Article
Geosciences, Multidisciplinary
Albert Nkwasa, Celray James Chawanda, Jonas Jagermeyr, Ann van Griensven
Summary: Most hydrological models fail to accurately represent crop cultivation and management practices. This study presents an approach to incorporate crop phenology in a regional hydrological model and evaluates its impact on simulations. The results show that improved representation of crop phenology leads to better simulation results.
HYDROLOGY AND EARTH SYSTEM SCIENCES
(2022)
Article
Meteorology & Atmospheric Sciences
Jose Abraham Torres-Alavez, Russell Glazer, Filippo Giorgi, Erika Coppola, Xuejie Gao, Kevin I. Hodges, Sushant Das, Moetasim Ashfaq, Marco Reale, Taleena Sines
Summary: This study examines the characteristics of tropical cyclone activity using a regional climate model, finding significant increases in TC frequency in certain regions under future climate conditions. The study also notes a decrease in TC frequency in other regions, highlighting the need for further research to address uncertainties in TC projections.
Article
Biology
Livia Ricciardi, Paolo D'Odorico, Nikolas Galli, Davide Danilo Chiarelli, Maria Cristina Rulli
Summary: The study focuses on the hydrological constraints and impacts of afforestation in tropical biomes, and finds that planting trees may lead to water scarcity, especially in dryland regions of Africa and Oceania. It also suggests that the combination of tree restoration and irrigation expansion could exacerbate water scarcity.
PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES
(2022)
Article
Engineering, Civil
Li Han, Lucas Menzel
Summary: This study investigates the historical hydrological changes in two southern Siberian basins and finds that the trends in river runoff are opposite due to warming-induced permafrost degradation. Lateral permafrost degradation causes severe water loss in the Selenga basin, while vertical degradation sustains water-rich conditions in the Aldan basin. Summer runoff exhibits contrasting oscillations in the two basins, attributed to variations in summer precipitation and the propagation of Rossby wave trains across the Eurasian continent.
JOURNAL OF HYDROLOGY
(2022)
Article
Engineering, Civil
Zhihua He, John W. Pomeroy
Summary: This study develops a physically based hydrological process model to simulate water budget storages and fluxes over the Canadian southern boreal forest. The model shows good performance in reproducing historical observations without calibration. The study also assesses the sensitivity of hydrological processes to future climate variability.
JOURNAL OF HYDROLOGY
(2023)
Article
Geosciences, Multidisciplinary
Jens A. de Bruijn, Mikhail Smilovic, Peter Burek, Luca Guillaumot, Yoshihide Wada, Jeroen C. J. H. Aerts
Summary: Humans have a significant impact on the hydrological system due to their water extraction activities for irrigation, leading to water stress and ecosystem degradation. However, these issues can be mitigated by implementing large-scale adaptation measures, such as constructing irrigation reservoirs. It is crucial to consider human behavior and feedback to fully understand the evolution of the human-natural water system and identify suitable interventions to reduce water stress.
GEOSCIENTIFIC MODEL DEVELOPMENT
(2023)
Article
Chemistry, Physical
A. F. M. Kamal Chowdhury, Ranjit Deshmukh, Grace C. Wu, Anagha Uppal, Ana Mileva, Tiana Curry, Les Armstrong, Stefano Galelli, Kudakwashe Ndhlukula
Summary: Southern Africa is facing the challenge of providing affordable energy while limiting carbon emissions and socio-environmental impacts. Wind and solar technologies are predicted to become the dominant sources of electricity in the region by 2040. No new coal capacity is expected to be built, and planned hydropower capacity is not cost competitive. An 80% clean energy target can significantly reduce greenhouse gas emissions with a modest cost premium.
Article
Meteorology & Atmospheric Sciences
Matthew Patterson, Tim Woollings, Thomas J. Bracegirdle
Summary: Stationary wave changes in the Southern Hemisphere winter play a significant role in regional climate change response, particularly in the strengthening of westerlies and enhancement of the subtropical jet. These changes can be largely explained by reductions in the upper-level Rossby wave source over the tropical/subtropical east Pacific, which are robust across model ensemble and correlated with low-latitude circulation patterns. This understanding is crucial for advancing knowledge of SH extratropical circulation changes under climate change.
