Improving the ability to include freshwater wetland plants in process-based models

A.S. Williams; D.M. Mushet; M. Lang; G.W. McCarty; J.A. Shaffer; S. Njambi Kahara; M.-V.V. Johnson; J.R. Kiniry

doi:10.2489/jswc.2020.00089

Research ArticleSPECIAL RESEARCH SECTION: RESEARCH INTRODUCTION

Improving the ability to include freshwater wetland plants in process-based models

A.S. Williams, D.M. Mushet, M. Lang, G.W. McCarty, J.A. Shaffer, S. Njambi Kahara, M.-V.V. Johnson and J.R. Kiniry

Journal of Soil and Water Conservation November 2020, 75 (6) 704-712; DOI: https://doi.org/10.2489/jswc.2020.00089

A.S. Williams

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D.M. Mushet

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M. Lang

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G.W. McCarty

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J.A. Shaffer

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S. Njambi Kahara

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M.-V.V. Johnson

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J.R. Kiniry

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Figure 1
Wetlands simulated from left to right are in California, North Dakota, and Delmarva. All five locations measured are shown below.
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Figure 2
Comparing measured and simulated plant yields for all data using singles site runs, runs of individual sites of the multisite species, and runs for the functional groups.
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Figure 3
Comparing measured and simulated plant yields just as in figure 2, but using multisite species average value instead of runs from each site of the multisite species.

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Journal of Soil and Water Conservation

Vol. 75, Issue 6

November/December 2020

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Improving the ability to include freshwater wetland plants in process-based models

A.S. Williams, D.M. Mushet, M. Lang, G.W. McCarty, J.A. Shaffer, S. Njambi Kahara, M.-V.V. Johnson, J.R. Kiniry

Journal of Soil and Water Conservation Nov 2020, 75 (6) 704-712; DOI: 10.2489/jswc.2020.00089

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Improving the ability to include freshwater wetland plants in process-based models

A.S. Williams, D.M. Mushet, M. Lang, G.W. McCarty, J.A. Shaffer, S. Njambi Kahara, M.-V.V. Johnson, J.R. Kiniry

Journal of Soil and Water Conservation Nov 2020, 75 (6) 704-712; DOI: 10.2489/jswc.2020.00089

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ALMANAC
functional groups
modeling
plants
wetlands

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