Global hydrological reanalyses: The value of river discharge information for world-wide downstream applications – The example of the Global Flood Awareness System GloFAS

IF 2.3 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES
Christel Prudhomme, Ervin Zsótér, Gwyneth Matthews, Angelique Melet, Stefania Grimaldi, Hao Zuo, Eleanor Hansford, Shaun Harrigan, Cinzia Mazzetti, Eric de Boisseson, Peter Salamon, Gilles Garric
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Abstract

Global hydrological reanalyses are modelled datasets providing information on river discharge evolution everywhere in the world. With multi-decadal daily timeseries, they provide long-term context to identify extreme hydrological events such as floods and droughts. By covering the majority of the world's land masses, they can fill the many gaps in river discharge in-situ observational data, especially in the global South. These gaps impede knowledge of both hydrological status and future evolution and hamper the development of reliable early warning systems for hydrological-related disaster reduction. River discharge is a natural integrator of the water cycle over land. Global hydrological reanalysis datasets offer an understanding of its spatio-temporal variability and are therefore critical for addressing the water–energy–food–environment nexus. This paper describes how global hydrological reanalyses can fill the lack of ground measurements by using earth system or hydrological models to provide river discharge time series. Following an inventory of alternative sources of river discharge datasets, reviewing their advantages and limitations, the paper introduces the Copernicus Emergency Management Service (CEMS) Global Flood Awareness System (GloFAS) modelling chain and its reanalysis dataset as an example of a global hydrological reanalysis dataset. It then reviews examples of downstream applications for global hydrological reanalyses, including monitoring of land water resources and ocean dynamics, understanding large-scale hydrological extreme fluctuations, early warning systems, earth system model diagnostics and the calibration and training of models, with examples from three Copernicus Services (Emergency Management, Marine and Climate Change).

Abstract Image

全球水文再分析:河流排水量信息对全球下游应用的价值--以全球洪水警报系统 GloFAS 为例
全球水文再分析是一个模拟数据集,提供世界各地河流排水量演变的信息。全球水文再分析具有十年以上的日时间序列,可提供长期背景信息,以确定洪水和干旱等极端水文事件。通过覆盖全球大部分陆地,它们可以填补河流排水量现场观测数据的许多空白,尤其是在全球南部地区。这些差距妨碍了对水文状况和未来演变的了解,也阻碍了与水文有关的减灾预警系统的开发。河流排水是陆地水循环的自然整合器。全球水文再分析数据集有助于了解其时空变异性,因此对于解决水-能源-粮食-环境关系问题至关重要。本文介绍了全球水文再分析如何利用地球系统或水文模型提供河流排放时间序列,从而弥补地面测量数据的不足。在对河流排水量数据集的替代来源进行清点并回顾其优势和局限性之后,本文以哥白尼应急管理服务(CEMS)全球洪水预警系统(GloFAS)建模链及其再分析数据集为例,介绍了全球水文再分析数据集。然后,以哥白尼的三个服务部门(应急管理、海洋和气候变化)为例,回顾了全球水文再分析的下游应用实例,包括陆地水资源和海洋动力学监测、了解大尺度水文极端波动、预警系统、地球系统模型诊断以及模型的校准和培训。
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来源期刊
Meteorological Applications
Meteorological Applications 地学-气象与大气科学
CiteScore
5.70
自引率
3.70%
发文量
62
审稿时长
>12 weeks
期刊介绍: The aim of Meteorological Applications is to serve the needs of applied meteorologists, forecasters and users of meteorological services by publishing papers on all aspects of meteorological science, including: applications of meteorological, climatological, analytical and forecasting data, and their socio-economic benefits; forecasting, warning and service delivery techniques and methods; weather hazards, their analysis and prediction; performance, verification and value of numerical models and forecasting services; practical applications of ocean and climate models; education and training.
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