JOURNAL OF CLIMATE
(2021)
Article
Green & Sustainable Science & Technology
Maureen Teresa Odongo, Roseline Nyakerario Misati, Anne Wangari Kamau, Kethi Ngoka Kisingu
Summary: This study examines the dynamics of key climate change indicators and their impact on food prices in Eastern and Southern African countries. The findings show that these countries have experienced various climate change events with increasing intensity over the past two decades and are vulnerable to extreme weather events. Supply shocks, measured by rainfall amounts and imported food price inflation, are the main drivers of food inflation, while oil prices, subsidies, and imported inflation are the key determinants of overall inflation. Effective sector-specific climate change policy options, along with the adoption of renewable energy sources and appropriate irrigation practices, are needed to address these challenges.
Article
Engineering, Civil
G. Z. Ndhlovu, Y. E. Woyessa
Summary: This study successfully simulated hydrological processes in the Zambezi River Basin using high-resolution climate data and SWAT model, which showed that using gridded climate data for hydrological modeling in data scarce regions is an effective method.
JOURNAL OF HYDROLOGY
(2021)
Article
Environmental Sciences
Damian Badora, Rafal Wawer, Aleksandra Krol-Badziak, Anna Nierobca, Jerzy Kozyra, Beata Jurga
Summary: The study assesses the water balance of the Vistula River basin in 2050 based on climate scenarios and models, highlighting the unclear trends in water management for the coming decades.
Article
Biodiversity Conservation
Carola Martens, Thomas Hickler, Claire Davis-Reddy, Francois Engelbrecht, Steven Higgins, Graham P. von Maltitz, Guy F. Midgley, Mirjam Pfeiffer, Simon Scheiter
Summary: This study used an adaptive Dynamic Global Vegetation Model to assess potential changes in African ecosystems in the future, finding that climate and CO2 changes may lead to increased carbon in aboveground vegetation and promote woody encroachment. Interactions between fire and plant demography could further drive woody encroachment.
GLOBAL CHANGE BIOLOGY
(2021)
Article
Environmental Sciences
Augusto Getirana, Sujay Kumar, Goutam Konapala, Wanshu Nie, Kim Locke, Bryant Loomis, Charon Birkett, Martina Ricko, Marc Simard
Summary: Satellite observations show that coastal Louisiana has experienced significant land loss in recent decades, which can be attributed to climate change and human activities. This study investigates the impacts of sea level rise and climate-induced hydrological change on flood risk in southern Louisiana and examines the effectiveness of water management through flood control structures. The findings reveal that climate-induced hydrological change has increased flood risk and population vulnerability, while water management interventions can mitigate these risks.
WATER RESOURCES RESEARCH
(2023)
Article
Environmental Sciences
Ikechukwu Kalu, Christopher E. Ndehedehe, Onuwa Okwuashi, Aniekan E. Eyoh
Summary: The study used satellite observations to explore hydrological patterns in the South Central African region, finding consistency between precipitation and terrestrial water storage in the Congo and Orange River basins. However, consistent loss in freshwater was observed in the Zambezi and Okavango basins.
Article
Environmental Sciences
Laura Giustarini, Guy J. -P. Schumann, Albert J. Kettner, Andrew Smith, Raphael Nawrotzki
Summary: This study provides a comprehensive analysis of river discharge in Morocco to estimate past and future hydrological extremes. Hydrological simulations were conducted using historical and climate change scenario inputs to understand changes in extreme discharge events that lead to flooding. The study covers all major rivers in Morocco and includes 16 basins that cover a significant part of the country. The analysis reveals clear patterns of changing flood extremes, with different behavior observed in different climate change scenarios. This research presents a methodology that can be applied to regions with limited data to estimate future flood hazards.
Article
Engineering, Civil
Kun Xie, Jong-Suk Kim, Linjuan Hu, Hua Chen, Chong-Yu Xu, Jung Hwan Lee, Jie Chen, Sun-Kwon Yoon, Di Zhu, Shaobo Zhang, Yang Liu
Summary: Intelligent scheduling of urban drainage systems is seen as a sustainable flood management strategy. This study proposes a new intelligent scheduling model (ISM) that combines the SWMM and a multiobjective particle swarm optimization algorithm to minimize flooding volume, water level fluctuation, and operational cost. The results show that the ISM-based strategies effectively reduce flooding, water level fluctuation, and operational costs, outperforming climate change mitigation and other adaptation strategies.
