Article
Engineering, Civil
Xuan Yu, Zexuan Xu, Daniel Moraetis, Nikolaos P. Nikolaidis, Franklin W. Schwartz, Yu Zhang, Lele Shu, Christopher J. Duffy, Bingjun Liu
Summary: Submarine groundwater discharge significantly impacts coastal waters, but its variability is often challenging to compare due to various factors. Research on Crete Island in the Mediterranean Sea showed that fresh SGD contributes substantially to water flow into the Mediterranean, influenced by river mouths and precipitation.
JOURNAL OF HYDROLOGY
(2021)
Article
Water Resources
Ranjeet M. Nagare, Young-Jin Park, Rob Wirtz, Dallas Heisler, Glen Miller
Summary: Transient simulations under wet/dry climate cycles suggest that the reclaimed landform will shed water only during wet years. Coupled heat dynamics should be considered for detailed evaluation of reclaimed in-pit landforms at finer time scales. Modeling reclaimed land forms without freeze-thaw provides conservative annual solute release estimates, which is appropriate for coarse site-wide models.
JOURNAL OF HYDROLOGY-REGIONAL STUDIES
(2022)
Article
Geosciences, Multidisciplinary
Klaus Eckhardt
Summary: Recursive digital filtering is widely used to analyze streamflow components in response to precipitation. Physically based and non-physically based algorithms are commonly used in this context. The comparison between the algorithms of Furey and Gupta (2001) and Eckhardt (2005) shows that they mostly agree, with the only differences being the time delay assumption and the combination of parameters into one parameter, BFImax.
HYDROLOGY AND EARTH SYSTEM SCIENCES
(2023)
Article
Environmental Sciences
Danielle K. Hare, Susanne A. Benz, Barret L. Kurylyk, Zachary C. Johnson, Neil C. Terry, Ashley M. Helton
Summary: This study presents a web tool application called PASTA that analyzes paired air and stream temperature signals, using publicly available stream temperature data and large-scale climate observations, to evaluate spatiotemporal patterns in stream thermal sensitivity and relative groundwater influence. The tool fits sinusoidal curves of daily stream and air temperatures to indicate groundwater influence characteristics and performs linear regressions for stream versus air temperatures to indicate stream thermal sensitivity.
WATER RESOURCES RESEARCH
(2023)
Article
Water Resources
Joerg Steidl, Steffen Gliege, Majid Taie Semiromi, Gunnar Lischeid
Summary: The countless kettle holes in Northern Europe's Late Pleistocene landscapes have a significant impact on biodiversity and biogeochemical processes as they are hydraulically connected to the shallow groundwater system. Their rapid turnover of carbon, nutrients, and pollutants affects the quality of shallow groundwater downstream. The present study aimed to understand the complex interaction between kettle holes and groundwater flow, revealing that groundwater flow reversal can last from 1 month to 19 years and primarily occurs in areas with low-hydraulic conductivity in the shallow aquifer.
HYDROLOGICAL PROCESSES
(2023)
Article
Engineering, Civil
Ponni Mariet George, M. Sekhar
Summary: A novel framework for generating base flow on a daily time step using groundwater and streamflow observations has been presented. The model was able to satisfactorily simulate base flow, and the results were comparable to those obtained with another widely used baseflow separation method. The study also highlighted the different hydrologic responses of the two regions in the basin due to heterogeneity in precipitation and land use.
JOURNAL OF HYDROLOGY
(2022)
Article
Environmental Sciences
Zhiyong Huang, Pat J. -F. Yeh, Jiu Jimmy Jiao, Xin Luo, Yun Pan, Yuannan Long, Chong Zhang, Longqun Zheng
Summary: A new approach combining GRACE satellite data and baseflow was proposed to estimate groundwater recharge at large spatial scales. This method was applied in two karst basins in southwest China, showing the influence of karstification and aquifer water table depth on recharge and discharge processes.
WATER RESOURCES RESEARCH
(2023)
Article
Engineering, Environmental
Skuyler P. Herzog, Jason Galloway, Eddie W. Banks, Malte Posselt, Anna Jaeger, Andrea Portmann, Rene Sahm, Bjoern Kusebauch, Joerg Lewandowski, Adam S. Ward
Summary: This study systematically evaluated key design variables for combined surface-subsurface structures using a numerical model, finding that optimizing these structures can simultaneously increase water flow flux and transit times, resulting in more effective contaminant attenuation. The presence of an upstream plate and absence of a downstream plate improved all performance metrics. Increasing the weir length generally improved all metrics, but the optimal weir height varied based on the metric. These findings can help better align specific restoration goals with appropriate performance metrics and hyporheic structure designs.
