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1.	Abdullah, Twana, et al. (author) Assessment of groundwater vulnerability to pollution using two different vulnerability models in Halabja-Saidsadiq Basin, Iraq 2020 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 10 Journal article (peer-reviewed)abstract Groundwater aquifer in Halabja-Saidsadiq Basin considered as one of the most important aquifers in terms of water supplying in Kurdistan Region, NE of Iraq. The growing of economics, irrigation and agricultural activities inside the basin makes it of the main essentials to the region. Therefore, pollution of groundwater is of specific worry as groundwater resources are the principal source of water for drinking, agriculture, irrigation and industrial activities. Thus, the best and practical arrangement is to keep the pollution of groundwater through. The current study aims to evaluate of the vulnerability of groundwater aquifers of the study area. Two models were applied, to be specific VLDA and COP to develop maps of groundwater vulnerability for contamination. The VLDA model classified the area into four classes of vulnerability: low, moderate, high and very high with coverage area of (2%,44%,53% and 1%), respectively. While four vulnerability classes were accomplished dependent on COP model including very low, low, moderate and high vulnerability classes with coverage areas of (1%, 37%, 2% and 60%) respectively. To confirm the suitability of each map for assessment of groundwater vulnerability in the area, it required to be validated of the theoretical sympathetic of current hydrogeological conditions. In this study, groundwater age evaluated utilizing tritium isotopes investigation and applied it to validate the vulnerability results. Based on this validation, the outcome exhibits that the vulnerability classes acquired utilizing VLDA model are more predictable contrasted with the COP model.
2.	Abdulrazzaq, Zaidoon Taha, et al. (author) Estimation of main aquifer parameters using geoelectric measurements to select the suitable wells locations in Bahr Al-Najaf depression, Iraq 2020 In: Groundwater for Sustainable Development. - Holland : Elsevier. - 2352-801X. ; 11 Journal article (peer-reviewed)abstract The aquifer parameters like hydraulic conductivity and transmissivity are extremely important for the management and development of groundwater resources. Vertical Electrical Sounding (VES) and 2D Electrical Resistivity Imaging (ERI) techniques were adopted for geophysical investigation in Fadaq plantation area within Bahr Al-Najaf depression, Iraq. A total of 22 VES point distributed as a grid along six profiles in the plantation with half-current electrode spacing (AB/2) is 400 m are used to evaluate the aquifer geoelectric and hydraulic parameters, where six 2D ERI profiles were conducted and concatenated as one 2D ERI profile with a total length of 4525 m to verify the results of VES. The average formation factor of the aquifer is 22.33 with porosity and water saturation average of 22.62% and 0.59% respectively. Geoelectric and hydraulic parameters estimated values are; apparent resistivity 2.17–2.92 Ω, formation factor 6.23–31.18, porosity 17.91–40.06%, water saturation 0.18–0.85, longitudinal conductance 1.60–10.06 Ω-1, transverse resistance 3258–27200 Ωm2, hydraulic conductivity 0.62–0.68 m2/day and transmissivity 70.68–198.05 m2/day. The thickness and bulk resistivity vary between 112 and 320 m and 18–85 Ωm respectively. About 26% of the aquifer in the study area has an intermediate designation, while 73.91% of the aquifer has high designation. There is a linear relationship between transmissivity and water saturation. Based on designation, protective capacity, and groundwater supply potential VES 6C, VES 7A, VES 4C and VES 2E were recommended for new drilling sites.
3.	Abiye, T. A., et al. (author) Arsenic concentration in groundwater : Archetypal study from South Africa 2019 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 9 Journal article (peer-reviewed)abstract South Africa does not have significant surface water resources, which is often easily affected by unpredictable and rapidly changing climatic variables, due to its location in the arid and semi-arid climatic setting. In large part of the country, groundwater from weathered and fractured crystalline rocks plays pivotal role in sustaining the livelihood, often it contains toxic metals released from the host rocks. The host rocks that are responsible for arsenic release in groundwater are primarily enriched due to metamorphism and igneous processes that resulted in the enrichment of economic minerals. Preliminary assessment indicates that the main arsenic containing minerals are arsenopyrite (FeAsS), arsenical oxide, sulpharsenide, arsenopyritical reefs, leucopyrite, löllingite (FeAs2) and scorodite (FeAsO4·2H2O). Owing to the release of arsenic from highly mineralized rocks that constitute the aquifers, arsenic concentration in the groundwater reaches up to 253 μg/L (Namaqualand), 6150 μg/L (west of Johannesburg), about 500 μg/L in the Karoo aquifers, considerably higher than the WHO guideline value of 10 μg/L. Acid mine drainage from coal and gold mining is also found to be an important source of arsenic and other toxic metals in groundwater.
4.	Abu-Khader, M. M., et al. (author) Radon in the groundwater in the Amman-Zarqa Basin and related environments in Jordan 2018 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 7, s. 73-81 Journal article (peer-reviewed)abstract The occurrence of radon (222Rn) in environment (groundwater and indoor air) from geogenic sources is receiving an growing attention due to its adverse impact on human health worldwide including Jordan. Highlighting the current status of radon in Jordan, the present study of radon concentrations in ground waters in the Amman-Zarqa basin (AZB) was investigated. Groundwater samples were collected from fifteen wells located in three main areas of Ras Al-Ain, Al-Rsaifeh and Al-Hashemite. Radon concentration was measure using Liquid scintillation counting (LSC) Tri- Carb 3110 with discriminator and the highest values for radon concentration in water were observed in Al-Rsaifeh area and ranged from 4.52 up to 30.70 Bq/l with an average of 11.22 Bq/l, which were attributed to the decay of naturally distributed uranium in phosphate rock from Al-Rsaifeh mines. In Ras Al-Ain area, the radon concentration were noted ranged from 0.6 to 5.55 Bq/l with an average of 2.82 Bq/l, and also in Al-Hashemite area were ranged from 0.77 to 5.37 Bq/l with an average of 4.04 Bq/l. The overall average concentration of tested samples was 5.77 Bq/l and found within the acceptable international levels. Ground water samples of Ras Al-Ain area showed good quality as was tested of low salinity. It recorded the lowest average radon concentration of 2.82 Bq/l. Also, Radon indoor and building materials was reviewed. In conclusion, this study presented an urged need for developing national regulations and standards as well as awareness program concerning the radon status in Jordan.Elsevier B.V.
