Your search keyword '"Managed Aquifer Recharge"' showing total 537 results

1. Health hazards from perchlorate enriched groundwater of a semi-arid river basin of south India and suggesting in-situ remediation through Managed Aquifer Recharge

Author

Karunanidhi, D., Rhishi Hari Raj, M., D. Roy, Priyadarsi, and Subramani, T.

Published

2024

2. Impact of stormwater on biofilm density and microbial community composition in water distribution networks

Author

Kaksonen, Anna H., Wylie, Jason, Morgan, Matthew J., Walsh, Tom, Tjandraatmadja, Grace, Barry, Karen, Gonzalez, Dennis, Goodman, Nigel, Vanderzalm, Joanne, Dillon, Peter, Sidhu, Jatinder, and Puzon, Geoffrey J.

Published

2025

3. Managed aquifer recharge as a potential pathway of contaminants of emerging concern into groundwater systems – A systematic review

Author

Mumberg, Tabea, Ahrens, Lutz, and Wanner, Philipp

Published

2024

4. Proposal for a managed aquifer recharge feasibility index for southern Portugal using multi-criteria decision analysis

Author

Martins, Tiago N., Leitão, Teresa E., Oliveira, Manuel M., Panagiotou, Constantinos F., Stefan, Catalin, Chkirbene, Anis, and Portela, Maria Manuela

Published

2024

5. Uncovering the gaps in managed aquifer recharge for sustainable groundwater management: A focus on hillslopes and mountains

Author

Meles, Menberu B., Bradford, Scott, Casillas-Trasvina, Alberto, Chen, Lin, Osterman, Gordon, Hatch, Tyler, Ajami, Hoori, Crompton, Octavia, Levers, Lucia, and Kisekka, Isaya

Published

2024

6. Introducing a tailored site delineation approach to optimize the design of managed aquifer recharge surface spreading infrastructure

Author

Sultana, Rebecca, Werban, Ulrike, Pohle, Marco, and Vienken, Thomas

Published

2024

7. A holistic multi-tiered decision framework for evaluating rainwater harvesting potential in arid regions: A case study of the southeastern basin of Djibouti

Author

Mouhoumed, Rachid Mohamed, Ekmekcioğlu, Ömer, and Özger, Mehmet

Published

2024

8. Machine learning surrogates for efficient hydrologic modeling: Insights from stochastic simulations of managed aquifer recharge

Author

Dai, Timothy, Maher, Kate, and Perzan, Zach

Published

2025

9. Understanding and predicting physical clogging at managed aquifer recharge systems: A field-based modeling approach

Author

Lippera, Maria Chiara, Werban, Ulrike, Rossetto, Rudy, and Vienken, Thomas

Published

2023

10. Application of machine learning and deep learning for predicting groundwater levels in the West Coast Aquifer System, South Africa.

Author

Igwebuike, Ndubuisi, Ajayi, Moyinoluwa, Okolie, Chukwuma, Kanyerere, Thokozani, and Halihan, Todd

Abstract

Groundwater models are valuable tools to quantify the response of groundwater level to hydrological stresses induced by climate variability and groundwater extraction. These models strive for sustainable groundwater management by balancing recharge, discharge, and natural processes, with groundwater level serving as a critical response variable. While traditional numerical models are labour-intensive, machine learning and deep learning offer a data-driven alternative, learning from historical data to predict groundwater level variations. The groundwater level in wells is typically recorded as continuous groundwater level time series data and is essential for implementing managed aquifer recharge within a particular region. Machine learning and deep learning are essential tools to generate a data-driven approach to modeling an area, and there is a need to understand if they are the most suitable tools to improve model prediction. To address this objective, the study evaluates two machine learning algorithms - Random Forest (RF) and Support Vector Machine (SVM); and two deep learning algorithms - Simple Recurrent Neural Network (SimpleRNN) and Long Short-Term Memory (LSTM) for modeling groundwater level changes in the West Coast Aquifer System of South Africa. Analysis of regression error metrics on the test dataset revealed that SVM outperformed the other models in terms of the root mean square error, whereas random forest had the best performance in terms of the MAE. In the accuracy analysis of predicted groundwater levels, SVM achieved the highest accuracy with an MAE of 0.356 m and an RMSE of 0.372 m. The study concludes that machine learning and deep learning are effective tools for improved modeling and prediction of groundwater level. Further research can incorporate more detailed geologic information of the study area for enhanced interpretation. [ABSTRACT FROM AUTHOR]

Published

2025

11. How Rains and Floods Become Groundwater: Understanding Recharge Pathways With Stable and Cosmogenic Isotopes.

Author

Lerback, Jory, Bibby, Richard, Danielsen, Jacob, Garguilo, Mike, Grande, Emilio, Harm, A. Jake, Minn, Ken, Moran, Jean, Oerter, Erik, and Visser, Ate

Subjects

COSMOGENIC nuclides, TRACERS (Chemistry), RADIOACTIVE tracers, EFFECT of human beings on climate change, WATER supply, GROUNDWATER recharge

Abstract

Anthropogenic climate change leads to increased precipitation intensity and exacerbated droughts in California, challenging the reliability and drought resiliency of water supply. Storing floodwater underground via managed aquifer recharge can mitigate these effects through direct infiltration or streambed infiltration. Seasonally dry streams (arroyos) already play an important part in managing groundwater recharge to the Livermore basin (CA). Understanding how, when and where stormwater and arroyo water infiltrate is critical to effectively utilise this strategy. To track water from recent storms (water year 2022–2023, WY23) into the Livermore Valley Groundwater Basin, we analysed stable water isotopes (δ18O and δ2H) in combination with naturally occurring radioactive isotopic tracers, sulphur‐35 (35S, t½ = 87 days) and tritium (3H, t½ = 12.3 years). By comparing measurements of δ18O, 35S and 3H in arroyos to precipitation and groundwater, we classified the relative age and identified source of recharge to 16 wells near two arroyos. Two wells contained water with recent recharge (from WY23) from local precipitation. One well had recent recharge from variable (precipitation and imported water) sources. One well contained imported water recharge. Three wells contained water from mixed recent and older (pre‐WY23) waters, from local precipitation sources. Two wells contained recent recharge from local mine settling ponds. Seven wells had older recharge from local precipitation sources. This combination of isotopes allows us to delineate where local and imported water recharges in this highly managed basin and identify locations where managed aquifer recharge is contributing to rapid groundwater infiltration. Our combined interpretation of isotopic water ages and sources in the context of land use shows that local infiltration of precipitation in open spaces is an important recharge mechanism, in addition to the managed arroyo recharge. A broader familiarity with 35S will enable more extensive research on the infiltration of urban floodwaters. [ABSTRACT FROM AUTHOR]

Published

2024

12. Assessment of the impact of greenhouse rainwater harvesting managed aquifer recharge on the groundwater system in the southern Jeju Island, South Korea: Implication from a numerical modeling approach.

Author

Kim, Min-Chul, Koh, Eun-Hee, Koh, Chang-Seong, and Park, Won-Bae

Subjects

GROUNDWATER recharge, WATER harvesting, WATER supply, FLOOD damage, AGRICULTURE

Abstract

Managed aquifer recharge (MAR) is increasingly being adopted worldwide to mitigate groundwater depletion and ensure the sustainability of water resources. Rainwater harvesting (RWH)-MAR can augment aquifer storage and reduce flood damage in rural areas with dense greenhouse facilities. This study has assessed the feasibility of greenhouse RWH-MAR in Namwon agricultural areas in the southern part of Jeju Island, South Korea, by considering the injection rate and location of MAR using a numerical model. The model results showed that groundwater level increases were directly related to the infiltration rate, although spatial differences in head rise were observed owing to the spatial variability of hydraulic conductivity. In addition, installing the RWH-MAR in highland areas (>100 masl) enhanced the water level rise when compared to the expected values, indicating that a higher hydraulic gradient and thick unsaturated zone facilitated more effective MAR outcomes than in lowland areas. To optimize the contribution of source water to the agricultural water demand, placing the RWH-MAR near the pumping well improved the availability of injected rainwater to agricultural wells. This study highlights the importance of designing RWH-MAR schemes considering MAR objectives and the topographic and hydrogeological characteristics of the site. [ABSTRACT FROM AUTHOR]

Published

2024

13. Microscopic Mechanism of Particle Clogging in Porous Media During Managed Aquifer Recharge: From X‐Ray Computed Tomography (CT) Imaging to Numerical Modelling.