ENVIRONMENTAL SCIENCE & TECHNOLOGY
(2023)
Article
Environmental Sciences
Sergey P. Pozdniakov, Ping Wang, Sergey O. Grinevsky, Natalia L. Frolova
Summary: In this study, a physically based model with a two-pass digital filter is proposed for separating groundwater runoff from streamflow time series. By performing variogram analysis, the groundwater flow recession constant and the base flow recession constant can be determined. This method can be used to quantify groundwater runoff dynamics and reveal the effects of climate change on groundwater runoff.
WATER RESOURCES RESEARCH
(2022)
Article
Engineering, Civil
Qiaoyu Wang, Jie Yang, Ingo Heidbuechel, Xuan Yu, Chunhui Lu
Summary: The excessive use of nitrogen fertilizer has negative effects on drinking water quality and aquatic ecosystems. This study examines the spatiotemporal variation of nitrogen retention and the impact of external nitrogen input heterogeneity on retention capacity and nitrogen export in a small catchment in Germany. The findings highlight the importance of considering land-use patterns and regional wetness conditions to manage surface water quality.
JOURNAL OF HYDROLOGY
(2023)
Article
Engineering, Civil
Hyoun-Tae Hwang, Eunhee Lee, Steven J. Berg, Edward A. Sudicky, Yongcheol Kim, Dongkyu Park, Hyeonju Lee, Changhui Park
Summary: This study presents a decision support method that quantifies the effects of water management on surface and groundwater systems using an integrated model, revealing the vulnerability of the hydrologic systems in the Geum River Basin during dry seasons. Application of a weir removal scenario is suggested to minimize the impact on the ecosystem of the Geum River.
JOURNAL OF HYDROLOGY
(2021)
Article
Engineering, Civil
Vinicius F. Boico, Rene Therrien, Hugo Delottier, Nathan L. Young, Anker L. Hojberg
Summary: This study compares different conceptual models for tile drains and soil heterogeneity in the numerical simulation of tile drainage in an agricultural catchment in Denmark. Results show that models using seepage nodes to represent tile drains perform well in simulating outlet stream discharge and water table depth. The models with shorter simulation times are recommended for model calibration. Soil heterogeneity has a varying effect on model results at different scales.
JOURNAL OF HYDROLOGY
(2022)
Article
Environmental Sciences
Benjamin Hagedorn, Christina Meadows
Summary: This study analyzes the response of water systems to climate change in Michigan, indicating significant variability in baseflow and baseflow index in different watersheds. Long-term trends in precipitation and snow- to rainfall transitions are shown to have a significant impact on baseflow and BFI, with different effects observed in different regions.
Article
Engineering, Civil
Xuegao Chen, Zhongbo Yu, Peng Yi, Ala Aldahan, Hyoun-Tae Hwang, Edward A. Sudicky
Summary: Previous studies on runoff have found a common pattern of rapid conversion from rainfall to overland flow and shallow subsurface water flow, along with the presence of thresholds and hysteresis in rainfall-runoff response. However, these approaches have limitations in terms of inference and process description. This study used HydroGeoSphere, a fully-integrated surface/subsurface flow model, along with stable isotopes to investigate runoff generation mechanisms in a headwater catchment. The results provide insights into the rapid transformation of rainfall infiltration and mixing in soil and exfiltration to a hillslope, and highlight the importance of identifying the rapid mixing processes between rain and soil water for understanding hillslope overland flow and runoff generation in headwater catchments.
JOURNAL OF HYDROLOGY
(2023)
Article
Environmental Sciences
Bo Liu, Yunliang Li, Wenyu Jiang, Jing Chen, Longcang Shu, Jianxin Liu
Summary: Groundwater and surface water in a linked catchment-floodplain-lake system were studied to investigate their behaviors and hydrological exchanges. The results showed seasonal variability in the hydrological regime for both groundwater and surface water. Groundwater flow was generally from the mountainous catchment to the lake floodplain areas, but precipitation provided additional input to shallow groundwater. This study emphasized the importance of groundwater in terms of flux variability and different transport pathways in a river-lake system.