5.	Ahmad, Arslan, et al. (author) Environmental arsenic in a changing world 2019 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 8, s. 169-171 Journal article (peer-reviewed)
6.	Ahmad, Arslan, et al. (author) Global Groundwater : Source, Scarcity, Security and Solutions 2021 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 15 Review (other academic/artistic)
7.	Al-Bahrani, Hussein Shakir, et al. (author) Groundwater detection and classification using remote sensing and GIS in Najaf, Iraq 2022 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 19 Journal article (peer-reviewed)abstract Due to the shortage of fresh surface water caused by climate change, groundwater has become a vital water supply for household, agricultural, and industrial use. Alternative methods for determining groundwater depth, amount, and quality at a lower cost and less effort are critical. This study aims to determine the depth and kind of groundwater in Najaf City, Iraq, using Aqua detector remote sensing device. Thirty-nine sample locations were chosen in rural and urban regions to cover the city’s 441.23 square kilometres. Five geographic models of groundwater depth and type were created using the Inverse Distance Weighting (IDW) interpolation method in ArcGIS software. The results indicate that groundwater is available across the study region, beginning at 100â€¯m and lower depths. Additionally, it has been found that the nature of groundwater fluctuates with the location and depth. The findings of this study aid in selecting wells locations and depths in the study region that generate maximum quality and quantity of groundwater.
8.	Al-Madhlom, Qais, et al. (author) Potential use of UTES in Babylon Governorate, Iraq 2020 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 10 Journal article (peer-reviewed)abstract There is a global attention that the future energy systems will be based on renewable energy like solar and wind. The large-scale utilization of renewables in space heating and cooling requires large Thermal Energy Storage TES to overcome the varying supply and demand. The process of producing the best Underground Thermal Energy Storage UTES system pass through two steps: first, finding the best type of UTES system, second, finding the best locations to install UTES system. Both of these two steps depend extremely on the site specific parameters such that the depth to the groundwater, transmissivity, type of soil, the depth to the bedrock, and seepage velocity. The purpose of this paper is to explain some of the site specific parameters that the type of UTES-system depends on and explain the suitable type of UTES systems. This study considers Babylon province (Iraq) as study area. This province has electricity deficiency due to Heating Ventilating and Air Conditioning HVAC applications. The methodology of this study includes reviewing the literature that consider the study area, and using Arc Map/GIS to visualize some of the in-site parameters. The results indicate that the best type of UTES system for the considered region is either aquifer or pit type, due to the type of the soil and the depth to the crystalline bedrock. The hydraulic conductivity and the seepage velocity in the considered region are (0.0023–2.5) m/d and (1.3 × 10−6 – 3.45 × 10−3) m/d respectively. These conditions satisfy the standards which regard aquifer type.
9.	Ali, S., et al. (author) Concentration of fluoride in groundwater of India : A systematic review, meta-analysis and risk assessment 2019 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 9 Research review (peer-reviewed)abstract It is a well-known fact that the Indian groundwater is polluted by fluoride. However, for the first time in India, non-carcinogenic risk assessments and meta-analysis of fluoride exposure to humans were carried out due to consumption of groundwater. In this context, we collected fluoride concentration data in groundwater across India by systematic searches conducted in various international search engines databases. Here, we demonstrated a detailed meta-analysis and meta-regression of fluoride and evaluated health risk assessment. For this purpose, meta-analysis of 63 studies on fluoride in groundwater in India, comprising 57381 samples are included. We found that 1.) The pooled concentration of fluoride in India is around 2.37 mg/L with 95% confident interval (1.46–3.28 mg/L) which is higher than WHO and national standards limit of 1.5 mg/L. 2) The meta-analysis of data suggests that in rural parts of the country, fluoride concentration is 1.85 times higher than urban areas. 3) The concentration of fluoride in groundwater decreased significantly (p < 0.05) with increase in rainfall and longitude. The risk assessment via oral and dermal route exposure reveals that the consumers in majority of the regions are at considerable non-carcinogenic risk and children are at higher risk than adults (Total hazard quotient > 1). The findings are helpful in identifying the affected areas of India and we recommend that the safer options of drinking water should be adopted.
10.	Ali, S., et al. (author) Elevated fluoride in groundwater of Siwani Block, Western Haryana, India : A potential concern for sustainable water supplies for drinking and irrigation 2018 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 7, s. 410-420 Journal article (peer-reviewed)abstract Groundwater pollution is a serious health concern in north-western India. In this study, we have reported very high concentration of fluoride i.e. 18.5 and 16.6 mg/l from Sainiwas locality in Siwani block of Bhiwani district, Haryana, India. The values are much higher than the permissible limit set by WHO and BIS. The evapotranspiration in the area leads to Ca2+ precipitation, which allows an increase in F- content in the groundwater. In addition, the replacement of hydroxyl of secondary clay mineral under alkaline condition is responsible for release of F-. In absence of alternative source, the fluoride polluted groundwater in some of these localities is also used for drinking. Further, the suitability of groundwater for irrigation is also evaluated by various parameters such as Sodium Adsorption Ratio (SAR), Sodium Percentage (Na%), Kelly's Ratio (KR), Magnesium Hazard (MH) and Residual Sodium Carbonate (RSC). It emerges out that in a few localities, groundwater is not suitable for irrigation and with respect to Magnesium Hazard (MH) almost all samples are unsuitable for irrigation. This article highlights groundwater quality of Siwani block in Haryana and proposes for immediate remedial measures.
