模拟气候变化引起的极端降雨的非平稳性:水文分析的综合方法

IF 12.9 1区 管理学 Q1 BUSINESS Technological Forecasting and Social Change Pub Date : 2024-08-27 DOI:10.1016/j.techfore.2024.123693
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引用次数: 0

摘要

气候变化和全球变暖引起了极端降雨模式的动态变化,导致了非稳态降雨行为。这种行为的改变对传统的水文设计提出了挑战,因为传统的水文设计假定降雨是静态的,可能会产生误导性结果。本研究旨在通过建立带有协变量的分布参数模型来解决非稳态问题。利用印度气象局(IMD)的 70 年(1951-2020 年)高分辨率网格数据集,提取了印度不同城市的极端年降雨量并建立了模型。以往的研究和拟合优度测试都倾向于使用广义极值(GEV)分布来模拟极端情况。这项研究结合了 Nino3.4、偶极子模式指数、全球和本地温度、二氧化碳和时间等指数,利用气候周期和全球变暖来描述极端年降雨量的非平稳性。性能评估采用了阿凯克信息准则、贝叶斯信息准则和似然比检验,并通过置信区间(CIs)评估了量化可靠性。研究结果表明,大多数网格点普遍存在非稳态趋势,这导致所选的非超标概率和拟合模型中的协变量的估计量位值的置信区间较宽。一般来说,非稳态条件与更宽的回归水平置信区间相关联,凸显了非稳态模型与稳态模型相比的弱点。然而,研究结果表明,极端降雨量遵循非平稳模式。因此,亟需开发低不确定性的非平稳模型。
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Modelling climate change-induced nonstationarity in rainfall extremes: A comprehensive approach for hydrological analysis

Climate change and global warming have induced a dynamic shift in extreme rainfall patterns, leading to nonstationary behaviour. This alteration in behaviour challenges conventional hydrologic design, which assumes stationarity and can yield misleading outcomes. This study aims to address nonstationarity by modelling distribution parameters with covariates. Utilizing a 70-year (1951–2020) high-resolution India Meteorological Department (IMD) gridded dataset, extreme annual rainfall across diverse Indian cities was extracted and modelled. Previous research and goodness-of-fit tests favour the Generalized Extreme Value (GEV) distribution for modelling extremes. This study incorporates indices like Nino3.4, dipole mode index, global and local temperature, CO2, and time to characterize nonstationarity in extreme annual rainfall, leveraging climate cycles and global warming. Performance assessment employs the Akaike information criterion, Bayesian information criterion and Likelihood ratio test, while quantile reliability is evaluated through confidence intervals (CIs). Findings reveal widespread nonstationary trends in most grid points, translating to wider CIs in estimated quantiles for chosen non-exceedance probability and covariates in fitted models. Generally, nonstationary conditions are associated with broader confidence bands in return levels, highlighting nonstationary model weaknesses compared to stationary models. However, the results showed that the rainfall extremes follow a nonstationary pattern. Hence, there is a strong need to develop nonstationary models of low uncertainty.

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来源期刊
CiteScore
21.30
自引率
10.80%
发文量
813
期刊介绍: Technological Forecasting and Social Change is a prominent platform for individuals engaged in the methodology and application of technological forecasting and future studies as planning tools, exploring the interconnectedness of social, environmental, and technological factors. In addition to serving as a key forum for these discussions, we offer numerous benefits for authors, including complimentary PDFs, a generous copyright policy, exclusive discounts on Elsevier publications, and more.
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