Projected Changes in Extreme Precipitation Events in Guizhou Based on CMIP5 Simulations over the 21st Century

doi:10.3969/j.issn.1000-6362.2017.10.004

Abstract

Abstract: Under three different scenarios of greenhouse gas emission including RCP8.5, 4.5 and 2.5, the daily precipitation data in Guizhou, covering the period of 2006-2016 from 8 CMIP5 models provided by the National Climate Center, were examined in this study by using the Taylor diagrams. The data from two models (CCSM4 and IPSL-CM5A-MR) with the best simulation results were selected to calculate the extreme precipitation indices during three periods of 2018-2044, 2045-2071 and 2072-2098 subsequently. The indices included maximum number of consecutive dry days(CDD), numbers of days with precipitation ≥20mm·d-1(R20mm), maximum 5 day precipitation total(Rx5day) and simple daily intensity index(SDII), respectively, in comparison to those during the period 1986-2005. It was indicated that the CDD over the eastern regions grew during the 21st century under the three RCPs scenarios and the increase was proportional to the emission scenario. This described that more attention should be paid on the potential drought over the eastern Guizhou in future. Besides, the increases in R20mm, Rx5day and SDII were also detected in Guizhou during the 21st century. In the late 21st century, the increment of the extreme precipitation was more obvious under high emission(RCP8.5) than those under lower emission (RCP4.5 and 2.6). Overall, it was suggested that extreme precipitation events over Guizhou showed an uprising trend with more gas emission, under the background of the global warming.

Key words: Taylor diagrams, RCPs scenarios, Projected climate change, Extreme precipitation events

ZHANG Jiao-yan，LI Yang，ZHANG Dong-hai，CHEN Zhen-hong，YANG Yi. Projected Changes in Extreme Precipitation Events in Guizhou Based on CMIP5 Simulations over the 21st Century[J]. Chinese Journal of Agrometeorology, 2017, 38(10): 655-662.