11.	Amiri, V., et al. (author) The hydrogeochemical evaluation of groundwater resources and their suitability for agricultural and industrial uses in an arid area of Iran 2021 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 12 Journal article (peer-reviewed)abstract The hydrogeochemical and quality status of groundwater resources in Yazd province, the central plateau of Iran, has been investigated. The most common water type, followed by chemical facies in this study area, is Cl type (with 50.46%) and Na–Cl facies (47.71%), respectively. Besides, the most samples with industrial and agricultural uses show the Cl type and Na–Cl hydrochemical facies. The position of samples on the Gibbs and van Wirdum diagrams indicate that the water-rock interaction and dissolution of evaporites are the main controlling process of water chemistry. Distribution of samples based on Na/Cl vs. EC, Ca + Mg vs. SO4 + HCO3, and Na–Cl vs. Ca + Mg–SO4–HCO3 highlight the significant role of direct ion exchange in water chemistry change. The water quality for agricultural use is assessed based on some indices including EC, Na%, sodium absorption ratio (SAR), residual sodium carbonate (RSC), magnesium absorption ratio (MAR), permeability index (PI), Kelly's ratio (KR), and Wilcox diagram. In general, the water quality for irrigation purposes is mainly excellent to permissible. The water quality assessment for industrial purposes is performed using some indices including Langelier Saturation Index (LSI), Ryznar Stability Index (RSI), Larson-Skold Index (L-SI), Puckorious scaling index (PSI), and total hardness (TH). Based on these indices, most groundwater samples have mild to high potential to corrode the equipment and pipelines.
12.	Annaduzzaman, Md, et al. (author) Arsenic and manganese in shallow tubewells : validation of platform color as a screening tool in Bangladesh 2018 In: Groundwater for Sustainable Development. - : Elsevier B.V.. - 2352-801X. ; 6, s. 181-188 Journal article (peer-reviewed)abstract This study aimed to evaluate the potential of handpump tubewell platform color as a low-cost, quick and convenient screening tool for As and Mn in drinking water tubewells. For this study, groundwater samples and corresponding tubewell platform pictures were collected from 272 shallow tubewells in Matlab Upazila of South-Eastern Bangladesh. The result shows that arsenic concentration within the surveyed (n = 272) tubewells, 99% (n = 269) exceeded the World Health Organization (WHO) guideline value of 10 µg/L, and 98% (n = 267) exceeded the Bangladesh drinking water standards (BDWS) of 50 µg/L. In relation to the platform color concept, within 233 (total 272) red colored platform tubewells, 230 (99%) exceeded the WHO guideline value of 10 µg/L, and 229 (98%) tubewells exceeded BDWS of 50 µg/L. This result shows a strong correlation between the development of red color stain on tubewell platform and As concentrations in the corresponding tubewell water. This study suggests that red-colored platform can be used for primary identification of tubewells with an elevated level of As and thus could prioritize sustainable As mitigation management in developing countries where water comes from reductive shallow aquifers. This study did not confirm the potential for Mn screening, as red discoloration by Fe oxides was found to mask the black discoloration of Mn oxides. It is recommended to further investigate this screening tool in regions with a higher well-to-well variability of As contaminations, as in the presented study As was found >10ug/L in 99% of the tubewells.
13.	Bhatnagar, Shailesh, et al. (author) Delineation of aquifers favorable for groundwater development using Schlumberger configuration resistivity survey techniques in Rajouri district of Jammu and Kashmir, India 2022 In: GROUNDWATER FOR SUSTAINABLE DEVELOPMENT. - : Elsevier BV. - 2352-801X. ; 17 Journal article (peer-reviewed)abstract The primary goal of this research is to demarcate aquifers favorable for groundwater development in the border district of Rajouri, in the Union Territory of Jammu, and Kashmir, in order to secure a long-term water supply. The Schlumberger configuration resistivity survey technique Vertical Electrical Sounding (VES) is used to investigate the characteristics of the subsurface layer and the potential of groundwater by using 30 VES sites in order to establish the optimum sites for digging a successful borehole for the qualitative and quantitative in-terpretations in the study area. It is determined that real resistivity values of subsurface geoelectric layers less than 35 Ohm m indicate the existence of finer sediments, whilst moderate resistivity values ranging from 35 to 100 Ohm m suggest the presence of coarser sediments favorable for groundwater development. The resistivity value between 100 and 200 Ohm m indicates weathered formation, 200-400 Ohm m, indicates fractured rock and more than 400 Ohm m represents hard formation which is devoid of any kind of groundwater development. The bedrock resistivity, nature of the curve, and overburden thickness are the parameters utilized to choose a good site for drilling tests. Based on the criteria, it was determined that nine VES sites (VES-2, VES-3, VES-4, VES -6, VES-17, VES-18, VES-19, VES-28, and VES-30) are appropriate for the installation of a tube well for irrigation and domestic purposes. The 8 sites (VES-14, VES-15, VES-20, VES-21, VES-22, VES-23, VES-24, and VES-27) were not suitable because of compact formation and harder rocks whereas the 13 VES sites (VES-1, VES-5, VES-7, VES-8, VES-9, VES-10, VES-11, VES-12, VES-13, VES-16, VES-25, VES-26, VES-29) are partially suitable for groundwater development and only suitable for personal uses such as hand pump of shallow depth.
14.	Bhattacharjee, S., et al. (author) Groundwater governance in Bangladesh : Established practices and recent trends 2019 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 8, s. 69-81 Journal article (peer-reviewed)abstract Legal framework is very crucial to protect the vital resources, to provide rights to public and administration, to support national policy and to bring technological intervention to ensure equitable distribution, fair management, and effective decision making. In Bangladesh, groundwater is not directly priced (other than pumping costs), perhaps such issue is not surprising that users do not meter the volumes of water usage. Beside the industry, agricultural sector is by far the biggest groundwater consumer of this country, contributing significant amount of annual meter drop in the groundwater table to the annual decline of groundwater table. Additionally, the groundwater resources are severely affected by, pollution, encroachment and overexploitation. National Water Policy (1999) and Bangladesh Water Act (2013) are considered as country's pivotal legal framework but both of these lag behind to provide effective guidelines on permission, extraction limit, monitoring, protection of quality, water harvesting procedure, and recharge mechanism. Existing institutions suffer from consistent crisis, politics, corruption, absence of public participation and coordination of other institutions, mismanagement, and empirical assessment. This study evaluates the existing water related policies and functions of multidimensional institutions, and discusses the key challenges of effective groundwater management. The present paper also provides an overview of established practices around the world to cope with the common challenges.