SCIENCE OF THE TOTAL ENVIRONMENT
(2022)
Article
Water Resources
Emmanuel Dubois, Marie Larocque, Philip Brunner
Summary: Warming temperatures in cold and humid climates will lead to longer growing seasons and land cover changes, which could have significant impacts on groundwater recharge. This study investigates the effects of land cover changes on long-term regional-scale potential groundwater recharge (GWR) and the combined impacts of land cover and climate changes on future GWR changes. The results show that including land cover changes in GWR simulations significantly increases GWR and that intense land cover changes amplify the sensitivity of GWR to climate change. The findings highlight the importance of considering land cover changes in long-term groundwater resources simulations.
HYDROLOGICAL PROCESSES
(2023)
Article
Engineering, Civil
Robin Keegan-Treloar, Dylan J. Irvine, Adrian D. Werner, Eddie W. Banks
Summary: Identifying groundwater flow directions and the locations of recharge and discharge areas is crucial for effective groundwater management. A geostatistical method using sequential Gaussian simulation was developed to jointly simulate hydraulic head and its derivatives to assess flow directions and map concavity and extrema in the hydraulic head surface. This method was applied to Triassic aquifers in the Galilee Basin (Queensland, Australia) to determine likely recharge and discharge areas. This provided an objective assessment of these zones and their uncertainty in an area where the hydrogeology has been uncertain.
JOURNAL OF HYDROLOGY
(2023)
Article
Environmental Sciences
Shumei Zhu, Zhifang Zhou, Adrian D. Werner, Yongqiang Chen
Summary: The study examines the impact of intermittent pumping on the dynamic changes of a saltwater wedge in different aquifer systems. It is found that intermittent pumping allows larger volumes of freshwater to be extracted before well salinization, as non-pumping periods allow the aquifer to recover. Numerical modeling shows that well salinization can be avoided altogether with sufficient periods of recovery. However, intermittent pumping leads to earlier well salinization compared to constant pumping.
WATER RESOURCES RESEARCH
(2023)
Editorial Material
Water Resources
Landon J. S. Halloran, Saeed Mhanna, Philip Brunner
Summary: Since its release in 2022, ChatGPT, an artificial intelligence tool, has garnered both excitement and concerns. While some scientists, including hydrologists, perceive it as a threat, others consider it irrelevant. Despite its current limitations in hydrological research, AI tools like ChatGPT offer significant opportunities, with certain caveats, for the hydrology community, thus warranting closer examination.
HYDROLOGICAL PROCESSES
(2023)
Article
Engineering, Environmental
Morgan Peel, Hugo Delottier, Rolf Kipfer, Daniel Hunkeler, Philip Brunner
Summary: Knowledge of groundwater residence times (GRT) is crucial for water resources management. The use of radon-222 (222Rn) as a natural indicator of surface water infiltration provides quantitative information on GRT. However, existing models based on 222Rn have simplifying assumptions, which may lead to biases in GRT estimates. This study uses a hydrological model to simulate 222Rn transport and production, and shows that spatially variable production rates and hydrodispersive mixing can affect GRT estimates.
Article
Environmental Sciences
Huiqiang Wu, Amir Jazayeri, Adrian D. Werner, Hongwu Tang, Chunhui Lu
Summary: This study investigates the impact of flood events on saline floodplain aquifers and its freshwater lenses. Laboratory experiments and numerical models demonstrate that extensive floodplain inundation leads to larger lenses. The extent of floodplain inundation, hydraulic conductivity, and dispersivity are critical factors controlling the post-flood recession in lens extent and volume. Field-scale simulations indicate that the salt load to the adjacent river increases immediately following the flood event, highlighting the significance of flooding events on the long-term conditions of saline floodplains.
WATER RESOURCES RESEARCH
(2023)
Article
Environmental Sciences
Zhaoyang Luo, Jun Kong, Xiayang Yu, Chunhui Lu, Adrian D. Werner, David A. Barry
Summary: The effects of unsaturated flow on density-dependent solute transport in coastal unconfined aquifers were analyzed using numerical simulations and laboratory experiments. The results showed that unsaturated flow has a more pronounced influence on salt distributions in coastal unconfined aquifers when tides are considered. Neglecting unsaturated flow effects can lead to expansion of the upper saline plume, shrinkage of the saltwater wedge, and overestimation of water and salt exchange across the aquifer-ocean interface.
WATER RESOURCES RESEARCH
(2023)
Article
Environmental Sciences
Kalliopi Koutantou, Philip Brunner, Jorge Vazquez-Cuervo
Summary: Sea Surface Temperature (SST) is vital for various oceanic processes. This study validates MODIS level-2 and MUR level-4 satellite SST products using data from eight Saildrone deployments. The results highlight the accuracy of Saildrones in validating near-shore satellite SST products and assessing their quality.
