Anthropogenic warming has increased drought risk in California

California is currently in the midst of a record-setting drought. The drought began in 2012 and now includes the lowest calendar-year and 12-mo precipitation, the highest annual temperature, and the most extreme drought indicators on record. The extremely warm and dry conditions have led to acute wa...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2015-03, Vol.112 (13), p.3931-3936
Hauptverfasser:	Diffenbaugh, Noah S., Swain, Daniel L., Touma, Danielle
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Sprache:	eng
Schlagworte:	California Chemical precipitation Climate Climate change Drought Droughts Experiments Global Warming Groundwater Physical Sciences Probability Rain Risk factors Seasons Temperature Water Supply Weather
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Diffenbaugh, Noah S. Swain, Daniel L. Touma, Danielle
description	California is currently in the midst of a record-setting drought. The drought began in 2012 and now includes the lowest calendar-year and 12-mo precipitation, the highest annual temperature, and the most extreme drought indicators on record. The extremely warm and dry conditions have led to acute water shortages, groundwater overdraft, critically low streamflow, and enhanced wildfire risk. Analyzing historical climate observations from California, we find that precipitation deficits in California were more than twice as likely to yield drought years if they occurred when conditions were warm. We find that although there has not been a substantial change in the probability of either negative or moderately negative precipitation anomalies in recent decades, the occurrence of drought years has been greater in the past two decades than in the preceding century. In addition, the probability that precipitation deficits co-occur with warm conditions and the probability that precipitation deficits produce drought have both increased. Climate model experiments with and without anthropogenic forcings reveal that human activities have increased the probability that dry precipitation years are also warm. Further, a large ensemble of climate model realizations reveals that additional global warming over the next few decades is very likely to create ∼100% probability that any annual-scale dry period is also extremely warm. We therefore conclude that anthropogenic warming is increasing the probability of co-occurring warm–dry conditions like those that have created the acute human and ecosystem impacts associated with the “exceptional” 2012–2014 drought in California.
doi_str_mv	10.1073/pnas.1422385112
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subjects	California Chemical precipitation Climate Climate change Drought Droughts Experiments Global Warming Groundwater Physical Sciences Probability Rain Risk factors Seasons Temperature Water Supply Weather
title	Anthropogenic warming has increased drought risk in California
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