15.	Bhattacharya, Prosun, et al. (author) Groundwater for sustainable development - cross cutting the UN sustainable development goals 2015 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 1:1-2, s. 155-157 Journal article (peer-reviewed)
16.	Borah, Sandhya B.D., et al. (author) Heavy metal ion sensing in water using surface plasmon resonance of metallic nanostructures 2015 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 1:1-2, s. 1-11 Journal article (peer-reviewed)abstract Heavy metal contamination in water and other ecosystems is one of the major environmental issues and already gaining significant attention across the world. For monitoring heavy metals in the environmental ecosystem, optical sensors are getting popular due to their high sensitivity and ease of use. Application of nanomaterials in the sensor elements further improves the sensitivity due to their large surface-to-volume ration, high reactivity, high degree of functionalization and size-dependent properties. This article mainly reviews the application of various metallic nanostructures for heavy metal ion sensing based on surface plasmon resonance (SPR). SPR sensors are widely applied in real time monitoring of heavy metals, chemical and biological analytes etc., because of their ability to efficiently detect and quantify these contaminants even at much diluted conditions (ng/L levels). In this article, SPR sensors fabricated with several metallic nanostructures, such as gold and silver, and their shape and size effects on sensor performance for heavy metal ion detection is discussed. Techniques used to improve the performance of such SPR sensors are also reviewed briefly.
17.	Hasan, Mohammad Nayeem, et al. (author) Insight into vaccination and meteorological factors on daily COVID-19 cases and mortality in Bangladesh 2023 In: GROUNDWATER FOR SUSTAINABLE DEVELOPMENT. - : Elsevier BV. - 2352-801X. ; 21, s. 100932- Journal article (peer-reviewed)abstract The ongoing COVID-19 contagious disease caused by SARS-CoV-2 has disrupted global public health, businesses, and economies due to widespread infection, with 676.41 million confirmed cases and 6.77 million deaths in 231 countries as of February 07, 2023. To control the rapid spread of SARS-CoV-2, it is crucial to determine the potential determinants such as meteorological factors and their roles. This study examines how COVID-19 cases and deaths changed over time while assessing meteorological characteristics that could impact these disparities from the onset of the pandemic. We used data spanning two years across all eight administrative divisions, this is the first of its kind--showing a connection between meteorological conditions, vaccination, and COVID-19 in-cidences in Bangladesh. We further employed several techniques including Simple Exponential Smoothing (SES), Auto-Regressive Integrated Moving Average (ARIMA), Auto-Regressive Integrated Moving Average with explanatory variables (ARIMAX), and Automatic forecasting time-series model (Prophet). We further analyzed the effects of COVID-19 vaccination on daily cases and deaths. Data on COVID-19 cases collected include eight administrative divisions of Bangladesh spanning March 8, 2020, to January 31, 2023, from available online servers. The meteorological data include rainfall (mm), relative humidity (%), average temperature (degrees C), surface pressure (kPa), dew point (degrees C), and maximum wind speed (m/s). The observed wind speed and surface pressure show a significant negative impact on COVID-19 cases (-0.89, 95% confidence interval (CI): 1.62 to-0.21) and (-1.31, 95%CI: 2.32 to-0.29), respectively. Similarly, the observed wind speed and surface pressure show a significant negative impact on COVID-19 deaths (-0.87, 95% CI: 1.54 to-0.21) and (-3.11, 95%CI: 4.44 to-1.25), respectively. The impact of meteorological factors is almost similar when vaccination information is included in the model. However, the impact of vaccination in both cases and deaths model is significantly negative (for cases: 1.19, 95%CI: 2.35 to-0.38 and for deaths: 1.55, 95%CI: 2.88 to-0.43). Accordingly, vaccination effectively reduces the number of new COVID-19 cases and fatalities in Bangladesh. Thus, these results could assist future researchers and policymakers in the assessment of pandemics, by making thorough efforts that account for COVID-19 vaccinations and meteorological conditions.
18.	Hossain, Mohammed, 1960-, et al. (author) A potential source of low-manganese, arsenic-safe drinking water from Intermediate Deep Aquifers (IDA), Bangladesh 2023 In: GROUNDWATER FOR SUSTAINABLE DEVELOPMENT. - : Elsevier BV. - 2352-801X. ; 21 Journal article (peer-reviewed)abstract Elevated manganese (Mn) concentration in many drinking water tubewells in Bangladesh has made access to safe drinking water more critical despite providing arsenic (As) safe water to millions of people after decades of efforts to achieve latter. This study evaluates the potential of the Intermediate Deep Aquifer (IDA) in the Matlab area of Bangladesh as a source of As-safe and low-Mn groundwater. Based on observations from depth-specific piezometer nests, drinking water tubewells were installed at a targeted depth of 120 m in the Matlab region, an As-hot spot in the country. Water chemistry analysis of 243 Intermediate Deep Tubewells (IDTW) provided promising results which support the strategy of exploiting the IDA as a safe source for drinking water tubewells. Arsenic, manganese and other trace elements, along with the major ions, were analyzed by high-precision ICP-OES and ion chromatography. The Bangladesh drinking water standard for As (50 mu g/L) was exceeded only in 3 wells (1%) while 99% (n = 240) of the wells were found to be safe. More than 91% (n = 222) were within the WHO guideline value of 10 mu g/L. For Mn, 89% (n = 217) of the wells showed the concentration within or below the former WHO guideline value of 0.4 mg/L with a mean and median value of 0.18 and 0.07 mg/L respectively. Similar high permeability sand units at this depth range, if available could be targeted by the local tubewell drillers for tapping water at half the cost of deep tubewell installation, which will be quite encouraging for the local community, considering their affordability for installation of As-safe and low-Mn drinking water tubewells. This study's results could also be important for other relevant stakeholders, including the policy makers, implementing agencies and the water sector development partners, as well as water supply projects elsewhere in the world with similar hydrogeological settings.
