N and P Reduction Estimation Consider complete range of management and structural practices Models vs. Measurements Iowa results where possible Capturing.

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N and P Reduction Estimation Consider complete range of management and structural practices Models vs. Measurements Iowa results where possible Capturing mean and range of published results Not a meta-modeling exercise Spatial resolution – Reliance on GIS Imperfect knowledge of current practices (where are we starting?)

Consider complete range of management and structural practices Fertilizer rate, placement, timing, form Precision agriculture Nitrification inhibitors Soil testing Manure management Extended rotations Tillage Drainage management Cover crops Living mulches Energy crops Land retirement Bioreactors Wetlands Vegetated buffers

N and P Reduction Estimation Consider complete range of management and structural practices Models vs. Measurements Iowa results where possible Capturing mean and range of published results Not a meta-modeling exercise Spatial resolution – Reliance on GIS Imperfect knowledge of current practices (where are we starting?)

Models vs. Measurements RZWQM Drainmod SWAT AGNPS APEX Gleams ADAPT WEPP

N and P Reduction Estimation Consider complete range of management and structural practices Models vs. Measurements Iowa results where possible Capturing mean and range of published results Not a meta-modeling exercise Spatial resolution – Reliance on GIS Imperfect knowledge of current practices (where are we starting?)

Iowa results where possible Nitrate-N leaching losses due to winter cover crops (adapted in part from Meisinger et al., 1991). Reference Location Cover cropN Leaching Reduction Morgan et al., 1942 Connecticut, U.S. Rye 66% Karraker et al., 1950 Kentucky, U.S. Rye 74% Nielsen and Jensen, 1985 Denmark Ryegrass 62% Martinez and Guirard, 1990 France Ryegrass 63% Staver and Brinsfield, 1990 Maryland, U.S. Rye 77% McCracken et al., 1994 Kentucky, U.S. Rye 94% Wyland et al., 1996 California, U.S. Rye % Brandi-Dohrn et al., 1997 Oregon, U.S. Rye % Ritter et al., 1998 Delaware, U.S. Rye 30% Kaspar et al., 2007 Iowa, U.S. Rye 61% Strock et al., 2004 Minnesota, U.S. Rye 13% Kladivko et al., 2004 Indiana, U.S. Winter wheat61%

N and P Reduction Estimation Consider complete range of management and structural practices Models vs. Measurements Iowa results where possible Capturing mean and range of published results Not a meta-modeling exercise Spatial resolution – Reliance on GIS Imperfect knowledge of current practices (where are we starting?)

Capturing mean and range of published results Not a meta-modeling exercise

N and P Reduction Estimation Consider complete range of management and structural practices Models vs. Measurements Iowa results where possible Capturing mean and range of published results Not a meta-modeling exercise Spatial resolution – Reliance on GIS Imperfect knowledge of current practices (where are we starting?)

Spatial resolution– Reliance on GIS County level estimates Tillage practices Fertilizer rates GIS estimates Drained land Existing riparian buffers Crop rotations Land cover

N and P Reduction Estimation Consider complete range of management and structural practices Models vs. Measurements Iowa results where possible Capturing mean and range of published results Not a meta-modeling exercise Spatial resolution – Reliance on GIS Imperfect knowledge of current practices (where are we starting?)

“Universal NO 3 response curve” Imperfect knowledge of current practices

“Universal NO 3 response curve”

Imperfect knowledge of current practices “Universal NO 3 response curve”

N and P Reduction Estimation Consider complete range of management and structural practices Models vs. Measurements Iowa results where possible Capturing mean and range of published results Not a meta-modeling exercise Spatial resolution – Reliance on GIS Imperfect knowledge of current practices (where are we starting?)