WATER RESOURCES MANAGEMENT
(2023)
Article
Engineering, Civil
Chengyun Wang, Jie Chen, Lei Gu, Guiyang Wu, Shanlin Tong, Lihua Xiong, Chong-Yu Xu
Summary: Soil moisture drought is influenced by both water supply and demand. Previous studies have used statistical multiple linear regression, machine learning, and modeling experiments to understand the mechanisms driving soil moisture drought, but these methods fail to consider the collinearity and interactions of climate variables. This study used a path analysis method to quantify the contributions of key drivers to soil moisture drought and revealed the relationships between atmospheric movement state and soil moisture drought. The results showed that precipitation deficits had a dominant effect on interannual variation of soil moisture drought, while increasing potential evapotranspiration only marginally intensified drought. The interactions among precipitation, potential evapotranspiration, and atmospheric vapor movement state were important for understanding drought development mechanisms.
JOURNAL OF HYDROLOGY
(2023)
Article
Engineering, Civil
Danielle M. Barna, Kolbjorn Engeland, Thordis L. Thorarinsdottir, Chong-Yu Xu
Summary: Design flood values are crucial for making decisions related to land use planning, infrastructure design, and disaster mitigation. The Flood-Duration-Frequency (QDF) models extend the standard flood frequency analysis framework and provide a better understanding of floods with different durations. The multiscaling extension to existing QDF models improves the modeling of short-duration events and events with long return periods.
JOURNAL OF HYDROLOGY
(2023)
Article
Multidisciplinary Sciences
Qiang Zhang, Zexi Shen, Yadu Pokhrel, Daniel Farinotti, Vijay P. Singh, Chong-Yu Xu, Wenhuan Wu, Gang Wang
Summary: Concerns have been raised about the sustainability of water resources in High Mountain Asia, particularly in the Tibetan Plateau and surrounding areas, which protect millions of people from water stress. The mechanisms behind the heterogeneous trends in terrestrial water storage over the Tibetan Plateau remain poorly understood.
Article
Environmental Sciences
Rui Kong, Zengxin Zhang, Ying Zhang, Yiming Wang, Zhenhua Peng, Xi Chen, Chong-Yu Xu
Summary: This study used the Geodetector model and hydro-meteorological data to investigate the changes in terrestrial water storage anomaly (TWSA) and the impacts of climate change and vegetation greening in China from 1982 to 2019. The results showed that TWSA declined in two thirds of the country, particularly in North China, southeast Tibet, and northwest Xinjiang, while it increased in the remaining third, mainly in the Qaidam Basin, the Yangtze River, and the Songhua River. The normalized vegetation index (NDVI) had a positive correlation with TWSA, accounting for 48.64% of the total vegetation area in China.
Article
Environmental Sciences
Nie Zhou, Sheng Sheng, Li-Ying He, Bing-Ru Tian, Hua Chen, Chong-Yu Xu
Summary: Understanding the evolution of river morphology is crucial for comprehending changes in water resources and implementing development projects along rivers. This study proposes an integrated approach utilizing remote sensing image data combined with deep learning and visual interpretation algorithms to analyze continuous-type changes in river morphology. The research focuses on the lower reaches of the Minjiang River in China and comprehensively analyzes the river's morphological evolution from 1986 to 2021. The findings of this study can provide insights into the management and conservation of water resources.
Article
Environmental Sciences
Sheng Sheng, Hua Chen, Kangling Lin, Nie Zhou, Bingru Tian, Chong-Yu Xu
Summary: To improve the accuracy and reliability of precipitation estimation, this paper proposes an integrated framework that combines Funk-Singular Value Decomposition (F-SVD) and Convolutional Long Short-Term Memory (ConvLSTM) models to capture spatiotemporal correlation patterns between satellite products and rain gauge observations. The framework achieves accurate spatial distribution and merges precipitation data from multiple sources, resulting in more accurate precipitation distribution and better stability and reliability compared to other models.