19.	Ijumulana, Julian, et al. (author) Spatial uncertainties in fluoride levels and health risks in endemic fluorotic regions of northern Tanzania 2021 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 14 Journal article (peer-reviewed)abstract Spatial uncertainty caused by large-scale variation in fluoride (F-) occurrence remains a setback for water supply authorities in the F- belts of the world. It is estimated that approximately 80 million people in the East African Rift Valley (EARV) regions and volcanic areas exhibit a wide variety of fluorosis symptoms due to drinking water with F- concentrations higher than 1.5 mg/L (WHO guideline limit). In this study, we combined geostatistical techniques, spatial statistical methods, and geographical information systems (GIS) to (i) map the probable places with F- < 0.5 mg/L and F- > 1.5, 4.0 and 10.0 mg/L using probability kriging (PK) method, (ii) estimate the probable total population at high or low F- risk levels using univariate local Moran's I statistic, and (iii) map the spatial distribution of population at high and low F- risk levels in Manyara, Arusha and Kilimanjaro regions using GIS. It was predicted that places along the major and minor EARV mountain ranges and around the flanks of major stratovolcanoes were dominated by groundwater sources with extremely low F-(<<0.5 mg/L). In contrast, places within EARV graben were dominated by groundwater sources with F- > 1.5 mg/L. About 1 million people (similar to 20% of the total population) living around Mt. Kilimanjaro in Rombo, Moshi, and Mwanga districts are at high dental caries risk. Furthermore, it was estimated that about 2 million people (similar to 41% of the total population) in Siha, Hai, Arusha City, Hanang', Arusha, Simanjiro, and Meru districts are at high risk of dental, skeletal, and crippling fluorosis. Fluorosis, especially dental and crippling fluorosis, is an increasing disease burden at the community level due to prolonged consumption of F- contaminated water within EARV graben. The major findings of the present study are very crucial for authority to minimize the uncertainty caused by high spatial variability in geogenic F- occurrence.
20.	Irunde, Regina, et al. (author) Arsenic in Africa : Potential sources, spatial variability, and the state of the art for arsenic removal using locally available materials 2022 In: GROUNDWATER FOR SUSTAINABLE DEVELOPMENT. - : Elsevier BV. - 2352-801X. ; 18, s. 100746- Journal article (peer-reviewed)abstract In the past two decades, several studies on arsenic (As) occurrence in the environment, particularly in surface and groundwater systems have reported high levels of As in some African countries. Arsenic concentrations up to 10,000 mu g/L have been reported in surface water systems, caused by human activities such as mining, industrial effluents, and municipal solid waste disposals. Similarly, concentrations up to 1760 mu g/L have been reported in many groundwater systems which account for approximately 60% of drinking water demand in rural Africa. Naturally, As is mobilized in groundwater systems through weathering processes and dissolution of As bearing minerals such as sulfides (pyrite, arsenopyrite, and chalcopyrite), iron oxides, other mineralized granitic and gneissic rocks, and climate change factors triggering As release in groundwater. Recently, public health studies in some African countries such as Tanzania and Ethiopia have reported high levels of As in human tissues such as toenails as well as in urine among pregnant women exposed to As contaminated groundwater, respectively. In urine, concentrations up to 150 mu g/L were reported among pregnant women depending on As contaminated drinking water within Geita gold mining areas in the north-western part of Tanzania. However, the studies on As occurrence, and mobilization in African water systems, as well as related health effects are limited, due to the lack of awareness. The current study aims to gather information on the occurrence of As in different environmental compartments, its spatial variability, public health problems and the potential remediation options of As in water sources. The study also aims at creating awareness of As contamination in Africa and its removal using locally available materials.
21.	Jakariya, Md, et al. (author) Changing water sources and extraction methods in Bangladesh: Challenges, consequences, and sustainable solutions 2024 In: Groundwater for Sustainable Development. - : Elsevier B.V.. - 2352-801X. ; 25 Journal article (peer-reviewed)abstract The quest for safe water in Bangladesh has resulted in the shift of water sources and extraction methods throughout history. The study aims to investigate the factors driving these changes, assess the consequences of current water consumption trends, and propose solutions for sustainable water management. The research highlights the historical shift from surface water to tube-wells for accessing groundwater, driven by their affordability and user-friendly nature. However, the discovery of arsenic contamination in tube-well water raised serious public health concerns, leading to the exploration of alternative water sources and extraction techniques. Various methods such as dug wells, pond sand filters, piped water supply, rainwater harvesting, and well-sharing have been adopted by communities and indigenous groups to ensure access to safe and clean water. The study reveals disparities in the installation of deep tube-wells by the government and NGOs, often overlooking safer water sources available at shallower depths. Furthermore, the study discusses the consequences of high-yielding technologies and increased water consumption in Sonargaon Upazila, leading to groundwater-related disasters and a decline in the groundwater table. Private irrigation facilities have become more popular among people, contributing to the declining groundwater table. This study provides insights into the changing water sources and extraction methods in Bangladesh, identifies the consequences of current water consumption trends, and proposes strategies for sustainable water management. The findings underline the importance of informed decision-making, government intervention, and community involvement to address the challenges of groundwater depletion and contamination in the region.
