Estimating IDF curves under changing climate conditions for different climate regions

IF 2.7 4区 环境科学与生态学 Q2 WATER RESOURCES
Burak Gül, Necati Kayaalp
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引用次数: 0

Abstract

Abstract Although climate models can highlight potential shifts in intensity–duration–frequency (IDF) curves, their limited geographical and temporal resolutions limit their direct use in predicting sub-daily heavy precipitation. To use global or regional model outputs to predict urban short-term precipitation, approaches that give the requisite level of spatial and temporal downscaling are required, and these processes remain one of the difficulties that have demanded intensive effort in recent years. Although no novel methods are given in this work, there are few studies in the literature that investigate the impact of climate change on the analysis and design of infrastructure-related engineering structures. Therefore, the purpose of this research is to determine the potential changes in IDF curves because of climate change. The equidistance quantile matching method was used to turn future rainfall forecast data from global climate models (HadGEM2-ES, MPI-ESM-MR, and GFDL-ESM2M) corresponding to RCP4.5 and RCP8.5 scenarios into standard duration rainfall data, and new IDF curves were generated. These IDF curves corresponded very well with those generated from observed data (R2 ≈ 1). The HadGEM2-ES model predicts up to a 25% rise in rainfall intensity, whereas the other two models expect up to a 50% drop.
估算不同气候区变化气候条件下的IDF曲线
尽管气候模式可以突出显示强度-持续时间-频率(IDF)曲线的潜在变化,但其有限的地理和时间分辨率限制了其在预测亚日强降水中的直接应用。为了利用全球或区域模式输出来预测城市短期降水,需要提供必要的空间和时间降尺度的方法,而这些过程仍然是近年来需要加强努力的困难之一。虽然在这项工作中没有提出新颖的方法,但在文献中很少有研究调查气候变化对基础设施相关工程结构分析和设计的影响。因此,本研究的目的是确定气候变化对IDF曲线的潜在影响。采用等距离分位数匹配方法,将RCP4.5和RCP8.5情景对应的全球气候模式(HadGEM2-ES、MPI-ESM-MR和GFDL-ESM2M)未来降水预报数据转化为标准时程降水数据,生成新的IDF曲线。这些IDF曲线与观测数据生成的曲线非常吻合(R2≈1)。HadGEM2-ES模型预测降雨强度将增加25%,而其他两个模型预计降雨强度将下降50%。
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来源期刊
CiteScore
4.80
自引率
10.70%
发文量
168
审稿时长
>12 weeks
期刊介绍: Journal of Water and Climate Change publishes refereed research and practitioner papers on all aspects of water science, technology, management and innovation in response to climate change, with emphasis on reduction of energy usage.
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