Author

Xu, Yang, Ye, Xueyan, and Du, Xinqiang

Subjects

WATER management, GROUNDWATER recharge, POROUS materials, POROSITY, FRACTAL dimensions, TORTUOSITY

Abstract

Managed aquifer recharge (MAR) is a strategy within water resources management. However, issues related to clogging have hindered its implementation. The change in permeability of the medium is significantly influenced not only by the macroscopic characteristics of infiltration sand, such as heterogeneity and anisotropy, but also by its microstructural features, including pore structure, morphology and connectivity. Nevertheless, the interactions between fluid flow, particle migration and changes in permeability remain unclear. This study investigates the pore‐scale response mechanisms between fluid flow and pore clogging using a non‐destructive x‐ray computed tomography approach. Our findings indicate that the decrease in permeability due to particle deposition occurs in stages, with particles preferentially accumulating in irregularly shaped pores. The changes in the permeability of the sand column exhibit a negative correlation with alterations in shape factor and tortuosity, while showing a positive correlation with the fractal dimension. As pores become clogged with particles, the increase in tortuosity leads to a longer flow path. Once the sharp edges of the irregular pores are filled with particles, the pore space becomes smoother and more uniform, and the fractal dimension of the pores gradually decreases with further clogging. Based on numerical modelling of particle movement and the clogging process in porous media, it was determined that pressure is greatest in clogged pores. When this pressure reaches a certain threshold, the particles that were previously trapped in the pores are flushed out, leading to uneven changes in normalised hydraulic conductivity and normalised concentration at the outlet. If the pressure is insufficient to dislodge the clogging particles, the water flow path is compelled to change, resulting in a gradual stabilisation of the clogging. [ABSTRACT FROM AUTHOR]

Published

2024

14. Assessing the potential of underground storage of flood water: A case study from Southern Punjab Region in Pakistan

Author

Ghulam Zakir-Hassan, Jehangir F Punthakey, Ghulam Shabir, and Faiz Raza Hassan

Subjects

groundwater, managed aquifer recharge, indus river basin, aquifer, vehari, punjab, pakistan, Ecology, QH540-549.5, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

An intensively irrigated area in southern part of Punjab Province, Pakistan, has been selected by the Punjab Irrigation Department (PID) to implement a Managed Aquifer Recharge (MAR) project. This project involves diverting floodwater from the Islam Headwork on Sutlej River into the abandoned Mailsi Canal. Utilizing various structures such as depressions, abandoned canals, flood channels, open fields, and deserts for MAR can reduce the flood intensity while recharging aquifer and wetlands. The study area, known for its fertile lands and serving as a food basket for the Punjab Province, is experiencing groundwater depletion at the rate of 0.30 m to 0.70 m per year, significantly increasing pumping costs. This study aims to evaluate the suitability of the sites for the MAR project and assess the storage capacity of the aquifer for floodwater retention. Historical groundwater level data from 25 observation wells across an area of 1,522 km2 were analysed, with the study area divided in to 25 polygons using ArcMap10.6 software. Specific yield method was employed to assess the available storage capacity of the aquifer. Results indicate that the site is suitable for MAR and has the potential to store approximately 1.88 km3 of floodwater as of 2020, thereby reducing flood intensity and enhancing eco-hydrogeological conditions. MAR is identified as a Nature-Based Solution (NBS) for both flood mitigation and groundwater sustainability.

Published

2024

15. Combined clogging of suspended particle and algae during the recharge with the Yellow River water in the Yufuhe River channel of North China Plain.

Author

Weidong Zhao, Jingsi Zhu, Zhe Wang, Weiping Wang, and Shisong Qu

Abstract

Managed aquifer recharge (MAR) is an effective measure for integrated water resources in the North China Plain (NCP). During the recharging, the combined clogging in the aquifer caused by algae and suspended solid (SS) is a problem that was easily ignored by researchers. In this research, a sand column model was designed to investigate the SS-algae combined clogging mechanism in the porous medium during the Yellow River water recharge in the Yufuhe River channel of NCP. The SS-algae combined plugging of the medium appeared earlier and the plugging degree was more serious compared with the SS-only clogging and the algae-only clogging during the infiltration. Meanwhile, the surface clogging degree of the medium is more serious, and the interior is smaller in comparison to the SS-only group and the algaeonly group. The filter cake and algae mat are the signs of SS clogging and algae clogging, and the algae mat structure in the SS-algae group is more dense compared to the algae-only group. In the combined clogging experiment, the outflow concentration of SS and algae in the medium is less than the SS-only group and the algae-only group. In addition, algae and SS can limit each other's migration in the medium. [ABSTRACT FROM AUTHOR]

Published

2024

16. Detection and mitigation of soil salinization risk from saline/brackish water aquaculture in coastal areas: an application of remote sensing and managed aquifer recharge.

Author

Nguyen, Diep Ngoc, Chiapponi, Emilia, Nguyen, Dong Minh, Antonellini, Marco, and Silvestri, Sonia

Subjects

*GROUNDWATER recharge, *WATER salinization, *SOIL salinization, *BRACKISH waters, *WATER in agriculture, *AQUIFERS, *SOIL salinity

Abstract

This study focuses on detecting and mitigating soil salinization in four coastal areas of the Mekong Delta (Vietnam). Salinity patterns in the soils of the Mekong River Delta are not random but linked to land use practices and distance to the sea. We examine two quick yet reliable remote sensing-based techniques to detect the coastal aquaculture area and separate it from the inland freshwater farmland. These techniques can eventually be used to identify locations with an elevated risk of salinization in other coastal regions. Finally, we investigate a salinization mitigation solution based on creating a managed aquifer recharge system along the buffer zone that separates the coastal aquaculture area from the inland freshwater agriculture area. The implementation of an infiltration pond system is technically feasible in the Mekong Delta provided that hydrogeological characteristics, the fresh-saline interface position, and freshwater demands are considered. The transitional zone between freshwater agriculture and brackish water aquaculture in Bac Lieu, Soc Trang, Tra Vinh and Ben Tre provinces is optimal for implementing an aquifer recharge/freshwater barrier scheme. [ABSTRACT FROM AUTHOR]

Published

2024

17. A Novel Technique to Mitigate Saltwater Intrusion: Freshwater Recharge via Drainpipe in Permeable Paleochannels.

Author

Zancanaro, Ester, Morari, Francesco, Piccoli, Ilaria, Carrera, Alberto, Zoccarato, Claudia, and Teatini, Pietro

Subjects

SALTWATER encroachment, LAND subsidence, GROUNDWATER recharge, GROUNDWATER quality, AGRICULTURAL productivity, ESTUARIES

Abstract

Seawater intrusion (SWI) is threatening coastal aquifers and farmland productivity worldwide. Although this phenomenon naturally occurs in coastal areas, it is intensified by anthropogenic activities such as groundwater pumping and land reclamation that cause a lowering of the hydraulic head and land subsidence. Moreover, the consequences of climate change such as sea level rise, increase of the mean temperature and the shifting of rainfall events to tropical regimes, have strong negative effects on groundwater quality and agriculture. Countermeasures against SWI are needed to maintain agricultural productivity and protect the freshwater resources in coastal areas. In the low‐lying farmlands surrounding the southern Venice Lagoon, in northern Italy, SWI is exacerbated by land subsidence, the presence of sandy paleochannels connected to the lagoon subsurface, seawater encroachment into the river estuaries, the presence of fossil brine waters and peat deposits. This study provides a detailed hydrogeological and geochemical characterisation of an experimental agricultural field affected by SWI located in this area using a large dataset collected over the 4 years between 2019 and 2022. Furthermore, it presents the results of novel intervention established across the farmland in 2021 to mitigate saltwater contamination. This intervention involved a controlled discharge of freshwater supplied by a reclamation channel through a 200 m‐long drainpipe buried 1.5 m below the field surface along a well‐preserved sandy paleochannel. The interpretation of the collected data demonstrates that the freshwater recharge carried out in 2021 and 2022 effectively reduced the groundwater salinity along the paleochannel. Moreover, statistical analyses highlighted that a certain lateral spread of freshwater occurred too, although the variability of the monitored parameters in the sites located outside the sandy body was only partially explained by the drain activity. [ABSTRACT FROM AUTHOR]

Published

2024

18. Groundwater resources: Challenges & solutions

Author

Richard J. Cooper and Kevin M. Hiscock

Subjects

abstraction, water quality, emerging contaminants, nature-based solutions, managed aquifer recharge, Environmental sciences, GE1-350, Hydraulic engineering, TC1-978

Abstract

Through the provision of drinking and agricultural irrigation water, groundwater resources fundamentally underpin the existence of modern human society across large regions of the world. Despite this, decades of unsustainable exploitation have led to acute degradation of groundwater quantity and quality, creating pressing challenges that society must address if we are to maintain viable access to this crucial resource for future generations. Taking stock of the current situation, in this contribution we begin by reviewing some of the major global groundwater resource pressures, before exploring a range of technological, engineering, societal and nature-based solutions to address these challenges. We look at examples of emerging groundwater resource threats and potential innovative solutions to tackle them, before concluding with a forward look at future research opportunities that can ultimately enhance our management of this vital resource.