22.	Jakariya, Md., et al. (author) Developing a safe water atlas for sustainable drinking water supply in Sonargaon Upazila, Bangladesh 2024 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 25 Journal article (peer-reviewed)abstract access to safe drinking water has always been a challenge for Bangladesh due to the geogenic contamination in shallow aquifers. The objective of this study was to identify the depth for extracting safe water and to develop a developed to validate the indigenous knowledge of targeting safe depth based on sediment color. To address the preparing safe water atlas for a specific region in Bangladesh, serving as a decision-making tool for households. The atlas identifies depths at which tube-wells can be installed to obtain uncontaminated groundwater, helping people make informed choices and avoid potential health risks. Additionally, the safe water atlas can support the
23.	Kareem, Sabreen L., et al. (author) Water quality assessment and phosphorus effect using water quality indices : Euphrates River- Iraq as a case study 2021 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 14 Journal article (peer-reviewed)abstract Most rivers in developing countries are facing water contamination problem. Therefore, saving water quality by complying with the industrial, drinking, and agricultural allowable standard limits has been difficult. This study aims to assess Shatt Al-Kufa water quality as one branch of the Euphrates River by calculating three types of water quality indices in two cases, excluding and including the phosphate (PO4) consentration, as it was the parameter that most met the standard. The used water quality indices are the Weight Arithmetic Water Quality Index (WAWQI), the Canadian Council of Ministers of the Environment Water Quality Index (CCMEWQI) and the Oregon Water Quality Index (OWQI). Fifteen parameters were analyzed, including pH value, Biological Oxygen Demand, Turbidity, Total Hardness, Orthophosphate, Sulphate, Nitrate, Alkalinity, Potassium, Sodium, Magnesium, Chloride, Dissolved Oxygen, Calcium and Total Dissolved Solids. The results show that the average WAWQI for three stations, including PO4, were 33.79, 43.75 and 37.62, which is good water. However, in excluding PO4, the water quality was characterized as very poor depending on the resulting values (86.62, 88.86 and 91.91, respectively). The CCMEWQI values for three stations were 63.83, 60.40 and 55.69, including PO4, so the water quality was fair and marginal. According to OWQI, the water quality for three stations was very poor in two cases since the OWQI value less than 59. Pearson correlation shows a good link, especially total hardness and total dissolved solids with salt.
24.	Khursheed, A., et al. (author) Future liasing of the lockdown during COVID-19 pandemic : The dawn is expected at hand from the darkest hour 2020 In: Groundwater for Sustainable Development. - : Elsevier B.V.. - 2352-801X. ; 11 Journal article (peer-reviewed)abstract The lockdown during COVID-19 pandemic has converted the world into new experimental laboratories, which may reveal temporal or spatial comparative analysis data. However, some startling information is gathered in terms of reduced premature mortality cases associated with air and water quality improvement, enhanced e-learning on a broader platform, work from home, and successful e-health. The decline in vehicular density on roads and congestion leads to reduced energy consumption and associated greenhouse gases (GHG) and other pollutants emission. The lockdown has also been identified as a possible emergency measure to combat severe air pollution episodes. Similarly, industrial pollution has been recognized as one of the primary causes of water resource pollution and would, therefore, bring change in policy vis-à-vis groundwater pollution control. Our findings suggest that the results of successful e-learning and work from home would be a permanent shift from conventional modes in the near future due to a drastic reduction in socio-economic cost. Our critical analysis also highlights that with such temporary lockdown measures acute/chronic ill-effects of anthropogenic perturbations on planet earth can be effectively estimated through sociocultural, socioeconomical and socio-political/sociotechnological nexus.
25.	Kimambo, Vivian, et al. (author) Fluoride occurrence in groundwater systems at global scale and status of defluoridation – State of the art 2019 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 9 Research review (peer-reviewed)abstract Occurrence of elevated concentrations of fluoride in the drinking water supply in many regions of the world has caused widespread dental and skeletal fluorosis. In this paper the studies available on the routes of fluoride exposure, regions with excess fluoride in water sources and various defluoridation techniques has been reviewed. It is evident from the literature survey that no single technique fits for diverse technical and socioeconomic situations and there is a pressing need to develop suitable defluoridation techniques for household and community level water supply system in order to prevent fluorosis.
26.	Kimambo, Vivian, et al. (author) Optimization of fluoride removal using calcined bauxite : Adsorption isotherms and kinetics 2023 In: GROUNDWATER FOR SUSTAINABLE DEVELOPMENT. - : Elsevier BV. - 2352-801X. ; 21, s. 100922- Journal article (peer-reviewed)abstract Geogenic contamination of groundwater due to elevated fluoride (F-) concentrations is a significant issue worldwide (including in Tanzania). The present study focussed to assess the adsorption capacity of thermally treated (calcined) bauxite to remove the F- from contaminated water. Characterization of bauxite by X-ray fluorescence spectroscopy (XRF) revealed Al2O3, Fe2O3, and SiO2 as the major oxides in both raw and calcined bauxite. The major mineral phase in the raw bauxite was gibbsite, which disappeared after calcination. The optimum calcination temperature, dosage and contact time for F- removal by calcined bauxite were 400 degrees C, 40 g/L and 8 min, respectively. The experimental data revealed Freundlich isotherm as the best model to fit the F -adsorption process with kF and 1/n being 0.1537 mg/g and 0.8607, respectively. The pseudo-second-order ki-netic and intra-particle diffusion models explained well the F- adsorption process with the rate constants of 115.43 g/mg min and 0.0025 mg/g min0.5, respectively. The values of Delta G, Delta H and Delta S indicate the F- adsorption on bauxite surface indicated that the adsorption process was spontaneous, endothermic and structural changes occurred during the adsorption process. The F- adsorption under optimum conditions lowered the pH and F -concentration to WHO and Tanzania Bureau of Standards (TBS) standards.
27.	Kishor, Kamal, et al. (author) Sources, spatio-temporal distribution and depth variations in groundwater salinity of the semi-arid Rohtak district, Haryana, India 2022 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 18, s. 100790- Journal article (peer-reviewed)abstract Groundwater salinity was evaluated in the Rohtak district of the state of Haryana in northwestern India. The groundwater samples were collected from 82 villages of the district. Both post-monsoon and pre-monsoon samplings were carried out for two consecutive years (2017-2019). A total of 620 samples in the four seasons (155 in each season) were collected under strict QAs and QCs from APHA. The co-existing hydro-chemical parameters of salinity, total dissolved solids (TDS) and electrical conductivity (EC) were determined. ArcGIS 10.5 was used for spatiotemporal distribution evaluation. Groundwater salinity values between 0.20 and 8.00 parts per thousand (ppt) were obtained. Hand pump water is more saline (0.3-7.5 ppt) than bore-well (0.2-1.8 ppt) and dug-well water (0.6-1.3 ppt), thus limiting the options for viable water sources. Higher groundwater salinity in the post-monsoon season as compared to pre-monsoon season was observed. Groundwater salinity in the Rohtak district decreases in the order: Lakhan-Majra < Meham < Rohtak < Sampla < Kalanaur. Safer groundwater salinity levels were found in deep bore wells (>20 m) versus shallow bore wells (<20 m). Thus, this study evaluates the spatio-temporal and depth variations in groundwater salinity of Rohtak district. Possible remedial measures for salinity problems are proposed.
