using divergent routed accumulation.
Baker and Stone 2015
0
43007.41
kilograms per usptream catchment
simazine2010_DIV
Kilograms of Simazine applied in 2010 using divergent routed accumulation.
Baker and Stone 2015
0
57654.58
kilograms per usptream catchment
simazine2011_DIV
Kilograms of Simazine applied in 2011 using divergent routed accumulation.
Baker and Stone 2015
0
53444.99
kilograms per usptream catchment
simazine2012_DIV
Kilograms of Simazine applied in 2012 using divergent routed accumulation.
Baker and Stone 2015
0
80892.43
kilograms per usptream catchment
simazine2013_DIV
Kilograms of Simazine applied in 2013 using divergent routed accumulation.
Baker and Stone 2015
0
71474.08
kilograms per usptream catchment
simazine2014_DIV
Kilograms of Simazine applied in 2014 using divergent routed accumulation.
Baker and Stone 2015
0
144675.8
kilograms per usptream catchment
simazine2015_DIV
Kilograms of Simazine applied in 2015 using divergent routed accumulation.
Baker and Stone 2015
0
75135.84
kilograms per usptream catchment
thiamethoxam2001_DIV
Kilograms of Thiamethoxam applied in 2001 using divergent routed accumulation.
Baker and Stone 2015
0
0.954575
kilograms per usptream catchment
thiamethoxam2003_DIV
Kilograms of Thiamethoxam applied in 2003 using divergent routed accumulation.
Baker and Stone 2015
0
263.6519
kilograms per usptream catchment
thiamethoxam2004_DIV
Kilograms of Thiamethoxam applied in 2004 using divergent routed accumulation.
Baker and Stone 2015
0
747.0091
kilograms per usptream catchment
thiamethoxam2005_DIV
Kilograms of Thiamethoxam applied in 2005 using divergent routed accumulation.
Baker and Stone 2015
0
2597.681
kilograms per usptream catchment
thiamethoxam2006_DIV
Kilograms of Thiamethoxam applied in 2006 using divergent routed accumulation.
Baker and Stone 2015
0
1071.349
kilograms per usptream catchment
thiamethoxam2007_DIV
Kilograms of Thiamethoxam applied in 2007 using divergent routed accumulation.
Baker and Stone 2015
0
1087.511
kilograms per usptream catchment
thiamethoxam2008_DIV
Kilograms of Thiamethoxam applied in 2008 using divergent routed accumulation.
Baker and Stone 2015
0
1986.575
kilograms per usptream catchment
thiamethoxam2009_DIV
Kilograms of Thiamethoxam applied in 2009 using divergent routed accumulation.
Baker and Stone 2015
0
1709.204
kilograms per usptream catchment
thiamethoxam2010_DIV
Kilograms of Thiamethoxam applied in 2010 using divergent routed accumulation.
Baker and Stone 2015
0
2692.434
kilograms per usptream catchment
thiamethoxam2011_DIV
Kilograms of Thiamethoxam applied in 2011 using divergent routed accumulation.
Baker and Stone 2015
0
3114.005
kilograms per usptream catchment
thiamethoxam2012_DIV
Kilograms of Thiamethoxam applied in 2012 using divergent routed accumulation.
Baker and Stone 2015
0
4229.184
kilograms per usptream catchment
thiamethoxam2013_DIV
Kilograms of Thiamethoxam applied in 2013 using divergent routed accumulation.
Baker and Stone 2015
0
4235.936
kilograms per usptream catchment
thiamethoxam2014_DIV
Kilograms of Thiamethoxam applied in 2014 using divergent routed accumulation.
Baker and Stone 2015
0
4323.723
kilograms per usptream catchment
thiamethoxam2015_DIV
Kilograms of Thiamethoxam applied in 2015
Baker and Stone 2015
0
205.827
kilograms per usptream catchment
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20210115
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