Published

2025

19. Mapping the potential for managed aquifer recharge in Kazakhstan.

Author

Sallwey, Jana, Ongdas, Nurlan, Al-Hosban, Mohammad, and Stefan, Catalin

Subjects

*AQUIFERS, *GEOGRAPHIC information systems, *WATER shortages, *WATER management

Abstract

MAR remains relatively underutilized in Central Asia despite its potential to address water scarcity issues, particularly those related to seasonal fluctuations in water availability. Thus, the objective of this study was to produce a map depicting the potential suitability of managed aquifer recharge (MAR) implementation in Kazakhstan. Employing a multi-criteria decision analysis framework, five distinct physical criteria were integrated and visualized within a Geographic Information System (GIS) to delineate the intrinsic potential for MAR. To demonstrate the practical utility of the generated map, it was applied to the Zhambyl region in Southern Kazakhstan, an area previously afflicted by water scarcity challenges. The intrinsic MAR potential map was overlaid with remote sensing data identifying potential water sources and water utilization patterns. This overlay facilitated the identification of priority areas with potential for further evaluation for MAR implementation. The map developed for Kazakhstan represents the first spatial representation of MAR potential within the region, serving to raise awareness regarding the feasibility of MAR application. It is anticipated that dissemination of this map will enhance understanding among water management professionals, potentially catalysing the integration of MAR methodologies into regional water management strategies. [ABSTRACT FROM AUTHOR]

Published

2024

20. GIS-based suitability mapping of Managed Aquifer Recharge (MAR) in Diredawa catchment, Eastern Ethiopia.

Author

Yosef, Ze-Michael, Birhanu, Behailu, Suryabhagavan, Karuturi Venkata, and Tsegay, Tsnat

Abstract

Groundwater abstraction has increased tremendously due to population growth, urbanization, and industrial expansions. Managed Aquifer Recharge (MAR) has been a promising technique for increasing freshwater availability in response to water demand for different consumptions. This study aimed to identify suitable zones for MAR in the Diredawa catchment, eastern Ethiopia using multi-criteria decision analysis (MCDA). The seven parameters processed were soil texture, lithology, slope, land use and land cover, drainage density, transmissivity, and water quality (NO3). Each criterion was evaluated with analytical hierarchy process (AHP) and mapped by GIS. The sensitivity analysis was conducted using the map removal technique, and potential zones were validated using borehole yield data. The MAR suitability zones were assorted into very high, high, moderate, low, and very low suitability classes, representing 15.8%, 25.8%, 28.8%, 13.1%, and 16.3% areas. The MAR suitability mapping is highly affected by lithological variation. The alluvial sediment, upper sandstone, and fractured limestone with sandy loam soil texture are potential areas for implementing MAR. The highest potential MAR site is located in the western, southwestern, and northern parts of the catchment. This study will serve as a foundation for future site selection of MAR structures, aiming to enhance groundwater supply sources, improve groundwater quality, and manage urban flooding in the water-stressed and flood-prone Diredawa catchment. [ABSTRACT FROM AUTHOR]

Published

2024

21. An integrated groundwater vulnerability and artificial recharge site suitability assessment using GIS multi-criteria decision making approach in Kayseri region, Turkey.

Author

Mouhoumed, Rachid Mohamed, Ekmekcioğlu, Ömer, and Özger, Mehmet

Subjects

ARTIFICIAL groundwater recharge, MULTIPLE criteria decision making, ANALYTIC hierarchy process, GEOGRAPHIC information systems, DECISION making, GROUNDWATER recharge

Abstract

Groundwater resources worldwide face significant challenges that require urgent implementation of sustainable measures for effective long-term management. Managed aquifer recharge (MAR) is regarded as one of the most promising management technologies to address the degradation of groundwater resources. However, in urban aquifers, locating suitable areas that are least vulnerable to contamination for MAR implementation is complex and challenging. Hence, the present study proposes a framework encapsulating the combined assessment of groundwater vulnerability and MAR site suitability analysis to pinpoint the most featured areas for installing drywells in Kayseri, Turkey. To extrapolate the vulnerable zones, not only the original DRASTIC but also its multi-criteria decision-making (MCDA)–based modified variants were evaluated with regard to different hydrochemical parameters using the area under the receiver operating characteristic (ROC) curve (AUC). Besides, the fuzzy analytical hierarchy process (FAHP) rationale was adopted to signify the importance level of criteria and the robustness of the framework was highlighted with sensitivity analysis. In addition, the decision layers and the attained vulnerability layer were combined using the weighted overlay (WOA). The findings indicate that the DRASTIC-SWARA correlates well with the arsenic (AUC = 0.856) and chloride (AUC = 0.648) and was adopted as the vulnerability model. Groundwater quality parameters such as chloride and sodium adsorption ratio, as well as the vadose zone thickness, were found to be the most significant decision parameters with importance levels of 16.75%, 14.51%, and 15.73%, respectively. Overall, 28.24% of the study area was unsuitable for recharge activities with high to very high vulnerability, while the remaining part was further prioritized into low to high suitability classes for MAR application. The proposed framework offers valuable tool to decision-makers for the delineation of favorable MAR sites with minimized susceptibility to contamination. [ABSTRACT FROM AUTHOR]

Published

2024

22. How could managed aquifer recharge be feasible in the Coleambally Irrigation Area?

Author

Harvey, Natasha, Guillaume, Joseph H.A., Merritt, Wendy, Ticehurst, Jenifer, and Thompson, Keith

Subjects

*GROUNDWATER recharge, *WATER shortages, *WATER supply, *IRRIGATION, *WATER storage, *AQUIFERS

Abstract

Managed aquifer recharge (MAR) has been proposed as an innovative water storage method to manage variable water availability in Australian agricultural regions by combatting water shortage whilst addressing groundwater overuse and reducing large evaporative losses from surface storages. MAR innovations involve the recharge of water into aquifers and extraction when needed. However, their uptake has been limited as they are associated with large amounts of uncertainty. We present an argumentation approach to reason about the feasibility of MAR in the Coleambally Irrigation Area in the Murrumbidgee catchment. Three scenarios that focus on managed aquifer recharge and two competing surface water scenarios are developed for the case study area, as well as associated recommendations aimed at the key stakeholders who can initiate change. The approach and scenarios show potential, with future work involving the implementation of the recommendations and the application of the approach to another case study for further refinement. [ABSTRACT FROM AUTHOR]

Published

2024

23. Evaluation of the Offsets of Artificial Recharge on the Extra Run-Off Induced by Urbanization and Extreme Storms Based on an Enhanced Semi-Distributed Hydrologic Model with an Infiltration Basin Module.

Author

Han, Qiang, Qi, Tiansong, and Khanaum, Mosammat Mustari

Subjects

ARTIFICIAL groundwater recharge, WATER management, HYDROLOGIC models, WATERSHEDS, RUNOFF, GROUNDWATER recharge

Abstract

Urbanization and climate change exacerbate groundwater overexploitation and urban flooding. The infiltration basin plays a significant role in protecting groundwater resources because it is a prevalent technology of managed aquifer recharge. It could also be utilized as a retention pond to mitigate city waterlogging. The goal of this study was to explore the offsets of artificial recharge on the extra runoff induced by urbanization and extreme storms via infiltration basins. To achieve this objective, a lumped infiltration basin module was developed and integrated into a semi-distributed hydrologic model. Then, the enhanced model was applied to an agriculture watershed with urban areas. Finally, the functionalities of the infiltration basins were evaluated under the scenarios of the predicted urbanization and extreme storms. The results demonstrated the capability of the infiltration basins to influence both artificial recharge and flood mitigation. To mitigate floods, especially peak flows, larger areas are needed for infiltration basins than for artificial recharge purposes only. Based on different demands, the intermittent regulation of infiltration basins according to different hydrologic periods is recommended. The offsets of artificial recharge on the extra surface runoff provide insight into the comprehensive preservation and management of surface water resources and groundwater resources. [ABSTRACT FROM AUTHOR]

Published

2024

24. Managed aquifer recharge site suitability analysis in the Nabogo Basin of Ghana using GIS and Monte Carlo simulation-aided analytic hierarchy process.