Article
Green & Sustainable Science & Technology
Li Wang, Fan Zhang, Guanxing Wang, Chen Zeng, Yao Chen, Xiaonan Shi, Handuo Tang, Guangju Zhao, Chongyu Xu, Xin Li
Summary: Soil erosion is a global environmental threat, especially in high-mountain areas affected by climate and vegetation changes. This study improved the RUSLE by developing a method to calculate snowmelt runoff erosivity and estimated the soil erosion rate in the upper Heihe River Basin. The results showed that vegetation cover played a dominant role in reducing soil erosion.
Article
Agronomy
Zhen Ling, Zhengtao Shi, Tiyuan Xia, Shixiang Gu, Jiaping Liang, Chong-Yu Xu
Summary: A short-term crop evapotranspiration (ETc) forecasting method was proposed for rubber plantations using the rubber crop coefficient K-c and public weather forecasts. The results showed that the method had good performance and acceptable accuracy, especially in the dry season, providing an important basis for improving water management in high water consumption rubber plantations at a regional scale.
Article
Meteorology & Atmospheric Sciences
Yongkang Xue, Ismaila Diallo, Aaron A. Boone, Yang Zhang, Xubin Zeng, William K. M. Lau, J. David Neelin, Tandong Yao, Qi Tang, Tomonori Sato, Myung-Seo Koo, Frederic Vitart, Constantin Ardilouze, Subodh K. Saha, Stefano Materia, Zhaohui Lin, Yuhei Takaya, Jing Yang, Tetsu Nakamura, Xin Qi, Yi Qin, Paulo Nobre, Retish Senan, Hailan Wang, Hongliang Zhang, Mei Zhao, Hara Prasad Nayak, Yan Pan, Xiaoduo Pan, Jinming Feng, Chunxiang Shi, Shaocheng Xie, Michael A. Brunke, Qing Bao, Marcus Jorge Bottino, Tianyi Fan, Songyou Hong, Yanluan Lin, Daniele Peano, Yanling Zhan, Carlos R. Mechoso, Xuejuan Ren, Gianpaolo Balsamo, Sin Chan Chou, Patricia de Rosnay, Peter J. van Oevelen, Daniel Klocke, Michael Ek, Xin Li, Weidong Guo, Yuejian Zhu, Jianping Tang, Xin-Zhong Liang, Yun Qian, Ping Zhao
Summary: This paper presents a new method for improving the prediction of summer droughts/floods in various regions around the world by utilizing information on spring land surface temperature/subsurface temperature anomalies over the Tibetan Plateau. The study shows that considering the effects of Tibetan Plateau LST/SUBT can account for 25-50% of observed precipitation anomalies in most hotspot regions. It also discusses the mechanisms behind the 2003 drought in the southern part of the Yangtze River Basin.
Article
Environmental Sciences
Shanlin Tong, Wenpan Li, Jie Chen, Rui Xia, Jingyu Lin, Yan Chen, Chong -Yu Xu
Summary: This study developed a modeling framework to simulate water quality at grid scale and interpret the contributions of drivers to water quality in the Yangtze River basin. The results demonstrated significant changes in the response of water quality to drivers, with air temperature playing a crucial role in key water quality indicators.
JOURNAL OF ENVIRONMENTAL MANAGEMENT
(2023)
Article
Engineering, Civil
Kangling Lin, Sheng Sheng, Hua Chen, Yanlai Zhou, Yuxuan Luo, Lihua Xiong, Shenglian Guo, Chong -Yu Xu
Summary: This study proposes an approach and integrates the hydrological model with Intelligent Adaptation Parameters to solve the problem of parameter instability in traditional hydrological modeling methods. It also reveals the relationship between the model and floods.
JOURNAL OF HYDROLOGY
(2023)
Article
Environmental Sciences
Shuping Du, Shanhu Jiang, Liliang Ren, Shanshui Yuan, Xiaoli Yang, Yi Liu, Xinglong Gong, Chong -Yu Xu
Summary: This study explores the behavior of runoff response changes (RRC) in 1003 catchments in the contiguous United States (CONUS) using catchment classification and machine learning. The study identifies influential factors on RRC and discovers patterns related to climate and catchment characteristics. The findings provide important insights for water resource management decisions.
