Decision support tool seeks to aid stream-flow recovery and enhance water security
In many parts of coastal California, agricultural water needs during the summer are met by tapping riparian and groundwater resources, which has led to documented decreases in stream flow during the dry season. This has consequences for salmon, including sudden drying of h...
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doaj-0b6b78a5a37a4734b5a1178d00553ea02020-11-24T21:14:36ZengUniversity of California Agriculture and Natural ResourcesCalifornia Agriculture0008-08452160-80912008-05-0162414815510.3733/ca.v062n04p14810.3733/cav062n04_7Decision support tool seeks to aid stream-flow recovery and enhance water securityAdina Merenlender0Matthew J. Deitch1Shane Feirer2A.M. Merenlender is Cooperative Extension Specialist, Integrated Hardwood Range Management Program, Department of Environmental Science. Policy and Management (ESPM), UC BerkeleyM.J. Deitch is Senior Environmental Scientist, Center for Ecosystem Management and Restoration, Oakland (formerly Postdoctoral Fellow, ESPM, UC Berkeley)S. Feirer is GIS analyst, UC Hopland Research and Extension Center. This research was funded in part by the U.S. Environmental Protection Agency (STAR grant G4K10732), and Sonoma County Water Agency. Our colleagues at UC Berkeley have been instrumental in developing some of these ideas: Juliet Christian-Smith. Ted Grantham. G. Matt Kondolf, Ruth Langridge, David Newburn and Vince Resh. We also thank the Salmon Coalition for their interest in applying our research.In many parts of coastal California, agricultural water needs during the summer are met by tapping riparian and groundwater resources, which has led to documented decreases in stream flow during the dry season. This has consequences for salmon, including sudden drying of habitat, higher water temperatures and changes in the invertebrate prey base. We developed a new, spatially explicit analytical tool to quantify and map human and environmental needs, model daily stream-flow rates, and estimate regulatory flow requirements and cumulative impacts of reservoirs. This tool is part of a decision support system that can be integrated in a Geographic Information System (GIS) with other restoration considerations. This research provides a basis for placing additional reservoir storage where projects are not likely to affect adult salmon passage, while reducing water demand from surface and subsurface flows during spring and summer, ultimately improving both habitat for salmonids and water supply for growers.http://calag.ucanr.edu/archive/?article=ca.v062n04p148 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Adina Merenlender Matthew J. Deitch Shane Feirer |
spellingShingle |
Adina Merenlender Matthew J. Deitch Shane Feirer Decision support tool seeks to aid stream-flow recovery and enhance water security California Agriculture |
author_facet |
Adina Merenlender Matthew J. Deitch Shane Feirer |
author_sort |
Adina Merenlender |
title |
Decision support tool seeks to aid stream-flow recovery and enhance water security |
title_short |
Decision support tool seeks to aid stream-flow recovery and enhance water security |
title_full |
Decision support tool seeks to aid stream-flow recovery and enhance water security |
title_fullStr |
Decision support tool seeks to aid stream-flow recovery and enhance water security |
title_full_unstemmed |
Decision support tool seeks to aid stream-flow recovery and enhance water security |
title_sort |
decision support tool seeks to aid stream-flow recovery and enhance water security |
publisher |
University of California Agriculture and Natural Resources |
series |
California Agriculture |
issn |
0008-0845 2160-8091 |
publishDate |
2008-05-01 |
description |
In many parts of coastal California, agricultural water needs during the summer are
met by tapping riparian and groundwater resources, which has led to documented decreases
in stream flow during the dry season. This has consequences for salmon, including
sudden drying of habitat, higher water temperatures and changes in the invertebrate
prey base. We developed a new, spatially explicit analytical tool to quantify and
map human and environmental needs, model daily stream-flow rates, and estimate regulatory
flow requirements and cumulative impacts of reservoirs. This tool is part of a decision
support system that can be integrated in a Geographic Information System (GIS) with
other restoration considerations. This research provides a basis for placing additional
reservoir storage where projects are not likely to affect adult salmon passage, while
reducing water demand from surface and subsurface flows during spring and summer,
ultimately improving both habitat for salmonids and water supply for growers. |
url |
http://calag.ucanr.edu/archive/?article=ca.v062n04p148 |
work_keys_str_mv |
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