Article
Engineering, Civil
Daniel Partington, Margaret Shanafield, Eddie W. Banks, Martin S. Andersen, Gabriel C. Rau, Stefan Felder, Craig T. Simmons
Summary: Ephemeral and intermittent flow in dryland streams are essential for supporting ecosystems and recharging groundwater. This study used a laboratory flume filled with fine sand to simulate event flows along a dry stream and combined it with numerical simulations to understand the physical processes involved. The study found that hydraulic conductivity significantly influences surface infiltration and the advancement of the stream wetting front, and emphasized the importance of streambed heterogeneity and elevation in determining downstream flow progression.
JOURNAL OF HYDROLOGY
(2023)
Article
Engineering, Civil
F. Sergeant, R. Therrien, F. Anctil, Laura Gatel
Summary: In cold regions, climate warming causes permafrost thaw and changes the groundwater flow dynamics from local to regional systems. The recession slope of arctic catchment hydrograph is linearly related to permafrost thawing depth, making recession analysis a valuable method to study permafrost thawing dynamics in areas with limited permafrost observations. However, the linear relationship is influenced by permafrost extent, landscape topography, and aquifer properties.
JOURNAL OF HYDROLOGY
(2023)
Article
Environmental Sciences
Chengcheng Gong, Peter G. Cook, Rene Therrien, Wenke Wang, Philip Brunner
Summary: Groundwater models that simulate only saturated flow use groundwater recharge as an input parameter. However, variably saturated subsurface flow models require climate data such as precipitation and potential evapotranspiration instead of recharge. Despite the challenges in defining groundwater recharge in these models, variably saturated subsurface flow models can still provide crucial information for water resources management.
WATER RESOURCES RESEARCH
(2023)
Article
Environmental Sciences
Satoshi Tajima, Philip Brunner, Jiaqi Liu, Hugo Delottier, Tomochika Tokunaga
Summary: This study analyzed how the dual-aquifer configuration of atolls controls the temporal dynamics of groundwater flooding caused by storm surges. The results showed that the shallower the Thurber discontinuity and the higher the KP value, the higher the maximum water depth in the freshwater swamp on the atoll during the storm surge and the longer the flooding duration. Accurate information on the dual-aquifer configuration is necessary to evaluate the potential risk of groundwater flooding on atolls accompanying storm surges. Groundwater flooding caused by storm surges substantially contributes to cyclone-driven flooding on atolls and should not be neglected in flood predictions.
WATER RESOURCES RESEARCH
(2023)
Editorial Material
Water Resources
Oliver S. Schilling, Landon J. S. Halloran, Hugo Delottier, Yuji Sano, Rene Therrien
FRONTIERS IN WATER
(2023)
Article
Geosciences, Multidisciplinary
Hugo Delottier, John Doherty, Philip Brunner
Summary: It is important for decision-support hydrological modeling to predict uncertain quantities. Data assimilation and uncertainty quantification are challenging and time-consuming tasks in implementing decision-support modeling. Data space inversion (DSI) provides an efficient method for predictive uncertainty quantification. DSI evaluates covariances between model outputs used for history matching and model predictions based on model runs, avoiding the need to estimate or adjust model parameters. DSI is useful in complex hydrogeological environments for quantifying predictive uncertainty and supporting data worth analysis.
GEOSCIENTIFIC MODEL DEVELOPMENT
(2023)
Article
Geosciences, Multidisciplinary
Thomas Hermans, Pascal Goderniaux, Damien Jougnot, Jan H. Fleckenstein, Philip Brunner, Frederic Nguyen, Niklas Linde, Johan Alexander Huisman, Olivier Bour, Jorge Lopez Alvis, Richard Hoffmann, Andrea Palacios, Anne-Karin Cooke, Alvaro Pardo-Alvarez, Lara Blazevic, Behzad Pouladi, Peleg Haruzi, Alejandro Fernandez Visentini, Guilherme E. H. Nogueira, Joel Tirado-Conde, Majken C. Looms, Meruyert Kenshilikova, Philippe Davy, Tanguy Le Borgne
Summary: This paper discusses the interest and potential for monitoring and characterizing spatial and temporal variability in hydrogeological processes, and proposes a classification of processes and applications at different scales based on high-resolution space-time imaging. The authors call for the validation of 4D imaging techniques at highly instrumented observatories and the harmonization of open databases to share hydrogeological data sets in their 4D components.
HYDROLOGY AND EARTH SYSTEM SCIENCES
(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)