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config.json
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config.json
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{
"map":{
"zoom":5.5,
"center":[
-9972968,
4972295
],
"useCluster":false,
"clusterDistance":45,
"clusterExpandCountThreshold":10,
"clusterExpandZoomThreshold":12,
"layers":{
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{
"title":"GI Count by HUC 12",
"id":"gltg:huc12",
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"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:huc12"
},
{
"title":"Green Infrastructure Locations",
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],
"HUC8 Nitrate Loading Prediction":[
{
"title":"Corn fraction (2012-2020)",
"id":"gltg:CornNitrate",
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{
"title":"Soybean fraction (2012-2020)",
"id":"gltg:SoybeanNitrate",
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"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:SoybeanNitrate"
},
{
"title":"Tile Drainage Fraction (2012)",
"id":"gltg:TFNitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:TFNitrate"
},
{
"title":"Nitrate Loading in June (g N/m^2) (base)",
"id":"gltg:L_6Nitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:L_6Nitrate"
},
{
"title":"Nitrate Loading in June (g N/m^2) (decrease corn fraction by 20%)",
"id":"gltg:L_6_rcNitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:L_6_rcNitrate"
},
{
"title":"Nitrate Loading Absolute Increase (g N/m^2) (decrease corn fraction by 20%)",
"id":"gltg:rc_dNitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:rc_dNitrate"
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{
"title":"Nitrate Loading Relative Increase (%) (decrease corn fraction by 20%)",
"id":"gltg:rc_d_pNitrate",
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"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:rc_d_pNitrate"
},
{
"title":"Nitrate Loading in June (g N/m^2) (increase corn fraction by 20%)",
"id":"gltg:L_6_icNitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:L_6_icNitrate"
},
{
"title":"Nitrate loading Absolute Increase (g N/m^2) (increase corn fraction by 20%)",
"id":"gltg:ic_dNitrate",
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"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:ic_dNitrate"
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{
"title":"Nitrate Loading Relative Increase (%) (increase corn fraction by 20%)",
"id":"gltg:ic_d_pNitrate",
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"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:ic_d_pNitrate"
},
{
"title":"Nitrate Loading in June (g N/m^2) (increase tile fraction by 10%)",
"id":"gltg:L_6_it_1Nitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:L_6_it_1Nitrate"
},
{
"title":"Nitrate loading Absolute Increase (g N/m^2) (increase tile fraction by 10%)",
"id":"gltg:it_1_dNitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:it_1_dNitrate"
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{
"title":"Nitrate Loading Relative Increase (%) (increase tile fraction by 10%)",
"id":"gltg:it_1_d_pNitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:it_1_d_pNitrate"
},
{
"title":"Nitrate loading in June (g N/m^2) (increase tile fraction by 20%)",
"id":"gltg:L_6_it_2Nitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:L_6_it_2Nitrate"
},
{
"title":"Nitrate loading Absolute Increase (g N/m^2) (increase tile fraction by 20%)",
"id":"gltg:it_2_dNitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:it_2_dNitrate"
},
{
"title":"Nitrate Loading Relative Increase (%) (increase tile fraction by 20%)",
"id":"gltg:it_2_d_pNitrate",
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"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:it_2_d_pNitrate"
},
{
"title":"Nitrate loading in June (g N/m^2) (increase tile fraction by 30%)",
"id":"gltg:L_6_it_3Nitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:L_6_it_3Nitrate"
},
{
"title":"Nitrate loading Absolute Increase (g N/m^2) (increase tile fraction by 30%)",
"id":"gltg:it_3_dNitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:it_3_dNitrate"
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{
"title":"Nitrate Loading Relative Increase (%) (increase tile fraction by 30%)",
"id":"gltg:it_3_d_pNitrate",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:it_3_d_pNitrate"
}
],
"SPARROW Nutrient Model Results":[
{
"title":"SPARROW 2012 Nitrogen Load",