Author

Adam, Ayuba B., Appiah-Adjei, Emmanuel K., Adjei, Kwaku A., Gyampo, Maxwell Anim, and Owusu-Ansah, Emmanuel De-Graft Johnson

Subjects

ANALYTIC hierarchy process, AQUIFERS, SOIL texture, WATER management, COASTS, MONTE Carlo method, SURFACE properties

Abstract

Groundwater in the Nabogo Basin is threatened by increasing domestic and irrigation demands during the dry season, owing to climate change and overexploitation. Managed aquifer recharge (MAR) has therefore been proposed as a water management technique to augment groundwater resources. However, the success of MAR schemes depends on the selection of sites with suitable surface and subsurface properties to enhance the recharge rates. Thus, this study created spatial maps of the slope, drainage density, land use/cover, soil texture, transmissivity, groundwater depth, and aquifer thickness in the basin to create a suitability map. Analytical hierarchy process (AHP) with and without Monte Carlo (MC) simulation was used to create weights for each criterion based on seven expert opinions to assess their performance in dealing with uncertainties. The spatial maps and weights were then integrated to create a MAR suitability map. The results showed similar mean weights for AHP- and MC-aided simulations. However, MC-aided simulations narrowed the confidence interval and reduced the standard deviation of the AHP weights by 50–89%, thereby reducing the uncertainty and sensitivity of the weights. Furthermore, the suitability map showed that 38.8% (1124 km2), 39.2% (1136 km2), and 22% (637 km2) of the basin was suitable, less suitable, and unsuitable, respectively, for MAR applications. A receiver operating curve (ROC) value of 77.8% from the validation process indicated good model performance. This proves the effectiveness of MC simulations in reducing errors and uncertainty in the AHP. Therefore, it is a useful tool for mapping MAR suitability. [ABSTRACT FROM AUTHOR]

Published

2024

25. Modelling regional effects of artificial groundwater recharge in a multilayer aquifer characterized by perched water tables.

Author

Gómez‐Escalonilla, Víctor, Heredia, Javier, Martínez‐Santos, Pedro, López‐Gutiérrez, Julio, and De la Hera‐Portillo, África

Subjects

ARTIFICIAL groundwater recharge, WATER table, GROUNDWATER recharge, AQUIFERS, WETLANDS, GROUNDWATER

Abstract

This paper presents an approach to estimate the effects of a managed recharge experiment in a multilayer aquifer characterized by the presence of perched water tables in the Medina del Campo groundwater body, Douro basin, central Spain. A numerical model was developed to evaluate the effect of artificial recharge on the shallow sector of a regional‐scale aquifer and on formerly active wetlands. The model was developed in the Visual MODFLOW Pro v.2011.1 environment in order to represent and analyse the regional impact of this artificial recharge event. Results suggest that the assumption of a single perched system may prove useful in regional contexts where data is limited. From a study site perspective, managed recharge is observed to increase shallow storage along the riverbanks, which is considered valuable for environmental purposes. However, downstream wetlands are unlikely to experience a significant recovery. Furthermore, only a small percentage of artificial recharge is expected to reach the deep regional aquifer. This method can be exported to settings characterized by the presence of perched aquifers and associated groundwater dependent ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

26. Enhancing groundwater recharge in drinking water protection zones in Flanders (Belgium): A novel approach to assess stormwater managed aquifer recharge potential

Author

Lara Speijer, Simon Six, Bas van der Grift, Dirk Gijsbert Cirkel, Goedele Verreydt, Jef Dams, and Marijke Huysmans

Subjects

Stormwater availability, Infiltration, Managed aquifer recharge, GIS methodology, Flanders Belgium, Physical geography, GB3-5030, Geology, QE1-996.5

Abstract

Study region: Flanders (Belgium) Study focus: Stormwater infiltration for managed aquifer recharge is increasingly recognized as a drought adaptation measure. Given the high degree of urbanization and imperviousness, stormwater infiltration has significant potential in Flanders (Belgium). This research presents a novel approach to quantify stormwater availability and its potential to enhance groundwater recharge. Stormwater volumes available for recharge are calculated based on the imperviousness level, yearly average precipitation volumes, and runoff coefficients. This study focuses on groundwater protection zones around drinking water wells to assess the role of increased infiltration for sustainable drinking water production. Calculated potential stormwater volumes for recharge are compared to natural groundwater recharge and pumping volumes for drinking water production to quantify the potential significance of stormwater infiltration for aquifer recharge. New hydrological insights for the region: Results show a high potential for stormwater infiltration in Flemish protection zones with an average of 17% (7%-33%) additional groundwater recharge from stormwater infiltration. Additionally, stormwater recharge could potentially compensate for 19% (8%-37%) of abstracted drinking water production from phreatic aquifers. Locally, higher groundwater recharge potentials were calculated, especially in protection zones around the city of Leuven. Therefore, stormwater harvesting for infiltration and groundwater recharge should be further encouraged throughout the region, with special attention to urban areas. However, further research is needed on stormwater quality to assess groundwater quality risks in this water quantity-quality balancing exercise.

Published

2024

27. A study of riverbank filtration effectiveness in the Kępa Bogumiłowicka well field, southern Poland

Author

Krzysztof Janik, Kinga Ślósarczyk, and Sławomir Sitek

Subjects

Water quality, Statistics, Bank filtration, Managed aquifer recharge, Surface water and groundwater interactions, Poland, Physical geography, GB3-5030, Geology, QE1-996.5

Abstract

Study Region: Southern Poland, Dunajec River catchment Study Focus: The study evaluated an eleven-year observation period of physicochemical parameters within a riverbank filtration (RBF) site located by the Dunajec River. A total of nine parameters (pH, electrical conductivity, sulphate, chloride, nitrate, manganese, water hardness, colour, turbidity) in both surface water and groundwater underwent statistical scrutiny. This analysis encompassed Spearman’s correlation, linear mixed-effects models and hypothesis testing. New Hydrological Insights for the Region: This study revealed that the Dunajec River constitutes a major factor in forming the exploited groundwater physicochemical composition. Statistically significant differences between two rows of wells were found, implying a more substantial RBF impact on the row closer to the Dunajec. However, the river’s influence on further wells was also highlighted. The RBF process in the study area was considered efficient since it maintained a stable groundwater physicochemical composition and provided sufficient water for exploitation over the years. Comprehending the interactions between the surface water and groundwater flow system is crucial to the well field sustainability, enabling water supply system optimisation and a more precise assessment of risks regarding groundwater contamination.

Published

2024

28. Groundwater management in the face of climate change: enhancing groundwater storage in the alluvium aquifer of Wadi Araba, Jordan, through GIS-based managed aquifer recharge and groundwater MODFLOW

Author

Ala’ Alelaimat, Ismail Yusoff, Mohd Khairul Nizar, Tham Fatt Ng, and Yahya A. Majali

Subjects

climate change effect, gis, groundwater, groundwater modflow, managed aquifer recharge, wadi araba, Water supply for domestic and industrial purposes, TD201-500, River, lake, and water-supply engineering (General), TC401-506

Abstract

Groundwater is critical in countries such as Jordan, yet demand exceeds availability due to population expansion and arid conditions. The goal of this research is to address water scarcity and adapt to reduced rainfall by investigating the soil aquifer and evaluating the efficiency of managed aquifer recharge (MAR). The Wadi Araba Basin's alluvium aquifer is particularly important and contains a groundwater divide, with water flowing towards the Red Sea to the south and the Dead Sea to the north, as determined by rigorous modelling and scenario analysis. Precipitation infiltration is an important consideration in groundwater budget modelling. This study employs 12 monitoring wells to establish an acceptable relationship between estimated and observed water levels. Furthermore, the study creates a MAR suitability map, which evaluates eight potential MAR locations in the Wadi Araba region. According to forecasted scenarios, implementing MAR in conjunction with increased precipitation recharge has the potential to ameliorate the consequences of decreased rainfall in the model region. The plan aims to raise the water table in three areas by 1.96–3.12%, providing realistic solutions to enhance water availability and adapt to climate change. HIGHLIGHTS Groundwater plays a crucial role in addressing water scarcity.; Research in Wadi Araba Basin evaluating Managed Aquifer Recharge strategy to combat water scarcity.; The potential to raise the water table by 1.16% in specific areas.; Focusing on conductivity values to generate a calibration curve.; The level chart of the basin revealed ground water divided in alluvium aquifer water flows in two directions.;

Published

2023

29. Unintentional Recharge of Aquifers from Small Dams and Dykes in Spain: A GIS-Based Approach to Determine a Fractional Volume

Author

Enrique Fernández Escalante, José David Henao Casas, Carlos Moreno de Guerra Per, María Dolores Maza Vera, and Carles Moreno Valverde

