Integrated assessment modeling reveals near-channel management as cost-effective to improve water quality in agricultural watersheds

Amy T Hansen; Todd Campbell; Se Jong Cho; Jonathon A. Czuba; Brent J Dalzell; Christy L Dolph; Peter L. Hawthorne; Sergey Rabotyagov; Zhengxin Lang; Karthik Kumarasamy; Patrick Belmont; Jacques C. Finlay; Efi Foufoula-Georgiou; Karen B. Gran; Catherine L. Kling; Peter Wilcock

doi:10.1073/pnas.2024912118

Integrated assessment modeling reveals near-channel management as cost-effective to improve water quality in agricultural watersheds

Amy T Hansen, Todd Campbell, Se Jong Cho, Jonathon A. Czuba, Brent J Dalzell, Christy L Dolph, Peter L. Hawthorne, Sergey Rabotyagov, Zhengxin Lang, Karthik Kumarasamy, Patrick Belmont, Jacques C. Finlay, Efi Foufoula-Georgiou, Karen B. Gran, Catherine L. Kling, Peter Wilcock

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

Despite decades of policy that strives to reduce nutrient and sediment export from agricultural fields, surface water quality in intensively managed agricultural landscapes remains highly degraded. Recent analyses show that current conservation efforts are not sufficient to reverse widespread water degradation in Midwestern agricultural systems. Intensifying row crop agriculture and increasing climate pressure require a more integrated approach to water quality management that addresses diverse sources of nutrients and sediment and off-field mitigation actions. We used multiobjective optimization analysis and integrated three biophysical models to evaluate the cost-effectiveness of alternative portfolios of watershed management practices at achieving nitrate and suspended sediment reduction goals in an agricultural basin of the Upper Midwestern United States. Integrating watershed-scale models enabled the inclusion of near-channel management alongside more typical field management and thus directly the comparison of cost-effectiveness across portfolios. The optimization analysis revealed that fluvial wetlands (i.e., wide, slow-flowing, vegetated water bodies within the riverine corridor) are the single-most cost-effective management action to reduce both nitrate and sediment loads and will be essential for meeting moderate to aggressive water quality targets. Although highly cost-effective, wetland construction was costly compared to other practices, and it was not selected in portfolios at low investment levels. Wetland performance was sensitive to placement, emphasizing the importance of watershed scale planning to realize potential benefits of wetland restorations. We conclude that extensive interagency cooperation and coordination at a watershed scale is required to achieve substantial, economically viable improvements in water quality under intensive row crop agricultural production.

Original language	English (US)
Article number	PNAS 2021 Vol. 118 No. 28 e2024912118
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	118
Issue number	28
DOIs	https://doi.org/10.1073/pnas.2024912118
State	Published - Jul 13 2021

Bibliographical note

Funding Information:
ACKNOWLEDGMENTS. This research was funded by the NSF under the Water Sustainability and Climate Program (WSC) through an Observatory grant (EAR-1209402): REACH (Resilience under Accelerated Change), a WSC Science, Engineering and Education for Sustainability Fellows grant (EAR-1415206) to A.T.H., US Department of Agriculture?Agriculture and Food

Funding Information:
Research Initiative (USDA AFRI) National Institute of Food and Agriculture grant to S.R., and a USDA National Resource Conservation Service grant to P.B. (CPT0011193). Special thanks to Iowa State’s Center for Agriculture and Rural Development for model integration and executing the optimization algorithm.

Funding Information:
ACKNOWLEDGMENTS. This research was funded by the NSF under the Water Sustainability and Climate Program (WSC) through an Observatory grant (EAR-1209402): REACH (Resilience under Accelerated Change), a WSC Science, Engineering and Education for Sustainability Fellows grant (EAR-1415206) to A.T.H., US Department of Agriculture–Agriculture and Food

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© 2021 National Academy of Sciences. All rights reserved.

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Research Support, Non-U.S. Gov't
Research Support, U.S. Gov't, Non-P.H.S.

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10.1073/pnas.2024912118

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Hansen, A. T., Campbell, T., Cho, S. J., Czuba, J. A., Dalzell, B. J., Dolph, C. L., Hawthorne, P. L., Rabotyagov, S., Lang, Z., Kumarasamy, K., Belmont, P., Finlay, J. C., Foufoula-Georgiou, E., Gran, K. B., Kling, C. L., & Wilcock, P. (2021). Integrated assessment modeling reveals near-channel management as cost-effective to improve water quality in agricultural watersheds. Proceedings of the National Academy of Sciences of the United States of America, 118(28), Article PNAS 2021 Vol. 118 No. 28 e2024912118. https://doi.org/10.1073/pnas.2024912118

Integrated assessment modeling reveals near-channel management as cost-effective to improve water quality in agricultural watersheds. / Hansen, Amy T; Campbell, Todd; Cho, Se Jong et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 118, No. 28, PNAS 2021 Vol. 118 No. 28 e2024912118, 13.07.2021.