28.	Krishan, Gopal, et al. (author) Occurrences of potentially toxic trace metals in groundwater of the state of Punjab in northern India 2021 In: GROUNDWATER FOR SUSTAINABLE DEVELOPMENT. - : Elsevier BV. - 2352-801X. ; 15 Journal article (peer-reviewed)abstract In present study, a total of 275 representative water samples (263 groundwater, 8 canal water, 2 samples from Sutlej River and 2 samples from Buddha Nala) were collected and analysed. The sampling was carried out in the month of August, September, and October of 2019. These samples were analysed for the Arsenic (As-total), Aluminium (Al), Iron (Fe), Manganese (Mn), Zinc (Zn), Copper (Cu), Chromium (Cr), Cadmium (Cd), Nickel (Ni), and Lead (Pb). The result found that 3.8 % of the analysed groundwater samples have As concentrations above acceptable limit (10 mu g/L) and similar to 0.38 % samples exceeded the permissible limit of 50 mu g/L. Iron concentration exceeded the acceptable limit of 0.3 mg/L for drinking water in similar to 14.83 % groundwater samples. The mean concentration of iron was found 252 mu g/L and 3810 mu g/L for groundwater and canal water, respectively. It was observed that some samples have concentrations more than acceptable limits in the cities of Ludhiana, SBS Nagar, Rupnagar, SAS Nagar districts and in parts of Mansa, Amristar and Gurdaspur districts of the state of Punjab. Iron was found exceeding the permissible limit in the villages like, Moran wara (Firozepur), Churian (Firozepur), Manewal (Ludhiana), PandKhokhan (Muktsar) and Pakki Kalan (Faridkot).
29.	Kumar, M., et al. (author) Contaminant transport and fate in freshwater systems – Integrating the fields of geochemistry, geomorphology and nanotechnology 2018 In: Groundwater for Sustainable Development. - : Elsevier B.V.. - 2352-801X. ; 7, s. 336-342 Journal article (peer-reviewed)abstract This special issue of the Groundwater for Sustainable Development “Contaminant Transport and Fate in Freshwater Systems – Integrating the fields of geochemistry, geomorphology and nanotechnology” provides an update of the current knowledge on the sources, pathways, and movement of anthropogenic and geogenic contaminants in the environment, the holistic interactions between biotic and abiotic components of the ecosystem, and the avant-garde technologies as innovative strategies for environmental management. We aims to provide a future platform for interaction and collaborative efforts between different workers in the scientific field. As this issue highlights the three keywords: hydro-geochemistry, geomorphology and nanotechnology; therefore, it will facilitate a unique amalgamation of pure as well as applied scientific ideas. Therefore, this combined effort will be much more beneficial and will lead to great developments in the near future. This will result in a better understanding of the background processes and the factors controlling the contamination process and therefore contribute to the development of more efficient and sustainable technologies and management options. This issue also has the broader purposes to influence the policymakers which in turn may lead to greater investments and research grants in the fields covered by the said volume, which can ultimately lead to more quality research in these fields.
30.	Kumar, M., et al. (author) Groundwater evolution and its utility in upper Ganges-Yamuna Alluvial plain of Northern India, India : Evidence from solute chemistry and stable isotopes 2018 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 7, s. 400-409 Journal article (peer-reviewed)abstract The current study was focused on the characterization of recharge, weathering processes and to check the aptness of groundwater for household and agriculture utility in the Chhaprola industrial area located in Gautam Buddha Nagar district of Uttar Pradesh, India. Groundwater samples (n = 33) were analyzed for major cations and anions from which (n = 22) were analyzed for stable isotopic records (δ2H and δ18O). Solute chemistry revealed neutral to moderately basic nature (pH ranged 6.4–8.8) and showed a higher (ranged 552–3130 µS/cm) of electrical conductivity. Isotopic signals ranged from − 8.7 to − 3.3‰ for δ18O and − 60.1 to − 37‰ for δ2H. Bivariate plot of stable isotopes (δ18O and δ2H) showed that majority of the samples fell below the global meteoric water line (GMWL) and local meteoric water line (LMWL) of New Delhi, indicating enrichment of heavier isotopes in the aquifers, which explain that recharging water, has undergone evaporation before recharging the aquifer. Monsoonal precipitation was observed as the major source of aquifer recharge in the surveyed area. Vertical hydraulic connectivity of the aquifer layers was traced with the help of isotopic record which exhibited a more negative intercept for shallow depth tube well than the middle depth tube well. About 76% of the samples exhibited negative Schoeller index thereby indicated cation-anion exchange reactions while the remaining samples depicted the Base Exchange Reactions. Sodium-normalized Ca versus Na-normalized Mg and HCO3, indicated an equal contribution of silicate and carbonate type weathering on global-average weathering system. About 52% of the groundwater samples fell into the Ca-HCO3 - water type while remaining samples fell into 33% and 15% of Na-HCO3 and Mg-HCO3 type, respectively. Water quality indices (viz. residual sodium carbonate, Kelly index, permeability index, magnesium hazard, and Chloroalkaline indices) revealed unsuitability of the groundwater for drinking and irrigation purpose at few locations.