Subjects

managed aquifer recharge, artificial recharge, unintentional recharge, transverse dams, dykes, infiltration, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Conducting an accurate hydrological water balance at the regional and country-wide scales is paramount to assessing available water resources and adequately allocating them. One of the main components of these balances is the anthropogenic recharge of groundwater either intentionally, through managed aquifer recharge (MAR), or unintentionally, where infiltration from dams and dykes can play a significant role. In Spain, proper management of water resources is critical due to the arid to semiarid conditions prevalent in most of the territory and the relevance of water resources for maintaining a robust agricultural sector. Previous work estimated country-wide recharge from MAR at 150 to 280 Mm3/year. Recently, water authorities pointed out that, according to hydrological water balances, the total unintentional recharge volume from water courses may exceed 500 Mm3/year. The present research aims to present a new inventory of transverse structures (also referred to as small dams and dykes) in Spain and use it to estimate country-wide unintentional recharge. The inventory, compiled by the Spanish Ministry for the Ecological Transition and the Demographic Challenge, has 27,680 structures and includes construction and impoundment characteristics, which allow for estimating the wet perimeter and the infiltration area. To this end, structural data from the inventory were crossed through map algebra in a GIS environment with thematic layers, such as lithology, permeability, the digital elevation model, the transverse structures’ wetted area, the average groundwater levels, and a clogging correction factor. Two analytical formulas to compute infiltration from small dams and dykes were tested. The resulting volume of unintentional recharge from transverse structures ranges between 812.5 and 2716.6 Mm3/year. The comparison against regional and national water balances suggests that the lowest value of the range (i.e., 812.5 Mm3/year) is probably the most realistic. Anthropogenic recharge from MAR and transverse structures is likely in the range of 1012.5–1514.8 Mm3/year. This rough figure can help close the hydrological balance at the national and river basin levels and contribute to calibrating regional models. Furthermore, they provide an order of magnitude for anthropogenic recharge at a national scale, which is difficult to obtain.

Published

2023

30. Managed aquifer recharge as a strategy to redistribute excess surface flow to baseflow in snowmelt hydrologic regimes

Author

Stephen B. Ferencz, Adam Mangel, and Frederick Day-Lewis

Subjects

managed aquifer recharge, enhanced baseflow, climate change, water resources, groundwater modeling, MODFLOW, Environmental technology. Sanitary engineering, TD1-1066

Abstract

Water management in snowmelt hydrologic regimes, characterized by large annual fluctuations in stream flow driven by seasonal snow melt, faces the challenge of highly variable supply that often does not align with timing of demand. Climate change may exacerbate management challenges by significantly reducing snowpack or shifting snow melt earlier. Here, managed aquifer recharge (MAR) is evaluated as a potential strategy to reallocate excess early-season stream flow to time periods when less surface water is available. This strategy differs from traditional MAR, where the goal is to minimize loss to surface water. We assess how to site MAR operations such that groundwater recharge flows back to the surface water system in a lagged manor to benefit water management objectives, which we term “enhanced baseflow.” We use a regional groundwater model for the Treasure Valley aquifer located in southwestern Idaho, United States to demonstrate a generalizable approach using regional groundwater models as tools to identify favorable baseflow enhancement locations. Hypothetical MAR is simulated at 197 candidate locations, which are then evaluated for how effectively they meet potential management objectives. In addition to demonstrating the modeling and evaluation approach, we discuss lessons learned from applying a pre-existing regional groundwater model to MAR for enhanced baseflow and also describe important considerations, such as the physical and institutional availability of surface flows and specific management objectives, when assessing regional and site-specific suitability of MAR for enhanced baseflow as a potential management strategy.

Published

2024

31. Hydro‐economic modeling of managed aquifer recharge in the lower Mississippi.

Author

Ali, Ahmed A., Tran, Dat Q., Kovacs, Kent F., and Dahlke, Helen E.

Subjects

*HYDROGEOLOGY, *GROUNDWATER management, *HYDROGEOLOGICAL modeling, *AQUIFERS, *ECONOMIC models, *WATER use, *LAND use

Abstract

The Mississippi Embayment aquifer is one of the largest alluvial groundwater aquifers in the United States. It is being excessively used, located along the lower Mississippi River covering approximately 202,019 km2 (78,000 square miles). Annual average groundwater depletion in the aquifer has been estimated at 5.18 billion cubic meters (Gm3) (4.2 million acre‐feet) in 1981–2000. However, since 2000, annual groundwater depletion has increased abruptly to 8 Gm3 (2001–2008). In recent years, multi‐state efforts have been initiated to improve the Mississippi Embayment aquifer sustainability. One management strategy of interest for preserving groundwater resources is managed aquifer recharge (MAR). In this study, we evaluate the impact of different MAR scenarios on land and water use decisions and the overall groundwater system using an economic model able to assess profitability of crop and land use decisions coupled to the Mississippi Embayment Regional Aquifer Study (MERAS) hydrogeologic model. We run the coupled model for 60 years by considering the hydrologic conditions from the MERAS model for the years 2002–2007 and repeating them 10 times. We find MAR is not economically attractive when the water cost is greater than $0.05/m3. Groundwater storage is unlikely to improve when relying solely on MAR as groundwater management strategy but rather should be implemented jointly with other groundwater conservation policies. [ABSTRACT FROM AUTHOR]

Published

2023

32. Total Dissolved Solids Risk Assessment and Optimisation Scheme of Managed Aquifer Recharge Projects in a Karst Area of Northern China.

Author

Li, Jinchao, Wang, Weiping, and Li, Wenliang

Subjects

GROUNDWATER recharge, ARTIFICIAL groundwater recharge, KARST, GROUNDWATER quality, WATER quality, WATER supply

Abstract

Jinan, China, is famous for its springs. However, societal and economic development over the past decades has detrimentally altered the natural water cycle in the spring area. Managed aquifer recharge (MAR) is an effective measure to ensure the normal gushing of springs. Balancing water resource utilisation, ecological effects, and water quality risks is not always easy to implement. This study focused on the potential effects of MAR projects that divert water from multiple local surface water sites, e.g., the Yellow River and South-to-North Water Diversion (SNWD) Project. A numerical simulation model for the entire spring area was built using MODFLOW and MT3DMS. The SNWD Project diverts water with relatively high total dissolved solids (TDS) to the Yufu River, which consequently recharges groundwater and poses a potential risk to the downstream karst water in the Jinan Spring area. Different simulation scenarios were set, and the results showed that the 90% recovery ratio scheme yields the highest TDS reduction efficiency as well as the largest karst water extraction volume. In addition, the water table remains stable as a whole. The benefits of the designed scheme are multifold, including improving water quality up to Standard III groundwater quality and meeting the water needs of the economy. The study provides a novel method of addressing the groundwater quality risks posed by artificial recharge. [ABSTRACT FROM AUTHOR]

Published

2023

33. Optimization of Dam Operation and Interaction with Groundwater: An Overview Focusing on Greece.

Author

Karakatsanis, Diamantis, Patsialis, Thomas, Kalaitzidou, Kyriaki, Kougias, Ioannis, Ntona, Maria Margarita, Theodossiou, Nicolaos, and Kazakis, Nerantzis

Subjects

WATER management, WATER quality monitoring, HYDROELECTRIC power plants, DAMS, GROUNDWATER recharge, GROUNDWATER monitoring, RESERVOIRS

Abstract

The optimization of dam operations to transform them into multi-objective facilities constitutes a challenge for both hydrology, hydrogeology, and hydropower generation. However, the use of the optimal algorithm for such transformation is critically important. Additionally, the literature has highlighted that dams might negatively influence the recharge of groundwater. Within this study, we provide an overview of the available algorithms for the optimization of dam operations. Additionally, an overview focusing on hydropower generation in Greece illustrates the high potential of the Mediterranean region for hydropower generation and the application of MAR. The water quality of the reservoirs is also highlighted as a critical parameter. Within this study, we present indices for water quality monitoring in dam reservoirs, while the most prevailing index is the SRDD. This study constitutes a guide for researchers in choosing the optimal tools for the optimization of dam operations and the water quality monitoring of reservoirs. The present study suggests a meta-heuristic optimization methodology using the harmony search algorithm. The model uses a geometric model of the reservoir and calculates the level–supply curve. Furthermore, a multi-criteria optimization model was developed with two objective functions: the maximum power output from the hydroelectric power plant turbines and the optimal groundwater recharge. The model with appropriate parameter modifications can be applied to any small dam as it is a decision- and policy-making methodology, independent of local conditions. A further step is the application of these approaches dealing with field data and the numerical modeling of case studies. The interdisciplinary approach of this study links deferent aspect and scientific perceptions, providing a comprehensive guide to optimal water resource management and environmental sustainability. [ABSTRACT FROM AUTHOR]

Published

2023

34. A Web-Enabled Tool for Site Suitability Mapping for Managed Aquifer Recharge (MAR) Using Google Earth Engine (GEE) and Multi-Criteria Decision Analysis (MCDA).

