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Office of Research and DevelopmentNational Exposure Research Lab, Environmental Science Division, Landscape Ecology Branch
Approaches to Mapping Nitrogen Removal:Examples at a Landscape Scale
Jay Christensen, Ric Lopez, Annie Neale
Landscape Ecology Branch
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Ecosystem Services Research Program
Landscape Scale – Overarching Issues• Example using Wetlands and Nitrogen Removal:
–Complex interactions of hydrology, soil type, nutrient loadings, and landscape position
• Challenge:–Adequately predict complex interactions and
account for variability and uncertainty with limited data availability and resolution
–Output meets the needs of the user
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Ecosystem Services Research Program
Selected Landscape Approaches to Nitrogen Removal• Accumulation/Denitrification Extrapolation
–Craft et al. 2009
• GIS analysis of Riparian Wetlands–Baker et al. 2006, 2007
• Potential of Sited Wetlands–Crumpton et al. 2006, 2008
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Ecosystem Services Research Program
Extrapolation of Potential Denitrification Rates
• Frontiers in Ecology and the Environment March 2009
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Ecosystem Services Research Program
Extrapolation of Potential Denitrification Rates
Craft et al. 2009• Goal: “Predict how tidal marsh area (of Georgia) and delivery of
ecosystem services would respond to different scenarios of sea-level rise (SLR)”
• Summary: SLR may dramatically affect nitrogen (and other) related coastal marsh ecosystem services, particularly at upper and lower ends of salinity ranges, depending on geomorphology and potential for wetland accretion/migration
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Ecosystem Services Research Program
Extrapolation of Potential Denitrification Rates
Craft et al. 2009• Results: Denitrification
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Ecosystem Services Research Program
• Results: SLAMM
52 cm increase for Altamaha River
Habitat Change (km2)
-496-226Salt (turquoise)
-4+41Brackish (pink)
-32+1Tidal Fresh (light green)
82cm52cmMarsh Type
Extrapolation of Potential Denitrification Rates
Craft et al. 2009
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Ecosystem Services Research Program
• Limitations:–Uncertainties of scaling lab measurements to landscape
level–SLAMM outputs
• Data resolution – 30m DEM banding of wetland outputs• Uncertainty in wetland accretion • Extent of SLAMM using finer DEMs
–Potential Nitrogen Removal • Modeling actual removal depends on N loading,
hydrologic loading, and marsh characteristics• Difference as pronounced in palustrine systems?
Extrapolation of Potential Denitrification Rates
Craft et al. 2009
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Ecosystem Services Research Program
Application in ESRPSummary of N-related coastal wetland work by Lopez, Christensen, Neale
et al. (National Atlas of Ecosystem Services & Wetlands-ESRP)
Wetland “Mapping” componentsNOAA Coastal Change Analysis Program data and modified remote-
sensing approaches to map temporal/spatial change of coastal wetlands from 1970s-present
SLR and Urbanization “Modeling” componentsNew and existing SLAMM models for applicable portions of Carolinas,
California, other applicable/feasible regions of the coastal US – with focal landscape-scale studies at selected locations
FORE-SCE and other urban change models
Nitrogen “Monitoring” componentExtrapolation, applying denitrification rates from existing literature and
field collection of rates, as available/feasible
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Ecosystem Services Research Program
GIS Riparian toolBaker et al. 2006, 2007
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Ecosystem Services Research Program
• Fixed width analysis versus flow-path analysis
• Spatial location matters
GIS Riparian toolBaker et al. 2006
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Ecosystem Services Research Program
GIS Riparian toolBaker et al. 2006
• Goal: “We focus on describing the connectivity of cropland to streams through riparian buffers”
• Our application of Baker et al. methods: Calapooia River Basin
–Method requires –3 data inputs:–Elevation –Stream Network–Landcover
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Ecosystem Services Research Program
GIS Riparian tool
• Methodology of Tool: GIS analysis
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Ecosystem Services Research Program
GIS Riparian tool
• Methodology of Tool: GIS analysis–A) Flow path
determined
–B) Isolate source cell flow paths
–C) Length of sink cells calculated
–D) Buffer width assigned
–E) Ag/Buffer Ratio determined
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Ecosystem Services Research Program
GIS Riparian tool
• Resulting in GIS outputs for:
• Buffer Width onAgricultural Lands
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Ecosystem Services Research Program
GIS Riparian tool
• Resulting in GIS outputs for:
• Non-Buffered agricultural lands
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Ecosystem Services Research Program
GIS Riparian tool
• Resulting in GIS outputs for:
• Agricultural accumulation / Buffer Width Ratio
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Ecosystem Services Research Program
GIS Riparian tool
• Resulting metrics and subsequent interpretation are influenced by the resolution of the inputs
–Data availability & Computational capacity
–versus –Representation of reality
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Ecosystem Services Research Program
GIS Riparian tool
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Ecosystem Services Research Program
GIS Riparian tool
• Riparian tool creates buffer width for each agricultural cell
• Ability of Riparian Buffers to retain nutrients• Baker et al. 2007 reviewed empirical studies and generalized buffers as:
• Leaky - 5% nutrient retention / 10m buffer• Retentive – 60% nutrient retention / 10m buffer
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Ecosystem Services Research Program
GIS Riparian tool
• Exponential equation developed
• Applied to the buffer width of each ag cell
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Ecosystem Services Research Program
GIS Riparian tool
•Simple Model of Potential Nitrogen Retention
• Why it’s simple and potential:• Assumptions
–All source cells equal in nutrient load = 1–All source cells equal in loss and transport–All Buffer cells equal in nutrient retention
• 5% or 60% retention scenarios–Hydrologic load not considered–Surface Hydrology
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Ecosystem Services Research Program
