Checking for non-preferred file/folder path names (may take a long time depending on the number of files/folders) ...

SENSEflux-USGLB: Nitrogen and Phosphorus Loads, Sources and Pathways


An older version of this resource http://www.hydroshare.org/resource/90058d6565784aad97cdf51262777590 is available.
Authors:
Owners: This resource does not have an owner who is an active HydroShare user. Contact CUAHSI (help@cuahsi.org) for information on this resource.
Type: Resource
Storage: The size of this resource is 1.4 GB
Created: Nov 06, 2023 at 9:27 p.m.
Last updated: Nov 07, 2023 at 1:43 p.m. (Metadata update)
Published date: Nov 07, 2023 at 1:43 p.m.
DOI: 10.4211/hs.2ec257d6ed0246098d1d6dae8074ecbc
Citation: See how to cite this resource
Content types: Geographic Feature Content 
Sharing Status: Published
Views: 518
Downloads: 5
+1 Votes: Be the first one to 
 this.
Comments: No comments (yet)

Abstract

SENSEflux-USGLB, the Spatially Explicit Nutrient Source Estimate and Flux for the United States Great Lakes Basin estimates total annual nitrogen and phosphorus loads from the US Great Lakes Basin to the coastline, as well as sources and pathways at 120 meter resolution for an average year during 2008 - 2015 period (ca. 2010). The SENSEflux model uses a GIS and mass balance approach to simulate nutrient fate and transport from point and nonpoint sources across the landscape through rivers to lakes and wetlands. It includes four components: (1) nutrient applications, (2) in situ losses, (3) basin attenuation through surface and subsurface pathways, and (4) stream and lake attenuation. This resource includes 120-meter maps of nitrogen and phosphorus loads, mass balance components (total applied nutrient, crop harvest, basin loss, river uptake, soil and groundwater storage), sources (atmospheric deposition, chemical agricultural fertilizer, chemical nonagricultural fertilizer, manure, septic tanks, nitrogen fixation from legumes, and point sources) and pathways (overland flow, tile drainage, groundwater, septic plumes, point) along with corresponding watershed summaries at the Hydrologic Unit Code 12 (HUC12) and HUC8 levels, as defined in the USGS 2014 Watershed Boundary Dataset. Sources are separated by subsurface (groundwater flow and septic plumes within groundwater) pathway and surface (overland and tile fields) pathway, so total nutrient delivery through a specific nutrient source can be computed as the sum of each source (i.e., gQAgComm + sQAgComm) through the pathways if applicable. Watershed summaries (kg/day) derived from those 120-meter maps (kg/day/cell) using the zonal statistics method with the 'SUM' function. SENSEflux-USGLB is described in full detail in the manuscript and supporting information of Wan et al. (2023) "Important Role of Overland Flows and Tile Field Pathways in Nutrient Transport in Environmental Science & Technology. https://doi.org/10.1021/acs.est.3c03741.

Subject Keywords

Coverage

Spatial

Coordinate System/Geographic Projection:
WGS 84 EPSG:4326
Coordinate Units:
Decimal degrees
Place/Area Name:
US Great Lakes Basin
North Latitude
47.9266°
East Longitude
-75.1034°
South Latitude
39.9744°
West Longitude
-93.3847°

Temporal

Start Date:
End Date:

Content

Data Services

The following web services are available for data contained in this resource. Geospatial Feature and Raster data are made available via Open Geospatial Consortium Web Services. The provided links can be copied and pasted into GIS software to access these data. Multidimensional NetCDF data are made available via a THREDDS Data Server using remote data access protocols such as OPeNDAP. Other data services may be made available in the future to support additional data types.

Related Resources

The content of this resource is derived from Hamlin, Q. F., A. D. Kendall, S. Martin, H. Whitenack, J. Roush, B. Hannah, D. W. Hyndman (2020). SENSEmap-USGLB: Nitrogen and Phosphorus Inputs, HydroShare, https://doi.org/10.4211/hs.1a116e5460e24177999c7bd6f8292421
This resource is described by Luwen Wan, Anthony D. Kendall, Sherry L. Martin, Quercus F. Hamlin and David W. Hyndman (2023). Important Role of Overland Flows and Tile Field Pathways in Nutrient Transport. Environmental Science & Technology. https://doi.org/10.1021/acs.est.3c03741.
This resource updates and replaces a previous version Wan, L. (2023). SENSEflux-USGLB: Nitrogen and Phosphorus Loads, Sources and Pathways, HydroShare, http://www.hydroshare.org/resource/90058d6565784aad97cdf51262777590

Credits

Funding Agencies

This resource was created using funding from the following sources:
Agency Name Award Title Award Number
NASA Linking Remote Sensing and Process-based Models to Better Understand the Influence of Land Use and Climate Changes on Great Lakes Coastal Wetlands NNX11AC72G
NOAA Empowering Communities with Online Action Planning Tools: Tipping Points and Indicators for Improving Water Quality across the Great Lakes NA12OAR4320071
NASA Integrating Systems Models and Remote Sensing to Explore Aquatic Ecosystem Vulnerability to Global Change in Lake Huron 80NSSC21K1652
CSC Chinese Government Scholarship

How to Cite

Wan, L., A. D. Kendall, S. L. Martin, Q. F. Hamlin, D. W. Hyndman (2023). SENSEflux-USGLB: Nitrogen and Phosphorus Loads, Sources and Pathways, HydroShare, https://doi.org/10.4211/hs.2ec257d6ed0246098d1d6dae8074ecbc

This resource is shared under the Creative Commons Attribution CC BY.

http://creativecommons.org/licenses/by/4.0/
CC-BY

Comments

There are currently no comments

New Comment

required