Systems modeling to improve river, riparian, and wetland habitat quality and area

Systems models to improve ecosystems often identify flows to meet minimum instream flow requirements or minimize deviations from a predefined flow regime. Here, we present a new systems optimization model that determines when, where, and how much to allocate scarce water, financial resources, and re...

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Published inEnvironmental modelling & software : with environment data news Vol. 126; p. 104643
Main Authors Alafifi, Ayman H., Rosenberg, David E.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.04.2020
Elsevier Science Ltd
Subjects
Agricultural management
Aquatic habitats
Bear river Utah
ecosystems
Environment models
Environmental quality
Floodplain revegetation
Floodplains
Growing season
Habitats
indigenous species
infrastructure
Instream flow
land restoration
Mass balance
Optimization
planting
Reservoir operations
Reservoir releases
Revegetation
River habitat quality
Rivers
spring
stream flow
system optimization
Systems models
Urban agriculture
Vegetation
Vegetation growth
Water management
Water masses
Water scarcity
Watershed management
watersheds
Web mapping application
Wetlands
winter
Bear River
Reservoir operations
River habitat quality
Web mapping application
Bear river Utah
Floodplain revegetation
Watershed management
Systems models
Online AccessGet full text
ISSN1364-8152
1873-6726
DOI10.1016/j.envsoft.2020.104643

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Abstract Systems models to improve ecosystems often identify flows to meet minimum instream flow requirements or minimize deviations from a predefined flow regime. Here, we present a new systems optimization model that determines when, where, and how much to allocate scarce water, financial resources, and revegetation efforts to improve aquatic, floodplain, and wetland habitat areas and quality. This optimization is subject to constraints on water mass balance, vegetation growth, infrastructure capacities, and meeting existing agricultural and urban water demands. We followed a participatory approach to apply and validate our model in the Lower Bear River watershed, UT. Results show that increasing winter reservoir releases, minimizing spring spills, and planting native floodplain vegetation early in the growing season can increase suitable habitat area beyond managing water alone. Additional flow on the Little Bear River between August and December will most increase habitat area and quality compared to other locations. •A new ecological objective quantifies the suitable habitat areas of aquatic, floodplain, and wetland habitat types.•A systems model shows when, where, and how much to allocate scarce resources to improve watershed habitat area and quality.•Synergistic water and vegetation management can improve habitat for native fish, floodplain vegetation, and migratory birds.•An open-access web map helps communicate opportunities to improve habitat area and quality to stakeholders.
AbstractList Systems models to improve ecosystems often identify flows to meet minimum instream flow requirements or minimize deviations from a predefined flow regime. Here, we present a new systems optimization model that determines when, where, and how much to allocate scarce water, financial resources, and revegetation efforts to improve aquatic, floodplain, and wetland habitat areas and quality. This optimization is subject to constraints on water mass balance, vegetation growth, infrastructure capacities, and meeting existing agricultural and urban water demands. We followed a participatory approach to apply and validate our model in the Lower Bear River watershed, UT. Results show that increasing winter reservoir releases, minimizing spring spills, and planting native floodplain vegetation early in the growing season can increase suitable habitat area beyond managing water alone. Additional flow on the Little Bear River between August and December will most increase habitat area and quality compared to other locations. •A new ecological objective quantifies the suitable habitat areas of aquatic, floodplain, and wetland habitat types.•A systems model shows when, where, and how much to allocate scarce resources to improve watershed habitat area and quality.•Synergistic water and vegetation management can improve habitat for native fish, floodplain vegetation, and migratory birds.•An open-access web map helps communicate opportunities to improve habitat area and quality to stakeholders.
Systems models to improve ecosystems often identify flows to meet minimum instream flow requirements or minimize deviations from a predefined flow regime. Here, we present a new systems optimization model that determines when, where, and how much to allocate scarce water, financial resources, and revegetation efforts to improve aquatic, floodplain, and wetland habitat areas and quality. This optimization is subject to constraints on water mass balance, vegetation growth, infrastructure capacities, and meeting existing agricultural and urban water demands. We followed a participatory approach to apply and validate our model in the Lower Bear River watershed, UT. Results show that increasing winter reservoir releases, minimizing spring spills, and planting native floodplain vegetation early in the growing season can increase suitable habitat area beyond managing water alone. Additional flow on the Little Bear River between August and December will most increase habitat area and quality compared to other locations.
ArticleNumber 104643
Author Alafifi, Ayman H.
Rosenberg, David E.
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  organization: Department of Civil and Environmental Engineering and Utah Water Research Laboratory, Utah State University, Logan, UT, USA
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Keywords Reservoir operations
River habitat quality
Web mapping application
Bear river Utah
Floodplain revegetation
Watershed management
Systems models
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SubjectTerms Agricultural management
Aquatic habitats
Bear river Utah
ecosystems
Environment models
Environmental quality
Floodplain revegetation
Floodplains
Growing season
Habitats
indigenous species
infrastructure
Instream flow
land restoration
Mass balance
Optimization
planting
Reservoir operations
Reservoir releases
Revegetation
River habitat quality
Rivers
spring
stream flow
system optimization
Systems models
Urban agriculture
Vegetation
Vegetation growth
Water management
Water masses
Water scarcity
Watershed management
watersheds
Web mapping application
Wetlands
winter
Title Systems modeling to improve river, riparian, and wetland habitat quality and area
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