Unprecedented Drought Challenges for Texas Water Resources in a Changing Climate: What Do Researchers and Stakeholders Need to Know?

Long‐range water planning is complicated by factors that are rapidly changing in the 21st century, including climate, population, and water use. Here, we analyze climate factors and drought projections for Texas as an example of a diverse society straddling an aridity gradient to examine how the pro...

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Veröffentlicht in:	Earth's future 2020-08, Vol.8 (8), p.n/a, Article 2020
Hauptverfasser:	Nielson-Gammon, John W., Banner, Jay L., Cook, Benjamin I., Tremaine, Darrel M., Wong, Corinne I., Mace, Robert E., Gao, Huilin, Yang, Zong-Liang, Gonzales, Marisa Flores
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Schlagworte:	21st century Agricultural management Aridity Climate and population Climate change Climate models Drought Drying Environmental Sciences Environmental Sciences & Ecology Geology Geosciences, Multidisciplinary Groundwater Groundwater management Life Sciences & Biomedicine Meteorology & Atmospheric Sciences Meteorology And Climatology Physical Sciences Precipitation Regional planning Researchers Resilience Science & Technology Soil moisture Supply & demand Surface water Surface-groundwater relations Water resources Water shortages Water supply Water use
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creator	Nielson-Gammon, John W. Banner, Jay L. Cook, Benjamin I. Tremaine, Darrel M. Wong, Corinne I. Mace, Robert E. Gao, Huilin Yang, Zong-Liang Gonzales, Marisa Flores
description	Long‐range water planning is complicated by factors that are rapidly changing in the 21st century, including climate, population, and water use. Here, we analyze climate factors and drought projections for Texas as an example of a diverse society straddling an aridity gradient to examine how the projections can best serve water stakeholder needs. We find that climate models are robust in projecting drying of summer‐season soil moisture and decreasing reservoir supplies for both the eastern and western portions of Texas during the 21st century. Further, projections indicate drier conditions during the latter half of the 21st century than even the most arid centuries of the last 1,000 years that included megadroughts. To illustrate how accounting for drought non‐stationarity may increase water resiliency, we consider generalized case studies involving four key stakeholder groups: agricultural producers, large surface water suppliers, small groundwater management districts, and regional water planning districts. We also examine an example of customized climate information being used as input to long‐range water planning. We find that while stakeholders value the quantitative capability of climate model outputs, more specific climate‐related information better supports resilience planning across multiple stakeholder groups. New suites of tools could provide necessary capacity for both short and long‐term, stakeholder‐specific adaptive planning.
doi_str_mv	10.1029/2020EF001552
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Here, we analyze climate factors and drought projections for Texas as an example of a diverse society straddling an aridity gradient to examine how the projections can best serve water stakeholder needs. We find that climate models are robust in projecting drying of summer‐season soil moisture and decreasing reservoir supplies for both the eastern and western portions of Texas during the 21st century. Further, projections indicate drier conditions during the latter half of the 21st century than even the most arid centuries of the last 1,000 years that included megadroughts. To illustrate how accounting for drought non‐stationarity may increase water resiliency, we consider generalized case studies involving four key stakeholder groups: agricultural producers, large surface water suppliers, small groundwater management districts, and regional water planning districts. We also examine an example of customized climate information being used as input to long‐range water planning. 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subjects	21st century Agricultural management Aridity Climate and population Climate change Climate models Drought Drying Environmental Sciences Environmental Sciences & Ecology Geology Geosciences, Multidisciplinary Groundwater Groundwater management Life Sciences & Biomedicine Meteorology & Atmospheric Sciences Meteorology And Climatology Physical Sciences Precipitation Regional planning Researchers Resilience Science & Technology Soil moisture Supply & demand Surface water Surface-groundwater relations Water resources Water shortages Water supply Water use
title	Unprecedented Drought Challenges for Texas Water Resources in a Changing Climate: What Do Researchers and Stakeholders Need to Know?
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