Runoff and focused groundwater-recharge response to flooding rains in the arid zone of Australia

Acworth, R. I.; Rau, Gabriel C.; Cuthbert, Mark O.; Leggett, Keith E. A.; Andersen, Martin S.

doi:10.1007/s10040-020-02284-x

Cited by 14 publications

(4 citation statements)

References 42 publications

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“…The increase in the amount of rain in desert countries such as Kuwait is a positive aspect, as the increase has several consequences, including: Increased geomorphological activity in surface formation processes, some wadis flow, wildlife boom in the Kuwaiti desert, and recharge of the groundwater aquifers in the areas of Khabrat/Sabkhas (Acworth et al, 2021).…”

Section: Hydrological Effects On Desert Areas and Modeling The Impactmentioning

confidence: 99%

Modeling and Managing Flash Flood Hazards in the State of Kuwait.

Hassan¹,

Goudie²

2021

Preprint

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Flash flooding is one of the most devastating natural events that leads to enormous and recurring loss of life. Kuwait was subjected to severe rainstorms in the winter of 2018 and 2020 followed by an extreme violent flood that had not been known in Kuwait since 1976. It resulted in several geomorphological and environmental impacts in urban and desert areas. This produced some positive results, such as geomorphological activity in landforms, the flow of some valleys and the prosperity of wildlife in the Kuwaiti desert. Negative results included some problems in the metropolitan area and destruction of some road networks that intersect the main valleys, and which were not equipped with crossings for avoiding floods. There was also the emergence of some problems in the infrastructure. Study of flash floods requires the involvement of all scientific and executive bodies to avoid environmental risk. The study aims to: 1- Monitor geomorphological and environmental changes. 2- Assess the impact of floods in the urban areas and on infrastructure. 3- Modeling the impact. 4- Creating solutions and adaptions to the flash flood. The study uses several methods such as remote sensing (RS), geographic information systems (GIS), hydrologic modeling and fieldwork to evaluate the impact of flash flood hazards on the sustainable urban development of Kuwait state. This approach is rarely used in Kuwait. We propose a novel method that could help decision-makers and planners in determining inundated flood zones before planning future urban developments in Kuwait, and help them to manage flood water, by identifying the most appropriate places for storage to exploit water in agriculture and drinking.

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Section: Hydrological Effects On Desert Areas and Modeling The Impactmentioning

confidence: 99%

Modeling and Managing Flash Flood Hazards in the State of Kuwait.

Hassan¹,

Goudie²

2021

Preprint

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“…Besides, due to the difficulty in collecting more detailed data for the modelling set‐up, we made proper assumptions such as the unchanged leakage rate to deeper aquifer, unchanged soil water recharge coefficient, unchanged boundary conditions, and the comparison of results with earlier data. These assumptions would inevitably introduce some uncertainties in the modelling with respect to its accuracy (Acworth et al, 2016; Acworth et al, 2021; Klemes, 1986; Ma et al, 2022; Wang et al, 2011). But since this study focused more on the ‘amplifying effect’ than the model accuracy improvement with more data.…”

Section: Discussionmentioning

confidence: 99%

Forecasting the human and climate impacts on groundwater resources in the irrigated agricultural region of North China Plain

Chen

Duan

et al. 2023

Hydrological Processes

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Climate change has caused significant impacts on water resource redistribution around the world and posed a great threat in the last several decades due to intensive human activities. The impacts of human water use and management on regional water resources remain unclear as they are intertwined with the impacts of climate change. In this study, we disentangled the impact of climate-induced human activities on groundwater resources in a typical region of the semi-arid North China Plain based on a process-oriented groundwater modelling approach accounting for climatehuman-groundwater interactions. We found that the climate-induced human effect is amplified in water resources management ('amplifying effect') for our study region under future climate scenarios. We specifically derived a tipping point for annual precipitation of 350 mm, below which the climate-induced human activities on groundwater withdrawal will cause significant 'amplifying effect' on groundwater depletion. Furthermore, we explored the different pumping scenarios under various climate conditions and investigated the pumping thresholds, which the pumping amount should not exceed (4 Â 10 7 m 3 ) in order to control future groundwater level depletion. Our results highlight that it is critical to implement adaptive water use practices, such as

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“…The latter has, however, been shown to contribute substantially to groundwater replenishment in drylands (e.g. Scanlon et al 2006, Dahan et al 2008, Favreau et al 2009, Villeneuve et al 2015, Cuthbert et al 2019, Acworth et al 2021. Evidence from the few long-term piezometric observations that have been made in tropical semi-arid Africa also suggests that groundwater recharge, whether focused or diffuse, is strongly influenced by climate variability (e.g.…”

Section: Renewability Of Groundwater In Tropical Drylands Under Global Changementioning

confidence: 99%

Groundwater recharge from heavy rainfall in the southwestern Lake Chad Basin: evidence from isotopic observations

Goni

Taylor

Favreau

et al. 2021

Hydrological Sciences Journal

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We examine groundwater recharge processes and their relationship to rainfall intensity in the semi-arid, southwestern Lake Chad Basin of Nigeria using a newly compiled database of stable isotope data (δ 2 H, δ 18 O) from groundwater and rainfall. δ 18 O signatures in groundwater proximate to surface waters are enriched in 18 O relative to regional rainfall and trace focused groundwater recharge from evaporated waters via ephemeral river discharge and Lake Chad; groundwater remote from river channels is comparatively depleted and associated with diffuse recharge, often via sand dunes. Stable isotope ratios of O and H (δ 2 H, δ 18 O) in groundwater samples regress to a value along the local meteoric waterline that is depleted relative to weighted mean composition of rainfall, consistent with rainfall exceeding the 60 th percentile of monthly precipitation intensity. The observed bias in groundwater recharge to heavy monthly rainfall suggests that the intensification of tropical rainfall under global warming favours groundwater recharge in this basin.

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Runoff and focused groundwater-recharge response to flooding rains in the arid zone of Australia

Cited by 14 publications

References 42 publications

Modeling and Managing Flash Flood Hazards in the State of Kuwait.

Modeling and Managing Flash Flood Hazards in the State of Kuwait.

Forecasting the human and climate impacts on groundwater resources in the irrigated agricultural region of North China Plain

Groundwater recharge from heavy rainfall in the southwestern Lake Chad Basin: evidence from isotopic observations

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