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Scale-dependent Regional Climate Predictability over North America Inferred from CMIP3 and CMIP5 Ensemble Simulations

Scale-dependent Regional Climate Predictability over North America Inferred from CMIP3 and CMIP5 Ensemble Simulations
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摘要 Through the analysis of ensembles of coupled model simulations and projections collected from CMIP3 and CMIP5, we demonstrate that a fundamental spatial scale limit might exist below which useful additional refinement of climate model predictions and projections may not be possible. That limit varies among climate variables and from region to region. We show that the uncertainty(noise) in surface temperature predictions(represented by the spread among an ensemble of global climate model simulations) generally exceeds the ensemble mean(signal) at horizontal scales below 1000 km throughout North America, implying poor predictability at those scales. More limited skill is shown for the predictability of regional precipitation. The ensemble spread in this case tends to exceed or equal the ensemble mean for scales below 2000 km. These findings highlight the challenges in predicting regionally specific future climate anomalies, especially for hydroclimatic impacts such as drought and wetness. Through the analysis of ensembles of coupled model simulations and projections collected from CMIP3 and CMIP5, we demonstrate that a fundamental spatial scale limit might exist below which useful additional refinement of climate model predictions and projections may not be possible. That limit varies among climate variables and from region to region. We show that the uncertainty(noise) in surface temperature predictions(represented by the spread among an ensemble of global climate model simulations) generally exceeds the ensemble mean(signal) at horizontal scales below 1000 km throughout North America, implying poor predictability at those scales. More limited skill is shown for the predictability of regional precipitation. The ensemble spread in this case tends to exceed or equal the ensemble mean for scales below 2000 km. These findings highlight the challenges in predicting regionally specific future climate anomalies, especially for hydroclimatic impacts such as drought and wetness.
作者 Fuqing ZHANG Wei LI Michael E.MANN
机构地区 Department of Meteorology and Center for Advanced Data Assimilation and Predictability Techniques IMSG at NOAA
出处 《Advances in Atmospheric Sciences》 SCIE CAS CSCD 2016年第8期905-918,共14页 大气科学进展(英文版)
基金 partially supported by the NSF(Grant No.AGS-1305798) the ONR(Grant No.N000140910526)
关键词 regional climate predictability CMIP5 ensemble North America climate change regional climate predictability CMIP5 ensemble North America climate change
分类号 P435 [天文地球—大气科学及气象学]
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Advances in Atmospheric Sciences
2016年 第8期

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