SCAMA WARCAT (Water Resources and Climate Assessment Tool)
Relevant Documents
SCAMA WARCAT:
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The Water Resources and Climate Assessment Tool (WARCAT) developed for the Santa Cruz Active Management Area. Hydrologic Research Center Technical Note No. 88. Hydrologic Research Center, San Diego CA. 30 October 2016.
HRC_TN_88.pdf
Arizona Department of Water Resources (ADWR):
https://new.azwater.gov/hydrology/e-library
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Description of the Santa Cruz-Active Management Area
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ADWR Demand and Supply Assessment 1985-2025 Santa Cruz Active Management Area July 2012 [DRAFT]
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Groundwater Flow Model of the Santa Cruz Active Management Area Along the Effluent-Dominated Santa Cruz River, Santa Cruz and Pima Counties. Keith Nelson. Modeling Report No. 14 (March, 2007)
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Groundwater Flow Model of the Santa Cruz Active Management Area Microbasins International Boundary to Nogales International Wastewater Treatment Plant, Santa Cruz County, Arizona. Gretchen Erwin. Modeling Report No. 15 (2007)
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Analysis of Historic Water Level Data Related to Proposed Assured Water Supply Physical Availability Criteria for the Santa Cruz Active Management Area, Santa Cruz and Pima Counties, Arizona. Corkhill and Dubas. Modeling Report No.18 (2007)
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Risk Analysis of Pumping Impacts on Simulated Groundwater Flow in the Santa Cruz Active Management Area. Keith Nelson. Modeling Report No. 21 (May, 2010)
Hydrologic Research Center (HRC):
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Climate change and water resources management in the Upper Santa Cruz River, Arizona. Shamir, E., S.B. Megdal, C. Carrillo, C.L. Castro, H-I Chang, K. Chief, F.E. Corkhill, S. Eden, K.P. Georgakakos, K.M. Nelson, J. Prietto. 2015.. Journal of Hydrology, 521:18-33.
http://dx.doi.org/10.1016/j.jhydrol.2014.11.062
or from https://wrrc.arizona.edu/sites/wrrc.arizona.edu/files/1-s2.0-S0022169414009846-main.pdf
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Probabilistic streamflow generation model for data sparse arid watersheds. Shamir, E., J. Wang, and K. P. Georgakakos. 2007., Journal of American Water Resources Association 43(5) 1142-1154.
http://onlinelibrary.wiley.com/doi/10.1111/j.1752-1688.2007.00094.x/abstract
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Hydrologic model for water resources planning in Santa-Cruz River, Southern Arizona. Shamir, E., N. Graham, D. Meko, and K.P. Georgakakos. 2007, Journal of American Water Resources Association 43(5) 1155-1170.
HRC_TR4_01-10-06.pdf
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The value and skill of seasonal forecasts for water resources management in the Upper Santa Cruz River basin, southern Aizona. Shamir. E. 2017. Journal of Arid Environment, 137: 35-45
SCAMA Seasonal Forecast Assessment 2017
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Shamir Eylon and Eve Halper, Estimating climatic change impacts on water resources in arid environments: the role of downscaling methodology, Research and Development Office, Science and Technology Program, Final Report ST-2019-9039-01. March 2019
https://www.hrcwater.org/projects/a-comparison-of-precipitation-downscaling-procedures-to-guide-studies-of-climate-change-impacts-on-flooding-and-water-resources/
Water Resources Research Center, University of Arizona:
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Tapia‐Villaseñor, E.M., Shamir, E., Megdal, S.B., and Petersen‐Perlman, J.D.. 2020. " Impacts of Variable Climate and Effluent Flows on the Transboundary Santa Cruz Aquifer." Journal of the American Water Resources Association 56 ( 3): 409– 430.
https://doi.org/10.1111/1752-1688.12853
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Opening the Black Box: Using a Hydrological Model to Link Stakeholder Engagement with Groundwater Management. Eden, S., S.B. Megdal, E. Shamir, K. Chief, and E. Mott Lacroix. 2016.. Water 8(5), 216 doi:10.3390/w8050216.
http://www.mdpi.com/2073-4441/8/5/216
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GCASE Groundwater, Climate and Stakeholder Engagement, A Framework for Informing Groundwater Management
https://wrrc.arizona.edu/sites/wrrc.arizona.edu/files/AWR-GCASE-Insert-Spring-2015.pdf