Author

Patidar, Nitesh, Yadav, Basant, Kumar, Sumit, Raj, Abhay, Krishan, Gopal, Singh, Surjeet, Deka, Bhaskar Jyoti, Jeong, Sanghyun, Pandey, Ashish, Matsuno, Yutaka, and Singh, R. D.

Subjects

GROUNDWATER recharge, MULTIPLE criteria decision making, DECISION making, DOWNLOADING, ANTHROPOGENIC effects on nature

Abstract

Under possible risk of compound impacts of climate and anthropogenic changes, the Managed Aquifer Recharge (MAR) is envisaged to be an appropriate solution. Site suitability mapping is a crucial step in MAR project planning which requires various data, processing and GIS analysis. An automated web-based tool, named G-MCDA, is developed in this study for quick and efficient suitability mapping. G-MCDA integrates Google Earth Engine (GEE), Multi-criteria Decision Analysis (MCDA), GIS and web-based interface that allows automated data downloading, GIS data processing and suitability analysis using MCDA. G-MCDA has been tested in upper Ganga-Yamuna Doab region, India, for site suitability analysis. The application of G-MCDA shows that most of the area (82%) is under suitable category followed by very suitable (12%), and moderately suitable (5%). The suitable area is mostly flat agricultural lands with alluvium aquifer. A few patches of urban and sloping lands found to be moderately/low suitable for MAR. [ABSTRACT FROM AUTHOR]

Published

2023

35. Analysis of unsaturated-saturated flow induced by a vadose zone well injection

Author

Cuiting Qi, Hongbin Zhan, and Yonghong Hao

Subjects

vadose zone well, managed aquifer recharge, coupled unsaturated-saturated flow, soil constitutive model, Geology, QE1-996.5, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

Objective Vadose zone well (VZW) injection is an effective method of managed aquifer recharge (MAR). To improve VZW injection management, it is of great importance to accurately describe the unsaturated zone properties. Several analytical models have been developed for VZW injection based on the two-parameter constitutive model (Gardner model). As the three-parameter model (MB model) and four-parameter model (MN model) have been proposed, it is of interest to know whether the application of more flexible constitutive models is able to improve the analysis of unsaturated-saturated flow induced by VZW injection. Methods In this study, the MN model (which includes the Gardner model and MB model as subsets) was employed to establish a VZW injection model. The model was solved using COMSOL Multiphysics. The results are utilized to investigate the unsaturated-saturated flow induced by VZW injection for different values of the unsaturated zone properties to analyse the influences of the ground surface flux (GSF), and to compare the hydraulic responses based on different exponential constitutive models. Results The analysis demonstrates that the hydraulic response induced by VZW injection and the influence of ground surface flux are affected by the hydraulic conductivity and the water storage capacity of the unsaturated zone. The relative hydraulic conductivity exponent ωk affects the change in hydraulic conductivity of the unsaturated zone. The moisture retention exponent ωc affects the water storage capacity of the unsaturated zone. The approximation of ωk=ωc=ω will result in some errors in the calculation and prediction of the hydraulic response caused by VZW injection. When the absolute value difference of the pressure head threshold b1=ψa-ψk is small, its effect on the water head increment is small. In this case, it is reasonable to assume that b1=ψa-ψk=0. Conclusion This study can help scholars improve the understanding of the VZW injection process and has important practical significance for the design, implementation and management of injection schemes.

Published

2023

36. Recycled water could recharge aquifers in the Central Valley

Author

Sarah P. Gerenday, Debra Perrone, Jordan F. Clark, and Nicola Ulibarri

Subjects

central valley, managed aquifer recharge, recycled water, sgma, Agriculture

Abstract

Drawing out too much groundwater, or overdrafting, is a serious problem in California. As a result, groundwater sustainability agencies are considering using recycled municipal wastewater to recharge aquifers. In our study, we employ suitability mapping and the models C2VSimFG and Ichnos to identify appropriate areas for managing aquifer recharge with recycled water in California's Central Valley. The factors that influence suitability include soil properties, proximity to recycled water sources, and the residence time, or amount of time that recharged water spends underground. There are many suitable areas in the Central Valley that are immediately adjacent to water recycling facilities. However, adequate supply is an issue in most locations. Roughly half of the groundwater sustainability agencies in critically overdrafted basins of the Central Valley have enough potentially suitable locations to meet their recharge goals, but not all of them have access to enough recycled water. The methods demonstrated here can serve as tools for agencies considering using recycled water for aquifer recharge.

Published

2023

37. Development of suitability map for managed aquifer recharge: Case study, West Delta, Egypt

Author

Heba Mohamed Hani, Mohamed M. Nour El Din, Abdelkawi Khalifa, and Ezzat Elalfy

Subjects

groundwater management, managed aquifer recharge, suitability mapping, treated wastewater, water management planning, west delta, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350

Abstract

Managed aquifer recharge (MAR) is considered an innovative method for storing water in the subsurface. In this work, multi-criteria decision analysis (MCDA) was used to delineate potential groundwater recharge areas for MAR implementation in Western Delta using reclaimed wastewater. By employing geographical information systems (GIS) and pairwise comparison matrix (PCM), a modified approach was utilized for the development of the suitability map by capturing the interlinkages between a specified MAR technique (spreading methods) and MAR suitability mapping processes. The developed approach was created with a range of constraining and factorial considerations. Based on the findings, MAR potential recharge zones included four main suitability classes. The presence of high-suitability areas was mainly delineated in the northeast part, particularly around the left side of the Nile River valley. Areas of low suitability were located around the west-north side where the hydrological criterion seems to hinder the implementation due to the low productivity of the hydrogeologic layer. The developed methodology reflected the importance of specific determining factors (i.e., slope and depth to the water table) that govern the successful implementation of infiltration basins and maximize the benefits from soil aquifer treatments effects when taken into account with other hydrogeological and socio-economic variables. HIGHLIGHTS An enhanced vision for the future management of groundwater in West Delta.; The use of multi-criteria decision analysis for improved groundwater management.; Assessing land suitability for future managed aquifer recharge (MAR) developments.; The use of suitability mapping for better-informed decision-making for MAR planning.;

Published

2023

38. Natural treatment based on willows for concentrate of reverse osmosis.

Author

Van Houtte, E., Mendonça, I., McAteer, E., Rogier, T., Van Eeghem, J., de Grave, V. Winnock, Verbauwhede, J., and Notebaert, B.

Subjects

REVERSE osmosis, WATERSHEDS, GROUNDWATER recharge, CONSTRUCTED wetlands, WATER purification, WETLANDS

Abstract

Aquaduin started reusing wastewater effluent for infiltration, Cf. managed aquifer recharge (MAR), in its dune water catchment St-André in 2002. The treatment train at the Water Production Centre Torreele is based on multiple barrier approach with submerged ultrafiltration prior to reverse osmosis (RO). The project not only resulted in enhanced ecological values of the dunes but during the recent longer periods of drought, the combination of reuse/MAR proved to be a robust and safe way to ensure drinking-water production and thus is a potential solution to mitigate the impact of climate change [1]. Concentrate disposal is an issue when using RO. However, as Aquaduin operates in a coastal area, disposal could be managed; the concentrate was discharged in a canal that drained to the sea. To mitigate the impact of this discharge, treatment of RO concentrate using willows has been tested since 2007. This research resulted in the full-scale implementation of a willow field or marsh, that is based on the concept of a horizontally constructed wetland combined with short rotation coppice using willows (Salix). The construction started in 2021 and early 2022 the willow marsh became operational. In 2022 a total volume of 538.446 m3 was treated by the willow marsh, 85% of the total volume of RO concentrate produced. This paper will present the preliminary research, construction and initial results of the treatment. [ABSTRACT FROM AUTHOR]

Published

2023

39. Stochastic Analysis of the Drawdown Time of Infiltration Basins in the Presence of Heterogeneous Soils.

Author

Ferrante, Marco and Fiori, Aldo

Subjects

STOCHASTIC analysis, WATER management, MONTE Carlo method, GROUNDWATER recharge, AQUIFERS, PROBABILITY density function

Abstract

The drawdown time is important for the design and assessment of infiltration basins. This paper investigates its dependence on soil heterogeneity, and simple analytical solutions for the mean and the variance are given. The solutions are tested through Monte Carlo simulations in various realistic scenarios, using a modified Green Ampt model for layered soils and a model based on the integration of the 1‐D Richards equation. The impact of the employed approximations is assessed, and the leading role of the spatial distribution of the saturated hydraulic conductivity is emphasized. The effects of other relevant design and natural factors, including the initial water level and water content distribution, are also investigated. Plain Language Summary: Infiltration basins are receiving an increasing interest in water resources management as an alternative to surface water storage in the managed aquifer recharge and as a green infrastructure at the urban scale. One of the main parameters in the design of the infiltration basins is the drawdown time, that is, the time needed to empty the basin after it has been filled with water, for instance, after a flood event or by a managed treatment plant outlet. This work provides simple analytical solutions for the evaluation along a stochastic approach of the drawdown time, accounting for the soil heterogeneity and leading to a probabilistic design of the infiltration structure. Key Points: The time needed to empty infiltration basins, or drawdown time τ, is an important quantity for their design and assessmentThis work proposes analytical solutions for the mean and variance of τ considering the soil heterogeneitySolutions have been tested through a set of Monte Carlo numerical simulations, showing that the probability density function is lognormal and investigating the effects of design and natural factors [ABSTRACT FROM AUTHOR]

Published

2023

40. Unintentional Recharge of Aquifers from Small Dams and Dykes in Spain: A GIS-Based Approach to Determine a Fractional Volume.