GIS Riparian tool
•Simple Model of Potential Nitrogen Retention
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Ecosystem Services Research Program
GIS Riparian tool
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Ecosystem Services Research Program
GIS Riparian tool
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Ecosystem Services Research Program
GIS Riparian tool
• Next Steps: Simple Riparian Model–Assumptions
• All source cells equal in nutrient load–Use of cropland data, atmospheric deposition,
proximity to CAFOs• All source cells equal in loss and transport
–Incorporate soils, slope, CN• All Buffer cells equal in nutrient retention
–Differentiate wetlands, hydric soils, Mayer et al 2007• Hydrologic load not considered
–CN GIS tool to determine relative load–Seasonal effectiveness
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Ecosystem Services Research Program
GIS Riparian tool
• Next Steps:Riparian Tool
• Relationship between stream nutrients and metrics –Willamette and NC/SC
water
urban
forest/grassland
buffered crops
wetland
non-buffered crops
water
urban
forest/grassland
buffered crops
wetland
non-buffered crops
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Ecosystem Services Research Program
GIS Riparian tool
• Next Steps: Simple Riparian Model–Limitations:
• Continued assumption that hydrology of system is surface/shallow sub-surface driven
• Interaction of upland and riparian considered, riparian and stream interaction ignored
• Dependent on 30m resolution land cover• Lack of validation
–Relate model to WQ measurements–Selection of smaller watersheds to validate
•
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Ecosystem Services Research Program
GIS Riparian tool
• Next Steps: Simple Model–Challenges:
• Inclusion of uncertainty/error–in Riparian tool – inputs: landcover, streams–in model and improvements, such as nitrogen loads
• Data for Validation• Variability
–Effectiveness of retention–Temporal
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Ecosystem Services Research ProgramPotential Removal by Sited
Wetlands
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Ecosystem Services Research Program
• Goal: “to provide an assessment of nitrate concentrations and loads across the UMR and Ohio River basins and the mass reduction of nitrate loading that could be achieved using wetlands to intercept nonpoint source nitrate loads.”
Potential Removal by Sited Wetlands
Crumpton et al. 2006, 2008
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Ecosystem Services Research Program
• Methods:• Nitrate concentration and stream discharge data used to calculate annual flow-weighted average (FWA) nitrate concentrations
• Model FWA nitrate • concentration • based on land use
Potential Removal by Sited Wetlands
Crumpton et al. 2006, 2008
Applied FWA model to 1 km2
grid cells across the UMR and Ohio River basins.
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Ecosystem Services Research Program
• Methods:• Annual water yield estimated by interpolating over selected USGS monitoring stations
Potential Removal by Sited Wetlands
Crumpton et al. 2006, 2008
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Ecosystem Services Research Program
• Methods:• FWA nitrate concentrations and water yield provide estimate of annual mass nitrate export of each grid cell in UMR and Ohio River Basin
Potential Removal by Sited Wetlands
Crumpton et al. 2006, 2008
X =
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Ecosystem Services Research Program
• Methods:• To estimate potential nitrate removal by wetlands across the same grid area, mass balance simulations were used –Hypothetical wetland sites distributed across the
UMR and Ohio River basins
–Nitrate removal was estimated using a temperature dependent, area-based, first-order model
–Empirically tested across sites in Iowa and validated in sites across UMR and Ohio River Basins
Potential Removal by Sited Wetlands
Crumpton et al. 2006, 2008
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Ecosystem Services Research Program
• Methods:• Developed a nonlinear model for percent nitrate removal as a function of hydraulic loading rate (HLR) and temperature
Potential Removal by Sited Wetlands
Crumpton et al. 2006, 2008
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Ecosystem Services Research Program
• Results:
• Mass nitrate removal for potential wetland restorations estimated using expected mass load and the predicted percent removal (function of HLR).
Potential Removal by Sited Wetlands
Crumpton et al. 2006, 2008
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Ecosystem Services Research Program
• Results:
• Annual variability in when and where wetness occurs dramatically shifts the nitrogen removal
Potential Removal by Sited Wetlands
Crumpton et al. 2006, 2008
1990199119921993
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Ecosystem Services Research Program
• Application–Acquisition of nutrient data in the Coastal Plain of
North and South Carolina is underway–Relationship of FWA to landcover first step
• Influence of CAFOs• Atmospheric deposition
–Collaborating with Crumpton lab to incorporate wetland modeling• Affect of higher temperatures on removal• Variability of soils, groundwater• Fate of ammonium
• Sites for validation needed (Hunt et al. 1999)
Potential Removal by Sited Wetlands
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Ecosystem Services Research Program
• Limitations:–Related to surface water inputs–Assume FWA nitrate concentration LC relationship
is reasonable estimate of nitrate concentrations–FWA/LC relationship and removal model only tested
in corn belt–Potential removal related to 2% wetland/watershed
ratio• Does not address removal from existing wetlands• Actual ratios difficult to determine
Potential Removal by Sited Wetlands
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Ecosystem Services Research Program
Summary• 3 landscape approaches out of many• Landscape insights:
–Wetland type (salt versus fresh) can differ–Distribution of wetland type influences cumulative effect–Spatial location information essential–Resolution of data inputs influences metric outputs–Variability in wetland performance needs to be included–Strong relationship of removal and hydrologic loading–Percent reduction vs mass removed–Temporal variability influences the ecosystem service
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Ecosystem Services Research Program
Challenges• Data availability
–Wetland land cover, data for nitrogen loading• Resolution versus feasibility• Validation of removal models• Output resolution versus desired use of product • Quantifying variability
–Spatial and temporal