"id":"gltg:sparrow12_huc8_nitrogen",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:sparrow12_huc8_nitrogen"
},
{
"title":"SPARROW 2012 Phosphorus Load",
"id":"gltg:sparrow12_huc8_phosphorous",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:sparrow12_huc8_phosphorous"
},
{
"title":"SPARROW 2002 Nitrogen Load",
"id":"gltg:sparrow-nitrogen",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:sparrow-nitrogen"
},
{
"title":"SPARROW 2002 Phosphorus Load",
"id":"gltg:sparrow-phosphorus",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:sparrow-phosphorus"
}
],
"Watershed Boundaries":[
{
"title":"HUC 8",
"id":"gltg:huc250k",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:huc250k"
},
{
"title":"HUC 4",
"id":"gltg:huc4",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:huc4"
},
{
"title":"HUC 2",
"id":"gltg:huc2",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:huc2"
}
],
"Hypoxia and Precipitation":[
{
"title":"2005 Hypoxia Contours",
"id":"gltg:2005_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2005_Hypoxia_Contours"
},
{
"title":"2006 Hypoxia Contours",
"id":"gltg:2006_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2006_Hypoxia_Contours"
},
{
"title":"2007 Hypoxia Contours",
"id":"gltg:2007_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2007_Hypoxia_Contours"
},
{
"title":"2008 Hypoxia Contours",
"id":"gltg:2008_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2008_Hypoxia_Contours"
},
{
"title":"2009 Hypoxia Contours",
"id":"gltg:2009_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2009_Hypoxia_Contours"
},
{
"title":"2010 Hypoxia Contours",
"id":"gltg:2010_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2010_Hypoxia_Contours"
},
{
"title":"2011 Hypoxia Contours",
"id":"gltg:2011_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2011_Hypoxia_Contours"
},
{
"title":"2012 Hypoxia Contours",
"id":"gltg:2012_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2012_Hypoxia_Contours"
},
{
"title":"2013 Hypoxia Contours",
"id":"gltg:2013_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2013_Hypoxia_Contours"
},
{
"title":"2014 Hypoxia Contours",
"id":"gltg:2014_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2014_Hypoxia_Contours"
},
{
"title":"2015 Hypoxia Contours",
"id":"gltg:2015_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2015_Hypoxia_Contours"
},
{
"title":"2016 Hypoxia Contours",
"id":"gltg:2016_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2016_Hypoxia_Contours"
},
{
"title":"2017 Hypoxia Contours",
"id":"gltg:2017_Hypoxia_Contours",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:2017_Hypoxia_Contours"
},
{
"title":"2018 Hypoxia Contours",
"id":"gltg:Oregon328_Contours_2018",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:Oregon328_Contours_2018"
},
{
"title":"2019 Hypoxia Contours",
"id":"gltg:Oregon332_Contours_2019",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:Oregon332_Contours_2019"
},
{
"title":"2021 Hypoxia Contours",
"id":"gltg:Oregon340_Contours_2021",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:Oregon340_Contours_2021"
}
],
"Cropscape Frequency Data":[
{
"title":"Corn Frequency",
"id":"gltg:corn_freq",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:corn_freq"
},
{
"title":"Cotton Frequency",
"id":"gltg:cotton_freq",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:cotton_freq"
},
{
"title":"Soy Frequency",
"id":"gltg:soy_freq",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:soy_freq"
}
],
"":[
{
"title":"River Reaches",
"id":"gltg:gltg-pools",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:gltg-pools",
"initialOpacity":0.9
},
{
"title":"Large Rivers",
"id":"gltg:us-rivers",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:us-rivers",
"initialVisibility":true,
"initialOpacity":0.25
},
{
"title":"US States",
"id":"gltg:us-states",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:us-states",
"initialOpacity":0.5
},
{
"title":"Total annual nitrogen from point sources by HUC8 watershed (avg. 2007-2014)",
"id":"gltg:agg-pt-source",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:agg-pt-source",
"initialOpacity":0.5
},
{
"title":"Average Annual Nitrogen Fertilizer Inputs for 1997 to 2006",
"id":"gltg:fertilizer_n",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:fertilizer_n",
"initialOpacity":0.5
},
{
"title":"EPA Impaired Stream Segments",
"id":"gltg:impaired-epa",
"type":"wms",
"legend":"/wms?REQUEST=GetLegendGraphic&VERSION=1.0.0&FORMAT=image/png&WIDTH=20&HEIGHT=20&layer=gltg:impaired-epa",
"initialOpacity":0.75