SCIENCE OF THE TOTAL ENVIRONMENT
(2023)
Article
Meteorology & Atmospheric Sciences
S. Y. Souleymane, Fabio Madonna, Federico Serva, Ismaila Diallo, Benjamin Quesada
Summary: There is room for improvement in climate models' ability to reproduce the present climate. The choice of data sets used for model assessment is crucial. This study evaluates multiple climate models and reanalysis data sets using in-situ measurements, revealing seasonal and subregional variations in biases.
INTERNATIONAL JOURNAL OF CLIMATOLOGY
(2023)
Article
Water Resources
Xuchun Ye, Juan Wu, Xianghu Li, Yunliang Li, Qi Zhang, Chong -Yu Xu
Summary: This study systematically analyzed the spatiotemporal heterogeneity of inundation dynamics in Poyang Lake, the largest freshwater lake in China, and found that different regions of the lake can have asynchronous intra-annual fluctuation and opposite inter-annual change trend in terms of inundated area and inundation frequency. The study also highlights the importance of reconstructed high spatial-temporal resolution of remote sensing data for the accurate assessment of inundation dynamics in floodplain lakes.
JOURNAL OF HYDROLOGY-REGIONAL STUDIES
(2023)
Article
Engineering, Civil
Arfan Arshad, Ali Mirchi, Javier Vilcaez, Muhammad Umar Akbar, Kaveh Madani
Summary: High-resolution, continuous groundwater data is crucial for adaptive aquifer management. This study presents a predictive modeling framework that incorporates covariates and existing observations to estimate groundwater level changes. The framework outperforms other methods and provides reliable estimates for unmonitored sites. The study also examines groundwater level changes in different regions and highlights the importance of effective aquifer management.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Lihua Chen, Jie Deng, Wenzhe Yang, Hang Chen
Summary: A new grid-based distributed karst hydrological model (GDKHM) is developed to simulate streamflow in the flood-prone karst area of Southwest China. The results show that the GDKHM performs well in predicting floods and capturing the spatial variability of karst system.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Faruk Gurbuz, Avinash Mudireddy, Ricardo Mantilla, Shaoping Xiao
Summary: Machine learning algorithms have shown better performance in streamflow prediction compared to traditional hydrological models. In this study, researchers proposed a methodology to test and benchmark ML algorithms using artificial data generated by physically-based hydrological models. They found that deep learning algorithms can correctly identify the relationship between streamflow and rainfall in certain conditions, but fail to outperform traditional prediction methods in other scenarios.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Yadong Ji, Jianyu Fu, Bingjun Liu, Zeqin Huang, Xuejin Tan
Summary: This study distinguishes the uncertainty in drought projection into scenario uncertainty, model uncertainty, and internal variability uncertainty. The results show that the estimation of total uncertainty reaches a minimum in the mid-21st century and that model uncertainty is dominant in tropical regions.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Z. R. van Leeuwen, M. J. Klaar, M. W. Smith, L. E. Brown
Summary: This study quantifies the effectiveness of leaky dams in reducing flood peak magnitude using a transfer function noise modelling approach. The results show that leaky dams have a significant but highly variable impact on flood peak magnitude, and managing expectations should consider event size and type.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Zeda Yin, Yasaman Saadati, M. Hadi Amini, Linlong Bian, Beichao Hu
Summary: Combined sewer overflows pose significant threats to public health and the environment, and various strategies have been proposed to mitigate their adverse effects. Smart control strategies have gained traction due to their cost-effectiveness but face challenges in balancing precision and computational efficiency. To address this, we propose exploring machine learning models and the inversion of neural networks for more efficient CSO prediction and optimization.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Qimou Zhang, Jiacong Huang, Jing Zhang, Rui Qian, Zhen Cui, Junfeng Gao
Summary: This study developed a N-cycling model for lowland rural rivers covered by macrophytes and investigated the N imports, exports, and response to sediment dredging. The findings showed a considerable N retention ability in the study river, with significant N imports from connected rivers and surrounding polders. Sediment dredging increased particulate nitrogen resuspension and settling rates, while decreasing ammonia nitrogen release, denitrification, and macrophyte uptake rates.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Xue Li, Yingyin Zhou, Jian Sha, Man Zhang, Zhong-Liang Wang
