Integrating fast and slow processes is essential for simulating human–freshwater interactions

Nicole K. Ward; Leah Fitchett; Julia A. Hart; Lele Shu; Joeseph Stachelek; Weizhe Weng; Yu Zhang; Hilary Dugan; Amy Hetherington; Kevin Boyle; Cayelan C. Carey; Kelly M. Cobourn; Paul C. Hanson; Armen R. Kemanian; Michael G. Sorice; Kathleen C. Weathers

doi:10.1007/s13280-018-1136-6

Integrating fast and slow processes is essential for simulating human–freshwater interactions

Nicole K. Ward, Leah Fitchett, Julia A. Hart, Lele Shu, Joeseph Stachelek, Weizhe Weng, Yu Zhang, Hilary Dugan, Amy Hetherington, Kevin Boyle, Cayelan C. Carey, Kelly M. Cobourn, Paul C. Hanson, Armen R. Kemanian, Michael G. Sorice, Kathleen C. Weathers

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

12 Scopus citations

Abstract

Integrated modeling is a critical tool to evaluate the behavior of coupled human–freshwater systems. However, models that do not consider both fast and slow processes may not accurately reflect the feedbacks that define complex systems. We evaluated current coupled human–freshwater system modeling approaches in the literature with a focus on categorizing feedback loops as including economic and/or socio-cultural processes and identifying the simulation of fast and slow processes in human and biophysical systems. Fast human and fast biophysical processes are well represented in the literature, but very few studies incorporate slow human and slow biophysical system processes. Challenges in simulating coupled human–freshwater systems can be overcome by quantifying various monetary and non-monetary ecosystem values and by using data aggregation techniques. Studies that incorporate both fast and slow processes have the potential to improve complex system understanding and inform more sustainable decision-making that targets effective leverage points for system change.

Original language	English (US)
Pages (from-to)	1169-1182
Number of pages	14
Journal	Ambio
Volume	48
Issue number	10
DOIs	https://doi.org/10.1007/s13280-018-1136-6
State	Published - Oct 15 2019

All Science Journal Classification (ASJC) codes

Geography, Planning and Development
Environmental Chemistry
Ecology

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Ward, N. K., Fitchett, L., Hart, J. A., Shu, L., Stachelek, J., Weng, W., Zhang, Y., Dugan, H., Hetherington, A., Boyle, K., Carey, C. C., Cobourn, K. M., Hanson, P. C., Kemanian, A. R., Sorice, M. G., & Weathers, K. C. (2019). Integrating fast and slow processes is essential for simulating human–freshwater interactions. Ambio, 48(10), 1169-1182. https://doi.org/10.1007/s13280-018-1136-6

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title = "Integrating fast and slow processes is essential for simulating human–freshwater interactions",

abstract = "Integrated modeling is a critical tool to evaluate the behavior of coupled human–freshwater systems. However, models that do not consider both fast and slow processes may not accurately reflect the feedbacks that define complex systems. We evaluated current coupled human–freshwater system modeling approaches in the literature with a focus on categorizing feedback loops as including economic and/or socio-cultural processes and identifying the simulation of fast and slow processes in human and biophysical systems. Fast human and fast biophysical processes are well represented in the literature, but very few studies incorporate slow human and slow biophysical system processes. Challenges in simulating coupled human–freshwater systems can be overcome by quantifying various monetary and non-monetary ecosystem values and by using data aggregation techniques. Studies that incorporate both fast and slow processes have the potential to improve complex system understanding and inform more sustainable decision-making that targets effective leverage points for system change.",

author = "Ward, {Nicole K.} and Leah Fitchett and Hart, {Julia A.} and Lele Shu and Joeseph Stachelek and Weizhe Weng and Yu Zhang and Hilary Dugan and Amy Hetherington and Kevin Boyle and Carey, {Cayelan C.} and Cobourn, {Kelly M.} and Hanson, {Paul C.} and Kemanian, {Armen R.} and Sorice, {Michael G.} and Weathers, {Kathleen C.}",

note = "Funding Information: This work was financially supported by the National Science Foundation Coupled Natural and Human Systems grant ICER-1517823. We thank the CNH-Lakes team for their helpful comments throughout the project, and members of the Carey Lab at Virginia Tech for feedback on figures. Publisher Copyright: {\textcopyright} 2018, The Author(s).",

year = "2019",

month = oct,

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doi = "10.1007/s13280-018-1136-6",

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Ward, NK, Fitchett, L, Hart, JA, Shu, L, Stachelek, J, Weng, W, Zhang, Y, Dugan, H, Hetherington, A, Boyle, K, Carey, CC, Cobourn, KM, Hanson, PC, Kemanian, AR, Sorice, MG & Weathers, KC 2019, 'Integrating fast and slow processes is essential for simulating human–freshwater interactions', Ambio, vol. 48, no. 10, pp. 1169-1182. https://doi.org/10.1007/s13280-018-1136-6

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T1 - Integrating fast and slow processes is essential for simulating human–freshwater interactions

AU - Ward, Nicole K.

AU - Fitchett, Leah

AU - Hart, Julia A.

AU - Shu, Lele

AU - Stachelek, Joeseph

AU - Weng, Weizhe

AU - Zhang, Yu

AU - Dugan, Hilary

AU - Hetherington, Amy

AU - Boyle, Kevin

AU - Carey, Cayelan C.

AU - Cobourn, Kelly M.

AU - Hanson, Paul C.

AU - Kemanian, Armen R.

AU - Sorice, Michael G.

AU - Weathers, Kathleen C.

N1 - Funding Information: This work was financially supported by the National Science Foundation Coupled Natural and Human Systems grant ICER-1517823. We thank the CNH-Lakes team for their helpful comments throughout the project, and members of the Carey Lab at Virginia Tech for feedback on figures. Publisher Copyright: © 2018, The Author(s).

PY - 2019/10/15

Y1 - 2019/10/15

N2 - Integrated modeling is a critical tool to evaluate the behavior of coupled human–freshwater systems. However, models that do not consider both fast and slow processes may not accurately reflect the feedbacks that define complex systems. We evaluated current coupled human–freshwater system modeling approaches in the literature with a focus on categorizing feedback loops as including economic and/or socio-cultural processes and identifying the simulation of fast and slow processes in human and biophysical systems. Fast human and fast biophysical processes are well represented in the literature, but very few studies incorporate slow human and slow biophysical system processes. Challenges in simulating coupled human–freshwater systems can be overcome by quantifying various monetary and non-monetary ecosystem values and by using data aggregation techniques. Studies that incorporate both fast and slow processes have the potential to improve complex system understanding and inform more sustainable decision-making that targets effective leverage points for system change.

AB - Integrated modeling is a critical tool to evaluate the behavior of coupled human–freshwater systems. However, models that do not consider both fast and slow processes may not accurately reflect the feedbacks that define complex systems. We evaluated current coupled human–freshwater system modeling approaches in the literature with a focus on categorizing feedback loops as including economic and/or socio-cultural processes and identifying the simulation of fast and slow processes in human and biophysical systems. Fast human and fast biophysical processes are well represented in the literature, but very few studies incorporate slow human and slow biophysical system processes. Challenges in simulating coupled human–freshwater systems can be overcome by quantifying various monetary and non-monetary ecosystem values and by using data aggregation techniques. Studies that incorporate both fast and slow processes have the potential to improve complex system understanding and inform more sustainable decision-making that targets effective leverage points for system change.

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JO - Ambio

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ER -

Integrating fast and slow processes is essential for simulating human–freshwater interactions

Abstract

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