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Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division Integrating Cropland Management into.

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Presentation on theme: "Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division Integrating Cropland Management into."— Presentation transcript:

1 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division Integrating Cropland Management into Bidirectional CMAQ Ellen J. Cooter and Jesse Bash Atmospheric Modeling and Analysis Division NERL, EPA Verel Benson Benson Consulting, Columbia, MO Li Mei Ran UNC Institute for the Environment, Chapel Hill, N C

2 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division CMAQ 5.0 Implementation Bidirectional pilot and CMAQ 5.0 Beta studies show nitrogen deposition estimates improve when soil ammonia emissions are estimated using a compensation point flux approach coupled with more temporally and spatially detailed agricultural land management information. A full implementation of this approach has been completed for CMAQ 5.0 (see Jesse Bash, October 24 presentation). This presentation focuses on the agricultural fertilizer management inputs required for the CMAQ5.0 bidirectional science option. 2

3 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division What inputs are required for CMAQ 5.0? 3 -Daily Fertilizer (kg-N/ha) application amount -Daily fertilizer depth -Initial managed soil pH For each crop within each CMAQ domain grid cell Technical questions regarding the content of these files should be submitted to Ellen Cooter, cooter.ellen@epa.gov cooter.ellen@epa.gov Submit requests to receive copies of these files to Jesse Bash, bash.jesse@epa.gov Sample data sets containing this information have been prepared for the 12km CONUS domain and are available on request

4 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division Fertilizer Management Implementation for CMAQ 5.0 Fertilizer application rates and management practices are simulated by a biogeochemical model Simulation of a mix of organic (manure) and inorganic N-fertilizer forms applied at form-specific depth 42 commercial crops (irrigated and rainfed) 10 USDA Production areas Crop-area distributions use 2002 USDA Census of Agriculture and 2001 NLCD and MODIS landcover data. 4

5 A.Unsheltered tilled Cropland B.Shelterbelt C.Sheltered tilled cropland D.Conservation cover 5 Leaving Field - sediment - water Deposition - within field - base of slope The Environmental Policy Integrated Climate (EPIC) model Developed in early 1980’s to assess the effect of wind and water erosion on productivity Water Erosion Wind Erosion

6 6 Parton et al., 1994 (CENTURY) modified and added to EPIC as described in Izauralde, et al., 2006 EPIC carbon and nitrogen processes have been recently enhanced

7 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division Crops Modeled (irrigated and rainfed) Grass Hay Alfalfa Hay Other grasses Barley Canola Edible Beans Edible Peas Grain Corn Corn for Silage Cotton Oats Peanuts Potatoes Rice Rye (winter and spring) Grain Sorghum Sorghum for Silage Soybeans Winter Wheat Spring Wheat Other Crops 7

8 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division 8 Fertilize

9 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division U.S. Farm Production Regions 9

10 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division 10 DEC NOV OCT SEPT AUG Fertilizer Application Amount and Timing

11 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division 11 So how good are these estimates?

12 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division Preliminary Evaluation Plant and Harvest Dates 12

13 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division Preliminary Evaluation Annual Fertilizer Application 13 EPIC Plant-Demand Based Ruddy et al., 2006 USGS 2001 Sales-based USDA 1997 Survey-based NEI 2002 (via CMU) Sales-based USDA 1997 Survey-based

14 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division 14 The bi-directional flux science option of CMAQ 5.0 yields improved nitrogen deposition estimates, but requires detailed information regarding fertilizer management. Fertilizer management and biogeochemical scenarios have been developed for the continental U.S. Preliminary evaluation indicates these scenarios reflect reasonable temporal and spatial distributions of fertilizer management. A file of fertilizer-related inputs based on these scenarios is available on request for the CMAQ 5.0 CMAQ 12km CONUS domain to support the bi-directional flux science option. Summary

15 Office of Research and Development National Exposure Research Laboratory, Atmospheric Modeling and Analysis Division Future Improvements 15 Year Specific estimates Support for other CMAQ resolutions and domains Refined farm management Update BELD to 2006 NLCD and Agricultural Census Add detailed Mexico and Canada treatment

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