Flood Inundation Generation Mechanisms and Their Changes in 1953–2004 in Global Major River Basins

Mao, Yuna; Zhou, Tian; Leung, L. Ruby; Tesfa, T. K.; Li, Hongyi; Wang, Kaicun; Tan, Zeli; Getirana, Augusto

doi:10.1029/2019jd031381

Cited by 25 publications

(30 citation statements)

References 89 publications

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“…Zhou et al (2020) developed two‐way coupling between ELM and MOSART with water management to constrain the irrigation amount by water available in the streams and reservoirs. Mao et al (2019) evaluated a MOSART floodplain inundation parameterization (Luo et al, 2017) globally and studied flood generation mechanisms and their historical changes. The stream temperature, water management, and floodplain inundation modules, as well as the two‐way coupling of ELM and MOSART with irrigation and water management, are being integrated into E3SM v2 for enhanced capabilities to represent human‐Earth system interactions.…”

Section: Highlights Of Modeling Challenges and Simulation Resultsmentioning

confidence: 99%

An Introduction to the E3SM Special Collection: Goals, Science Drivers, Development, and Analysis

Leung

Bader

Taylor³

et al. 2020

J Adv Model Earth Syst

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Section: Highlights Of Modeling Challenges and Simulation Resultsmentioning

confidence: 99%

An Introduction to the E3SM Special Collection: Goals, Science Drivers, Development, and Analysis

Leung

Bader

Taylor³

et al. 2020

J Adv Model Earth Syst

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“…Sutanudjaja et al (), for instance, used global datasets of both environmental and human variables to setup a global hydrological‐water resources model. Mao et al () utilized datasets of observed streamflow and satellite‐derived inundation extents to simulate 50 years of flood extents in major river basins across the globe. de Graaf, Gleeson, van Beek, Sutanudjaja, and Bierkens () used data on climate and human water demand to setup and run a global surface water‐groundwater model, exploring the influence of groundwater pumping on environmental water flows.…”

Section: Dataset Applicationsmentioning

confidence: 99%

“…Sutanudjaja et al (2018), for instance, used global datasets of both environmental and human variables to setup a global hydrological-water resources model. Mao et al (2019) demand to setup and run a global surface water-groundwater model, exploring the influence of groundwater pumping on environmental water flows. Lack of data on human behavior has been compensated in model parametrization by employing environmental data.…”

Section: Human Influence On Hydrologymentioning

confidence: 99%

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A review of freely accessible global datasets for the study of floods, droughts and their interactions with human societies

et al. 2020

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The availability of planetary-scale geospatial datasets that can support the study of water-related disasters in the Anthropocene is rapidly growing. We review 124 global and free datasets allowing spatial (and temporal) analyses of floods, droughts and their interactions with human societies. Our collection of datasets is available in a descriptive list for download at https://zenodo.org/ record/3368882. The purpose of providing an overview of datasets across a wide range of hydrological and socioeconomic variables is to highlight research opportunities across scientific disciplines for the study of the watersociety interplay. Our collection of datasets confirms that the availability of geospatial data capturing hydrological hazards and exposure is far more mature than those capturing vulnerability aspects. We do not only highlight the unprecedented opportunities associated with these global datasets for the study of water-related disasters in the Anthropocene, but also discuss the challenges associated with their exploitation. These challenges include: (a) time varying datasets advised not to be used in time series analyses; (b) fine spatial resolution datasets advised not to be used in local scale studies; (c), datasets built by a wide variety of data sources prohibiting systematic uncertainty assessments; and (d) datasets built by covariate variables preventing interaction studies.

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“…In the past few decades, the proportion of flood disasters in global natural disasters has been rising [1]. A flood disaster is a comprehensive response of many driving processes, including meteorological forcing, basin morphology (altitude, slope), geological characteristics, and human activities [2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Rain Belt and Flood Peak: A Study of the Extreme Precipitation Event in the Yangtze River Basin in 1849

Yang

Zheng

et al. 2021

Water

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Floods caused by extreme precipitation events, in the context of climate warming, are one of the most serious natural disasters in monsoon region societies. The great flood in the Yangtze River Basin in 1849, in Eastern China, was a typical extreme flood event. According to historical archives, local chronicles, diaries, and historical hydrological survey data, this study reconstructed the temporal and spatial patterns of extreme precipitation in 1849, and the flood process of the Yangtze River. We found four major precipitation events at the middle and lower reaches of the Yangtze River, from 18 May to 18 July 1849. The torrential rainfall area showed a dumbbell-like structure along the Yangtze River, with two centers distributed separately in the east and west. For the specific flood process of the Yangtze River, many tributaries of the Yangtze River system entered the flood season consecutively since April, and the mainstream of the Yangtze River experienced tremendous pressure on flood prevention with the arrival of multiple rounds of heavy rainfall. In mid-to-late July, the water level and flow rate of many stations along the mainstream and tributaries had reached their record high. The record-breaking peak flow rate at many stations along the mainstream and tributaries in the middle reaches of the Yangtze River indicated intense precipitation in the area. The heavy rainfall disaster in the Yangtze River Basin could be driven by these reasons. First, the cold air in North China was extraordinary active in 1849, which made it difficult for the subtropical high pressure to move northward. Second, the rain belt stagnated in the Yangtze River Basin for a long time, and the Meiyu period reached 42 days, 62% longer than normal years. Third, the onset of a southwest monsoon was earlier and more active, which provided abundant moisture to the Yangtze River Basin. The great flood disaster was caused by heavy precipitation at the middle reaches, which made it quite different from the other three great floods in the Yangtze River in the 20th century. At present, the large water conservancy projects in the Yangtze River are mainly designed for flood problems caused by rainstorms in the upper reaches of the Yangtze River. The middle reaches of the Yangtze River, however, are facing the weakening of flood diversion capacity, caused by social and economic development. Therefore, future flood prevention measures in the Yangtze River should pay great attention to the threat of this flood pattern.

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Flood Inundation Generation Mechanisms and Their Changes in 1953–2004 in Global Major River Basins

Cited by 25 publications

References 89 publications

An Introduction to the E3SM Special Collection: Goals, Science Drivers, Development, and Analysis

An Introduction to the E3SM Special Collection: Goals, Science Drivers, Development, and Analysis

A review of freely accessible global datasets for the study of floods, droughts and their interactions with human societies

Rain Belt and Flood Peak: A Study of the Extreme Precipitation Event in the Yangtze River Basin in 1849

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