Summary: High-resolution climate data is crucial for predicting regional climate and water environment changes. In this study, a two-step downscaling method was developed to enhance the spatial resolution of GCM data and improve the accuracy for small basins. The method combined medium-resolution climate data with high-resolution topographic data to capture spatial and temporal details. The downscaled climate data were then used to simulate the impacts of climate change on hydrology and water quality in a small basin. The results demonstrated the effectiveness of the downscaling method for spatially differentiated simulations.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Tongqing Shen, Peng Jiang, Jiahui Zhao, Xuegao Chen, Hui Lin, Bin Yang, Changhai Tan, Ying Zhang, Xinting Fu, Zhongbo Yu
Summary: This study evaluates the long-term interannual dynamics of permafrost distribution and active layer thickness on the Tibetan Plateau, and predicts future degradation trends. The results show that permafrost area has been decreasing and active layer thickness has been increasing, with an accelerated degradation observed in recent decades. This has significant implications for local water cycle processes, water ecology, and water security.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Chi Zhang, Xu Zhang, Qiuhong Tang, Deliang Chen, Jinchuan Huang, Shaohong Wu, Yubo Liu
Summary: Precipitation over the Tibetan Plateau is influenced by systems such as the Asian monsoons, the westerlies, and local circulations. The Indian monsoon, the westerlies, and local circulations are the main systems affecting precipitation over the entire Tibetan Plateau. The East Asian summer monsoon primarily affects the eastern Tibetan Plateau. The Indian monsoon has the greatest influence on precipitation in the southern and central grid cells, while the westerlies have the greatest influence on precipitation in the northern and western grid cells. Local circulations have the strongest influence on the central and eastern grid cells.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Manuel Almeida, Antonio Rodrigues, Pedro Coelho
Summary: This study aimed to improve the accuracy of Total Phosphorus export coefficient models, which are essential for water management. Four different models were applied to 27 agroforestry watersheds in the Mediterranean region. The modeling approach showed significant improvements in predicting the Total Phosphorus diffuse loads.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Yutao Wang, Haojie Yin, Ziyi Wang, Yi Li, Pingping Wang, Longfei Wang
Summary: This study investigated the distribution and transformation of dissolved organic nitrogen (DON) in riverbed sediments impacted by effluent discharge. The authors found that the spectral characteristics of dissolved organic matter (DOM) in surface water and sediment porewater could be used to predict DON variations in riverbed sediments. Random forest and extreme gradient boosting machine learning methods were employed to provide accurate predictions of DON content and properties at different depths. These findings have important implications for wastewater discharge management and river health.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Saba Mirza Alipour, Kolbjorn Engeland, Joao Leal
Summary: This study assesses the uncertainty associated with 100-year flood maps under different scenarios using Monte Carlo simulations. The findings highlight the importance of employing probabilistic approaches for accurate and secure flood maps, with the selection of probability distribution being the primary source of uncertainty in precipitation.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Janine A. de Wit, Marjolein H. J. van Huijgevoort, Jos C. van Dam, Ge A. P. H. van den Eertwegh, Dion van Deijl, Coen J. Ritsema, Ruud P. Bartholomeus
Summary: The study focuses on the hydrological consequences of controlled drainage with subirrigation (CD-SI) on groundwater level, soil moisture content, and soil water potential. The simulations show that CD-SI can improve hydrological conditions for crop growth, but the success depends on subtle differences in geohydrologic characteristics.
JOURNAL OF HYDROLOGY
(2024)
Article
Engineering, Civil
Constantin Seidl, Sarah Ann Wheeler, Declan Page
Summary: Water availability and quality issues will become increasingly important in the future due to climate change impacts. Managed Aquifer Recharge (MAR) is an effective water management tool, but often overlooked. This study analyzes global MAR applications and identifies the key factors for success, providing valuable insights for future design and application.
JOURNAL OF HYDROLOGY
(2024)