References

[1]Taylor K E,Stouffer R J,Meehl G A.An overview of CMIP5 and the experiment design[J].Bulletin of the American Meteorological Society,2012,93(4):485-498. [2]陶辉,黄金龙,翟建青,等.长江流域气候变化高分辨率模拟与RCP4.5情景下的预估[J].气候变化研究进展,2013,9(4): 246-251. Tao H,Huang J L,Zhai J Q,et al.Simulation and projection of climate changes under the RCP4.5 scenario in the Yangtze River Basin based on CCLM[J].Advances in Climate Change Research,2013,9(4):246-251.(in Chinese) [3]杨红龙,王炳坤,杜尧东,等.RCPs情景下珠江流域气候变化预估分析[J].热带气象学报,2014,30(3):503-510. Yang H L,Wang B K,Du Y D,et al.Projected change in mean climate in the pearl river basin under the RCPS scenarios[J]. Journal of Tropical Meteorology,2014,30(3):503-510.(in Chinese) [4]胡芩,姜大膀,范广洲.青藏高原未来气候变化预估:CMIP5模式结果[J].大气科学,2015,39(2):260-270. Hu Q,Jiang D B,Fan G Z.Climate change projection on the Tibetan Plateau:results of CMIP5 models[J].Chinese Journal of Atmospheric Sciences,2015,39(2):260-270.(in Chinese) [5]陶纯苇,姜超,孙建新.CMIP5模式对中国东北气候模拟能力的评估[J].气候与环境研究,2016,21(3):357-366. Tao C W,Jiang C,Sun J X.Evaluation of CMIP5 models performance on climate simulation in Northeast China[J]. Climatic and Environmental Research,2016,21(3):357-366. (in Chinese) [6]陈活泼.CMIP5模式对21世纪末中国极端降水事件变化的预估[J].科学通报,2013,58(8):743-752. Chen H P.Projected change in extreme rainfall events in China by the end of the 21st century using CMIP5 models[J]. Chin Sci Bull,2013,58(8):743-752.(in Chinese) [7]吴蔚,穆海振,梁卓然,等.CMIP5全球气候模式对上海极端气温和降水的情景预估[J].气候与环境研究,2016,21(3): 269-281. Wu W,Mu H Z,Liang Z R,et al.Projected changes in extreme temperature and precipitation events in Shanghai based on CMIP5 simulations[J].Climatic and Environmental Research, 2016,21(3):269-281.(in Chinese) [8]吴佳,周波涛,徐影.中国平均降水和极端降水对气候变暖的响应:CMIP5模式模拟评估和预估[J].地球物理学报, 2015,58(9):3048-3060. Wu J,Zhou B T,Xu Y.Response of precipitation and its extremes over China to warming:CMIP5 simulation and projection[J].Chinese Journal of Geophysics,2015,58(9): 3048-3060.(in Chinese) [9]张武龙,张井勇,范广州.CMIP5模式对我国西南地区干湿季降水的模拟和预估[J].大气科学,2015,39(3):559-570. Zhang W L,Zhang J Y,Fan G Z.Evaluation and projection of dry-and wet-season precipitation in southwestern China using CMIP5 models[J].Chinese Journal of Atmospheric Sciences, 2015,39(3):559-570.(in Chinese) [10]程建刚,宋连春,黄玮,等.云南省未来10~30年气候变化预估及其影响评估报告[M].北京:气象出版社, 2014. Cheng J G,Song L C,Huang W,et al.Assessment report of climate change forecast and its impact on Yunnan Province in the next 1 to 3 decades[M].Beijing:China Meteorological Press,2014.(in Chinese) [11]Frich P,Alexander L,Della M,et al.Observed coherent changes in climatic extremes during the second half of the twentieth century[J].Climate Res,2002,19:193-212. [12]张天宇,范莉,程炳岩,等.1961-2007年三峡库区极端降水指数R5d的变化规律及其未来情景预估[J].中国农业气象, 2010,31(2):176-182. Zhang T Y,Fan L,Cheng B Y,et al.Variation of extreme precipitation index(maximum consecutive 5-day precipitation totals)in the three gorges during 1961-2007 and scenario projections[J].Chinese Journal of Agrometeorology,2010, 31(2):176-182.(in Chinese) [13]吴灿,赵景波,王格慧.黄河流域极端气温指数的气候演变特征分析[J].中国农业气象,2015,36(5):525-535. Wu C,Zhao J B,Wang G H.Characteristic analysis of the climatic revolution in the Yellow River extreme temperature index[J].Chinese Journal of Agrometeorology,2015,36(5): 525-535.(in Chinese) [14]王冀,蒋大凯,张英娟.华北地区极端气候事件的时空变化规律分析[J].中国农业气象,2012,33(2):166-173. Wang J,Jiang D K,Zhang Y J.Analysis on spatial and temporal variation of extreme climate events in North China [J].Chinese Journal of Agrometeorology,2012,33(2):166- 173.(in Chinese) [15]汪宝龙,张明军,魏军林,等.1960-2009年青海省极端气温事件的变化特征[J].中国农业气象,2012,33(1):41-47. Wang B L,Zhang M J,Wei J L,et al.Characteristics of extreme temperature in Qinghai Province during 1960- 2009[J].Chinese Journal of Agrometeorology,2012,33(1): 41-47.(in Chinese) [16]陶纯苇,姜超,孙建新.CMIP5模式对中国东北气候模拟能力的评估[J].气候与环境研究,2016,21(3):357-366. Tao C W,Jiang C,Sun J X.Evaluation of CMIP5 models performance on climate simulation in Northeast China[J]. Climatic and Environmental Research,2016,21(3):357-366. (in Chinese) [17]姜燕敏,吴昊旻.20 个CMIP5模式对中亚地区年平均气温模拟能力评估[J].气候变化研究进展,2013,9 (2):110-116. Jiang Y M,Wu H M.Simulation capabilities of 20 CMIP5 Models for annual mean air temperatures in central Asia[J]. Advances in Climate Change Research,2013,9(2): 110-116. (in Chinese) [18]王麟,刘毅鹏,汪健,等.5个CMIP5模式对低纬高原气温的模拟和预估[J].云南大学学报(自然科学版),2015,37(6): 851-860. Wang L,Liu Y P,Wang J,et al.Simulations and estimates of low latitude highland temperature by 5 CMIP5 models[J]. Journal of Yunnan University,2015,37(6):851-860.(in Chinese) [19]刘文茹,居辉,陈国庆,等.典型浓度路径(RCP)情景下长江中下游地区气温变化预估[J].中国农业气象,2017,38(2): 65-75. Liu W R,Ju H,Chen G Q,et al.Prediction on the possible air temperature change over the Middle and Lower Yangtze River Basin under the RCP scenarios[J].Chinese Journal of Agrometeorology,2017,38(2):65-75.(in Chinese) [20]曹祥会,龙怀玉,张继宗,等.河北省主要极端气候指数的时空变化特征[J].中国农业气象,2015,36(3):245-253. Cao X H,Long H Y,Zhang J Z,et al.Temporal and spatial variation analysis of the main extreme climate index in Hebei Province[J].Chinese Journal of Agrometeorology, 2015,36(3):245-253.(in Chinese)