Author

Escalante, Enrique Fernández, Casas, José David Henao, Per, Carlos Moreno de Guerra, Vera, María Dolores Maza, and Valverde, Carles Moreno

Subjects

WATER management, DAMS, HYDROGEOLOGY, WATERSHEDS, WATER supply, DIGITAL elevation models, DEMOGRAPHIC transition, GROUNDWATER recharge

Abstract

Conducting an accurate hydrological water balance at the regional and country-wide scales is paramount to assessing available water resources and adequately allocating them. One of the main components of these balances is the anthropogenic recharge of groundwater either intentionally, through managed aquifer recharge (MAR), or unintentionally, where infiltration from dams and dykes can play a significant role. In Spain, proper management of water resources is critical due to the arid to semiarid conditions prevalent in most of the territory and the relevance of water resources for maintaining a robust agricultural sector. Previous work estimated country-wide recharge from MAR at 150 to 280 Mm3/year. Recently, water authorities pointed out that, according to hydrological water balances, the total unintentional recharge volume from water courses may exceed 500 Mm3/year. The present research aims to present a new inventory of transverse structures (also referred to as small dams and dykes) in Spain and use it to estimate country-wide unintentional recharge. The inventory, compiled by the Spanish Ministry for the Ecological Transition and the Demographic Challenge, has 27,680 structures and includes construction and impoundment characteristics, which allow for estimating the wet perimeter and the infiltration area. To this end, structural data from the inventory were crossed through map algebra in a GIS environment with thematic layers, such as lithology, permeability, the digital elevation model, the transverse structures' wetted area, the average groundwater levels, and a clogging correction factor. Two analytical formulas to compute infiltration from small dams and dykes were tested. The resulting volume of unintentional recharge from transverse structures ranges between 812.5 and 2716.6 Mm3/year. The comparison against regional and national water balances suggests that the lowest value of the range (i.e., 812.5 Mm3/year) is probably the most realistic. Anthropogenic recharge from MAR and transverse structures is likely in the range of 1012.5–1514.8 Mm3/year. This rough figure can help close the hydrological balance at the national and river basin levels and contribute to calibrating regional models. Furthermore, they provide an order of magnitude for anthropogenic recharge at a national scale, which is difficult to obtain. [ABSTRACT FROM AUTHOR]

Published

2023

41. Wastewater reuse through soil aquifer treatment: regulations and guideline for feasibility assessment.

Author

Chakir, Zahira, Lekhlif, Brahim, Sinan, Mohamed, and El Maki, Abdeslam Ait

Subjects

AQUIFERS, GROUNDWATER recharge, SEWAGE, WATER quality, WATER pollution, ENERGY consumption

Abstract

Soil aquifer treatment (SAT) is a managed aquifer recharge technology that involves the utilization of treated wastewater as a source. Widely implemented in countries like Australia, Israel, and Spain, SAT offers technical (flexibility), economic (lower investment cost), and environmental (lower energy consumption) advantages that invite people in other countries to assess its potential. There have been numerous research studies and experiments conducted on the process level of SAT, focusing on how to eliminate pollutants and improve water quality. However, research at the system level is limited, which hampers its widespread application, especially in developing countries. In this paper, I provide a comprehensive guideline that highlights important factors to consider when implementing SAT as a technology. Proper site selection and careful planning steps, including pretreatment, hydrogeological factors, and economic calculations, can significantly improve the performance of an SAT system. The regulatory component acts as a barrier to the expansion of SAT facilities worldwide due to the lack of harmonization in regulations. This study includes the details and results of an examination of the legal framework and establishes comparative guidelines and water quality parameters that must be met by SAT projects utilizing reclaimed water. The maintenance and monitoring of the SAT system are also essential to anticipating and addressing potential issues such as clogging. Lastly, the social aspect, which is of utmost importance, should be carefully considered. It is advisable to ensure transparent communication with end users from the early stages of the project. These key elements are interconnected, and none should be considered less significant than the others. [ABSTRACT FROM AUTHOR]

Published

2023

42. Geospatial Assessment of Managed Aquifer Recharge Potential Sites in Punjab, Pakistan.

Author

Afzal, Muhammad, Liu, Tie, Butt, Asim Qayyum, Nadeem, Adeel Ahmed, Ali, Sikandar, and Pan, Xiaohui

Subjects

*ALLUVIAL plains, *NATURAL resources, *ARTIFICIAL groundwater recharge, *GEOGRAPHIC information systems, *AQUIFERS, *GROUNDWATER recharge, *LANDFORMS, *GROUNDWATER

Abstract

Groundwater is a precious natural resource that is vital to various aspects of life. Punjab is experiencing groundwater stress due to urbanization and population growth, leading to overuse and reduced aquifer recharge. Sustainable groundwater supplies can only be created through better management and artificial recharge techniques. This study uses multi-influencing factor, literature-based, and combined techniques to identify and characterize groundwater-managed aquifer recharge potential sites (GWMARPSs) in Punjab. There are limitations to the previous work in this field, and these factors have not been used to estimate GWRPSs in the study area. The study uses GIS and RS techniques to overlay twelve geo-informative layers, with rainfall being the most significant factor. High-quality data and observations from the field are incorporated into the model. The study classifies the GWMARPSs into five categories, with Punjab having 0.34%, 13.29%, 60.68%, 25.26%, and 0.43% of the least, poorly, moderately, well-, and highly suitable sites. Punjab's southern regions are least suitable for recharge, while some areas in eastern and northern Punjab are well-suited for recharge. Alluvial plains, valleys, low-lying areas, and areas with volcanic landforms are classified as least to poorly suitable zones. Model predictions are validated using piezometric level data and ROC and exhibit good performance (AUC, 0.74). This study could serve as a baseline for future groundwater research. [ABSTRACT FROM AUTHOR]

Published

2023

43. Numerical simulation of a managed aquifer recharge system designed to supply drinking water to the city of Amsterdam, The Netherlands.

Author

Pokhrel, Pranisha, Zhou, Yangxiao, Smits, Frank, Kamps, Pierre, and Olsthoorn, Theo

Subjects

WATER supply, DRINKING water, GROUNDWATER recharge, SYSTEMS design, STEADY-state flow, TERRITORIAL waters, WATER salinization

Abstract

Copyright of Hydrogeology Journal is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

44. Groundwater management in the face of climate change: enhancing groundwater storage in the alluvium aquifer of Wadi Araba, Jordan, through GIS-based managed aquifer recharge and groundwater MODFLOW.

Author

Alelaimat, Ala', Yusoff, Ismail, Nizar, Mohd Khairul, Tham Fatt Ng, and Majali, Yahya A.

Subjects

GROUNDWATER management, CLIMATE change, GROUNDWATER, ALLUVIUM, WATER supply, GROUNDWATER recharge

Abstract

Groundwater is critical in countries such as Jordan, yet demand exceeds availability due to population expansion and arid conditions. The goal of this research is to address water scarcity and adapt to reduced rainfall by investigating the soil aquifer and evaluating the efficiency of managed aquifer recharge (MAR). The Wadi Araba Basin's alluvium aquifer is particularly important and contains a groundwater divide, with water flowing towards the Red Sea to the south and the Dead Sea to the north, as determined by rigorous modelling and scenario analysis. Precipitation infiltration is an important consideration in groundwater budget modelling. This study employs 12 monitoring wells to establish an acceptable relationship between estimated and observed water levels. Furthermore, the study creates a MAR suitability map, which evaluates eight potential MAR locations in the Wadi Araba region. According to forecasted scenarios, implementing MAR in conjunction with increased precipitation recharge has the potential to ameliorate the consequences of decreased rainfall in the model region. The plan aims to raise the water table in three areas by 1.96-3.12%, providing realistic solutions to enhance water availability and adapt to climate change. [ABSTRACT FROM AUTHOR]

Published

2023

45. Integrated management of surface water and groundwater for climate change adaptation using hydrological modeling

Author

Petpongpan, Chanchai, Ekkawatpanit, Chaiwat, H. Gheewala, Shabbir, Visessri, Supattra, Saraphirom, Phayom, Kositgittiwong, Duangrudee, and Kazama, So

Published

2024

46. Integrated Fuzzy AHP-TOPSIS Model for Assessing Managed Aquifer Recharge Potential in a Hot Dry Region: A Case Study of Djibouti at a Country Scale.