},
{
"title":"State Legislative District - Lower Chamber",
"id":"gltg:12-states-legi-dist-lower",
"type":"wms",
"initialOpacity":0.75
},
{
"title":"State Legislative District - Upper Chamber",
"id":"gltg:12-states-legi-dist-upper",
"type":"wms",
"initialOpacity":0.75
},
{
"title":"Congressional District",
"id":"gltg:congressional_district_12_states",
"type":"wms",
"initialOpacity":0.75
}
]
},
"layersInfo":{
"HUC8 Nitrate Loading Prediction":[
{
"description":"Ma, Z., Guan, K., Peng, B., Sivapalan, M., Li, L., Pan, M., Zhou, W., Warner, R., & Zhang, J. (2023). Agricultural nitrate export patterns shaped by crop rotation and tile drainage. Water Research, 229, 119468.",
"link":"https://doi.org/10.1016/J.WATRES.2022.119468"
},
{
}
]
}
},
"sensors":{
"maxDisplayParameters":10,
"displayOnlineStatus":true
},
"defaultDisableCluster":true,
"filterSources": true,
"source":{
"wqp":{
"label":"Water Quality Portal",
"order": 1,
"color":"#F28E1E",
"description":"The Water Quality Portal (WQP) is a cooperative service sponsored by the United States Geological Survey (USGS), the Environmental Protection Agency (EPA) and the National Water Quality Monitoring Council (NWQMC) that integrates publicly available water quality data from the USGS National Water Information System (NWIS) the EPA STOrage and RETrieval (STORET) Data Warehouse, and the USDA ARS Sustaining The Earth’s Watersheds - Agricultural Research Database System (STEWARDS). We've chosen to focus on available Water Quality Portal long term (5 years) nitrate data sets available on the Mississippi River and its tributaries for this website.",
"more_info":"Click here for more information and for access to all WQP data.",
"link":"http://waterqualitydata.us/",
"defaultVisibility": true
},
"usgs":{
"label":"United States Geological Survey",
"order":2,
"color":"#39B54A",
"description":"The USGS investigates the occurrence, quantity, quality, distribution, and movement of surface and underground waters and disseminates the data to the public, State and local governments, public and private utilities, and other Federal agencies involved with managing our water resources. U.S. Geological Survey conducts long-term monitoring of lakes and rivers nationwide. They have gauges throughout many rivers in the Mississippi River basin. We've chosen to focus on gauges on the Mississippi River and its tributaries that are equipped with continuous nitrate sensors for this website.",
"more_info":"For more information and for access to all USGS water quantity and quality data.",
"link":"http://waterdata.usgs.gov/nwis",
"defaultVisibility": false
},
"usgs-sg":{
"label":"United States Geological Survey (Super Gage Network)",
"order": 3,
"color":"#228e31",
"description":"The USGS investigates the occurrence, quantity, quality, distribution, and movement of surface and underground waters and disseminates the data to the public, State and local governments, public and private utilities, and other Federal agencies involved with managing our water resources. U.S. Geological Survey conducts long-term monitoring of lakes and rivers nationwide. They have gauges throughout many rivers in the Mississippi River basin. We've chosen to focus on gauges on the Mississippi River and its tributaries that are equipped with continuous nitrate sensors for this website.",
"more_info":"For more information and for access to all USGS water quantity and quality data.",
"link":"http://waterdata.usgs.gov/nwis",
"defaultVisibility": false
},
"umrr-ltrm":{
"label":"Upper Mississippi River Restoration",
"order": 4,
"color":"#5F99C1",
"description":"The UMRR LTRM water quality sampling design focuses on a subset of limnological variables related to habitat quality and ecosystem function that includes physicochemical features, suspended sediment, and major plant nutrients known to be significant to aquatic habitat in this system. We've chosen to focus on long term nitrate data sets available on the Mississippi River for this website.",
"more_info":"Click here for more information and for access to all original UMRR LTRM data.",
"link":"http://www.umesc.usgs.gov/data_library/water_quality/water1_query.shtml",
"defaultVisibility": false
},
"sierra-club":{
"label":"Fox River Study Group",
"order": 5,
"color":"#9C2C1A",
"description":"These locations contain data related to the Fox River Study Group.",
"more_info":"Click here for more information about the Fox River Study Group",
"link":"http://foxriverstudygroup.org/",
"defaultVisibility": false
}
}
}