Research output: Contribution to journal › Article › peer-review

Hansen, AT, Campbell, T, Cho, SJ, Czuba, JA, Dalzell, BJ , Dolph, CL, Hawthorne, PL, Rabotyagov, S, Lang, Z, Kumarasamy, K, Belmont, P, Finlay, JC, Foufoula-Georgiou, E, Gran, KB, Kling, CL & Wilcock, P 2021, 'Integrated assessment modeling reveals near-channel management as cost-effective to improve water quality in agricultural watersheds', Proceedings of the National Academy of Sciences of the United States of America, vol. 118, no. 28, PNAS 2021 Vol. 118 No. 28 e2024912118. https://doi.org/10.1073/pnas.2024912118

Hansen AT, Campbell T, Cho SJ, Czuba JA, Dalzell BJ , Dolph CL et al. Integrated assessment modeling reveals near-channel management as cost-effective to improve water quality in agricultural watersheds. Proceedings of the National Academy of Sciences of the United States of America. 2021 Jul 13;118(28):PNAS 2021 Vol. 118 No. 28 e2024912118. doi: 10.1073/pnas.2024912118

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abstract = "Despite decades of policy that strives to reduce nutrient and sediment export from agricultural fields, surface water quality in intensively managed agricultural landscapes remains highly degraded. Recent analyses show that current conservation efforts are not sufficient to reverse widespread water degradation in Midwestern agricultural systems. Intensifying row crop agriculture and increasing climate pressure require a more integrated approach to water quality management that addresses diverse sources of nutrients and sediment and off-field mitigation actions. We used multiobjective optimization analysis and integrated three biophysical models to evaluate the cost-effectiveness of alternative portfolios of watershed management practices at achieving nitrate and suspended sediment reduction goals in an agricultural basin of the Upper Midwestern United States. Integrating watershed-scale models enabled the inclusion of near-channel management alongside more typical field management and thus directly the comparison of cost-effectiveness across portfolios. The optimization analysis revealed that fluvial wetlands (i.e., wide, slow-flowing, vegetated water bodies within the riverine corridor) are the single-most cost-effective management action to reduce both nitrate and sediment loads and will be essential for meeting moderate to aggressive water quality targets. Although highly cost-effective, wetland construction was costly compared to other practices, and it was not selected in portfolios at low investment levels. Wetland performance was sensitive to placement, emphasizing the importance of watershed scale planning to realize potential benefits of wetland restorations. We conclude that extensive interagency cooperation and coordination at a watershed scale is required to achieve substantial, economically viable improvements in water quality under intensive row crop agricultural production.",

author = "Hansen, {Amy T} and Todd Campbell and Cho, {Se Jong} and Czuba, {Jonathon A.} and Dalzell, {Brent J} and Dolph, {Christy L} and Hawthorne, {Peter L.} and Sergey Rabotyagov and Zhengxin Lang and Karthik Kumarasamy and Patrick Belmont and Finlay, {Jacques C.} and Efi Foufoula-Georgiou and Gran, {Karen B.} and Kling, {Catherine L.} and Peter Wilcock",

note = "Funding Information: ACKNOWLEDGMENTS. This research was funded by the NSF under the Water Sustainability and Climate Program (WSC) through an Observatory grant (EAR-1209402): REACH (Resilience under Accelerated Change), a WSC Science, Engineering and Education for Sustainability Fellows grant (EAR-1415206) to A.T.H., US Department of Agriculture?Agriculture and Food Funding Information: Research Initiative (USDA AFRI) National Institute of Food and Agriculture grant to S.R., and a USDA National Resource Conservation Service grant to P.B. (CPT0011193). Special thanks to Iowa State{\textquoteright}s Center for Agriculture and Rural Development for model integration and executing the optimization algorithm. Funding Information: ACKNOWLEDGMENTS. This research was funded by the NSF under the Water Sustainability and Climate Program (WSC) through an Observatory grant (EAR-1209402): REACH (Resilience under Accelerated Change), a WSC Science, Engineering and Education for Sustainability Fellows grant (EAR-1415206) to A.T.H., US Department of Agriculture–Agriculture and Food Publisher Copyright: {\textcopyright} 2021 National Academy of Sciences. All rights reserved.",

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AU - Dolph, Christy L

AU - Hawthorne, Peter L.

AU - Rabotyagov, Sergey

AU - Lang, Zhengxin

AU - Kumarasamy, Karthik

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AU - Gran, Karen B.

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N2 - Despite decades of policy that strives to reduce nutrient and sediment export from agricultural fields, surface water quality in intensively managed agricultural landscapes remains highly degraded. Recent analyses show that current conservation efforts are not sufficient to reverse widespread water degradation in Midwestern agricultural systems. Intensifying row crop agriculture and increasing climate pressure require a more integrated approach to water quality management that addresses diverse sources of nutrients and sediment and off-field mitigation actions. We used multiobjective optimization analysis and integrated three biophysical models to evaluate the cost-effectiveness of alternative portfolios of watershed management practices at achieving nitrate and suspended sediment reduction goals in an agricultural basin of the Upper Midwestern United States. Integrating watershed-scale models enabled the inclusion of near-channel management alongside more typical field management and thus directly the comparison of cost-effectiveness across portfolios. The optimization analysis revealed that fluvial wetlands (i.e., wide, slow-flowing, vegetated water bodies within the riverine corridor) are the single-most cost-effective management action to reduce both nitrate and sediment loads and will be essential for meeting moderate to aggressive water quality targets. Although highly cost-effective, wetland construction was costly compared to other practices, and it was not selected in portfolios at low investment levels. Wetland performance was sensitive to placement, emphasizing the importance of watershed scale planning to realize potential benefits of wetland restorations. We conclude that extensive interagency cooperation and coordination at a watershed scale is required to achieve substantial, economically viable improvements in water quality under intensive row crop agricultural production.

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Integrated assessment modeling reveals near-channel management as cost-effective to improve water quality in agricultural watersheds

Abstract

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UN SDGs

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