Author

Mouhoumed, Rachid Mohamed, Ekmekcioğlu, Ömer, Başakın, Eyyup Ensar, and Özger, Mehmet

Subjects

ANALYTIC hierarchy process, SALTWATER encroachment, TOPSIS method, GROUNDWATER recharge, RAINFALL, SENSITIVITY analysis

Abstract

Given the prevailing arid climate and rapid population growth, groundwater resources face unprecedented challenges globally, including depletion, seawater intrusion, and contamination. Managed aquifer recharge (MAR) technologies have emerged as valuable solutions to address these pressing issues. However, identifying suitable regions for MAR activities is a complex task, particularly at the country level. Therefore, in this study, we propose a robust approach that combines the fuzzy analytical hierarchy process (AHP) and the technique for order of preference by similarity to ideal solution (TOPSIS) to delineate suitable sites for MAR structures. The proposed model was applied to Djibouti, a hot, dry, and water-stressed country. We identified a set of nine decision criteria and conducted a pairwise comparison survey to determine their relative importance. Additionally, the TOPSIS method was employed to integrate the decision layers and prioritize the study area. The results highlight the significance of rainfall, the slope, and the NDVI as the most influential decision parameters, while the drainage density has the least impact. A suitability analysis reveals that 16.38%, 17.96%, and 30.41% of the country have a very high, high, and moderate potential for MAR activities, respectively. Furthermore, a sensitivity analysis demonstrates the stability of the proposed model, affirming the usefulness of the generated suitability map. [ABSTRACT FROM AUTHOR]

Published

2023

47. Proposing civil structures for managed aquifer recharge in relevant sites of Shilabati River: an integrated spatial analysis.

Author

Goswami, Tarun and Ghosal, Somnath

Subjects

ARTIFICIAL groundwater recharge, GROUNDWATER recharge, WATER table, ARID regions, RIVER channels, STREAMFLOW, WATERSHEDS

Abstract

In the semi-arid regions of India, where intensive use and climatic irritancies induced water table depletions have become a serious concern, the artificial recharging of groundwater through managed aquifer recharge can be an effective solution in confronting the deterioration of human well-being. However, in planning the managed aquifer recharge (MAR) system, the suitable recharge structures should always be located specifically in relevant locations (needed and feasible); otherwise, the investments will not have meaning. The present study is one of such attempts to address the ever-increasing groundwater depletion of the semi-arid Shilabati River basin in eastern India by successfully positioning site-specific MAR structures in the river channel. Here, the decisions on positioning convenient structures were taken based on multi-factor analysis aided with optimistic weights and central groundwater board (CGWB) guidelines on MAR in a GIS-integrated Fuzzy-AHP environment. The findings reveal that the mature (middle) stage of the river flow is the most relevant location in terms of the need and feasibility for designing MAR structures. Further, considering the CGWB prerequisites for structure-wise recharge, the study proposed 15 site-specific and convenient civil structures, viz. percolation tanks, check dam/gabion structures and nala bunds for a healthy and sustainable recharge over the relevant locations. These scholarly outcomes will surely help the policymakers as an informative base while planning MAR programme. [ABSTRACT FROM AUTHOR]

Published

2023

48. Assessing the efficacy of river bank filtration around a check dam in a non-perennial river for rural water supply in southern India.

Author

Rajendiran, Anbuchezhian and S, Parimalarenganayaki

Subjects

RIPARIAN areas, TRAVEL time (Traffic engineering), HYDRAULIC conductivity, GROUNDWATER flow, RURAL water supply, DAMS, WATER levels

Abstract

Ideal locations for bank filtration wells were identified by assessing the efficiency of river bank filtration around a check dam in a non-perennial river located in southern India. The methodology of this study includes water sampling and water level measurements from existing wells, analysis of geochemical and biological parameters, pumping tests and borehole drilling. The conservative chloride and water level measurements indicate that production wells can be positioned up to 300 m from the check dam along the groundwater flow direction. It is recommended that if wells are not receiving 50% surface water contribution, then the production wells must be chosen within 110 m. In addition, the effectiveness of a river bank in improving water quality is evaluated by examining its hydraulic conductivity of 20 to 50 m/day (estimated using borehole data and pumping tests) and travel time and analysed water quality parameters. A significant reduction in microbiological load from surface water is evident even with a short travel time of 46 days. Substantial reduction in turbidity and improved geochemical characteristics were observed in wells located within the production zones which are supported by the Schoeller plot. The above results reveal that for the non-perennial river, in order to achieve maximum benefit through bank filtration, the same well cannot be used as a production well. Based on the water level in the check dam, the direction of groundwater flow and the percentage contribution of the river, it is necessary to shift the production well. [ABSTRACT FROM AUTHOR]

Published

2023

49. Feasibility Study of Managed Aquifer Recharge Deployment on the Island of Vis (Croatia).

Author

Patekar, Matko, Soža, Mojca, Pola, Marco, Nakić, Zoran, Bašić, Mihaela, Terzić, Josip, and Borović, Staša

Abstract

Over the last decades, the quality and quantity of the Mediterranean freshwater resources have significantly deteriorated due to climate change, unsustainable utilization, user conflicts, and seawater intrusions. On the small and remote island of Vis, where similar issues prevail, the need for alternative water management solutions has yielded managed aquifer recharge (MAR) as a promising option for increasing the safety and resilience of the local and autonomous water supply. By performing a cost–benefit analysis (CBA) to evaluate the feasibility of the deployment of an infiltration pond method in the Korita well field, the results evidenced a positive financial performance and sustainability of the proposed MAR solution. In addition, the overall economic benefits of the project, quantified through the willingness-to-pay method, significantly exceeded its costs, as evidenced by the high benefit/cost ratio of 2.83. The most significant uncertainty related to the infiltration pond method is represented by the high sensitivity to changes in the applied hydrological assumptions (i.e., the evaporation coefficient and number of annual infiltration pond recharges). This study aims to contribute to the understanding of interrelated socio-economic factors of MAR projects in karst aquifers, and represents the first of its kind in Croatia. [ABSTRACT FROM AUTHOR]

Published

2023

50. Optimizing Managed Aquifer Recharge Locations in California's Central Valley Using an Evolutionary Multi‐Objective Genetic Algorithm Coupled With a Hydrological Simulation Model.

Author

Kourakos, Georgios, Brunetti, Giuseppe, Bigelow, Daniel P., Wallander, Steven, and Dahlke, Helen E.

Subjects

GENETIC algorithms, AQUIFERS, WATER storage, HYDROLOGIC models, WATER table, EVOLUTIONARY algorithms, DIRECT costing, GROUNDWATER recharge

Abstract

Managed aquifer recharge (MAR) can provide long‐term storage of excess surface water for later use. While decades of research have focused on the physical processes of MAR and identifying suitable MAR locations, very little research has been done on how to consider competing factors and tradeoffs in siting MAR facilities. This study proposes the use of a simulation‐optimization (SO) framework to map out a cost‐effectiveness frontier for MAR by combining an evolutionary algorithm with two objective functions that seek to maximize groundwater storage gains while minimizing MAR cost. We present the theoretical framework along with a real‐world application to California's Central Valley. The result of the SO framework is a Pareto front that allows identifying suitable MAR locations for different levels of groundwater storage gain and associated MAR project costs, so stakeholders can evaluate different choices based on cost, benefits, and tradeoffs of MAR sites. Application of the SO framework to the Central Valley shows groundwater can be recharged from high‐magnitude (95th percentile) flows at a marginal cost of $57 to $110 million per km3. If the 10 percent largest flows are recharged the total groundwater storage gain would double and the marginal costs would drop to between $30 and $50 million per km3. If recharge water is sourced from outside local basins (e.g., the Sacramento‐San Joaquin Delta), groundwater storage gain is approximately 25%–80% greater than can be achieved by recharging local flows, but the total cost is about 10%–15% higher because of additional lift cost. Key Points: Combining a simulation‐optimization framework with a groundwater model can identify suitable managed aquifer recharge locationsRecharging water from local rivers within the same basin is the most cost‐efficient managed aquifer recharge approach per unit of groundwater storage gainDiverting more water may not yield the most efficient groundwater storage gain due to higher transportation cost [ABSTRACT FROM AUTHOR]

Published

2023