31.	Mainali, Brijesh, et al. (author) Integrated approach for provision of clean energy and water in rural Bangladesh 2018 In: Ground Water for Sustainable Development. - New York : Elsevier. - 2352-801X. ; 7, s. 239-249 Journal article (peer-reviewed)abstract The ultimate goal of this paper is to explore ways to upgrade energy and water services in rural areas of Bangladesh while improving resource recovery. The study analyzes the potential of a poly-generation system using locally available biomass resources (cow dung and agriculture residue) for providing cooking energy, electricity, and drinking water to a rural community. A questionnaire survey was conducted in Pani Para village with 52 households to investigate demand patterns and estimate the resource potential and amount of biogasneeded in the poly-generation system. A poly-generation system with 150 m3biogas digester and a 10 kWe generator is required to meet cooking energy, electricity and water demand in the village. Co-digestion of available resources including cow dung and agriculture residues can provide 48,250 m3 biogas/year, which is sufficient to supply electricity and clean drinking water to all households in the village. In addition, around two thirds of the households can use biogas for cooking. The sensitivity analysis shows that if the amount of agriculture residues is increased by 15%, also cooking gas can be provided to all households. The results indicate that such integrated solutions are worth further exploration.
32.	Maity, Jyoti Prakash, et al. (author) Furfural removal from water by bioremediation process by indigenous Pseudomonas putida (OSBH3) and Pseudomonas aeruginosa (OSBH4) using novel suphala media : An optimization for field application 2023 In: GROUNDWATER FOR SUSTAINABLE DEVELOPMENT. - : Elsevier BV. - 2352-801X. ; 20, s. 100895- Journal article (peer-reviewed)abstract The release of furfural as effluent from industries has been considered a major pollution source since it adversely affects health and the environment. In a proper nutrient condition, the indigenous microbial removal process is always considered efficient, economical, and eco-friendly. Thus, the main objective is to employ the effective indigenous bacteria to remove the furfural from wastewater. In the present study, the indigenous isolates OSBH3 (strain number) and OSBH4 (strain number) were isolated from furfural-containing-oily-sludge and were iden-tified by 16S-rRNA technique with >99% nucleotide similarity as Pseudomonas putida (P. putida) (Acc. No. GU329915) and Pseudomonas aeruginosa (P. aeruginosa) (Acc. No. GU329916) respectively. In a batch experi-ment, the furfural degradation was observed higher in the presence of the most efficient isolate P. putida (compare to P. aeruginosa) at different nutrient conditions including Suphala (Nitrogen-Phosphorous-fertilizer), glucose, and carbohydrate-free synthetic media (CFM). Generally, the furfural degradation rate was lower in CFM than the other substrates (Nitrogen-Phosphorous-fertilizer/glucose), in the presence of P. putida or P. aeruginosa. The furfural degradation efficiency was observed higher in presence of P. putida, compare to P. aeruginosa. Experimentally, the total (100%) degradation of furfural (500 mg/L) was noticed by P. Putida within 12h incubation time in presence of 1 mg/L Suphala. Even among different factors (based on 'Taguchi L9 orthogonal array study'), the suphala (Nitrogen-Phosphorous-fertilizer) was influential in degrading the furfural at level 2, where the effects of pH and glucose were noticed at level 2 and level 2, respectively. The experimental findings supported the orthogonal array study positively. The bacterial (P. putida) growth rate and furfural degradation were promoted at the condition of 1 mg/L suphala, 2 mg/L glucose (pH 7.2), where the furfural was used by P. putida as the sole-carbon-source for growth. Thus, the indigenous P. putida (OSBH3; Acc. No. GU329915) (in presence of modified nitrogen-phosphorous-fertilizer media), can be applicable for furfural (Toxic) remediation from industrial effluent water by the eco-friendly process.
33.	Maity, J. P., et al. (author) Hydrogeochemical reconnaissance of arsenic cycling and possible environmental risk in hydrothermal systems of Taiwan 2017 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 5, s. 1-13 Journal article (peer-reviewed)abstract Hydrothermal activity creates geo-hydro-chemical interactions between hot water/fluid and the host rocks, which changes the hydro-chemical composition of the geothermal water/fluid and enriches trace elements. Existence of arsenic (As) is reported from different hydrothermal systems as well as several region in groundwater system at elevated concentration globally, compared to 10 μg/L WHO (World health Organization) guideline. The distribution of dissolved major and minor elements, including arsenic (As) was studied in hydrothermal systems of Taiwan. For the first time in Taiwan As(V) and As(III) species were researched from the three principal geological settings of Taiwan. Aim was to understand the cycling, fate and transport and potential impact of As on the surficial hydrological systems. Water samples were collected from sixteen hydrothermal springs of 3 different geological settings. Three groups of hydrothermal spring water samples could be distinguished: (i) strongly acidic (pH<3), sulfate-enriched waters of H-SO4-type (Yangmingshan, and Taipu, Beitou), (ii) slightly alkaline waters (pH: 8–8.95) (Jiben, Antung and Kung-Tzu-Ling), and (iii) circum-neutral waters (pH 6.47–7.41) of Na-HCO3/Na-Cl-HCO3-type (Wulai, Hongye, Rueisuei, Chung-Lun and Biolai). The waters are enriched with alkali and alkali earth metals compared to drinking water. Similarly, the water of most of the geothermal springs were found to be enriched with As (highest concentration at Beitou: 1.456 mg/L) with As(III) being the principal As species. Arsenic concentrations of hydrothermal spring waters in igneous rock terrains exhibit highest concentrations (0.69±0.71 mg/L) followed by those of sedimentary (0.16±0.14 mg/L) and metamorphic (0.06±0.02 mg/L) terrains. The discharged geothermal springs water contaminate the surface and groundwater (including drinking and irrigation water resources), where significant levels of arsenic and other toxic element have detected and hence being a significant risk for human health and environmental.
34.	Maity, Jyoti Prakash, et al. (author) Seven 21st century challenges of arsenic-fluoride contamination and remediation 2021 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 12 Journal article (peer-reviewed)abstract Arsenic (As) and Fluoride (F) are two commonly occurring geogenic contaminants in groundwater environment, causing a range of carcinogenic and non-carcinogenic adverse health effects worldwide. Several studies have been conducted in past and many are ongoing to address As and F contamination issue of natural water. This special issue is conferring in recent times one of the emerging fields of science regarding co-occurrences of multi-contaminants within a given system and associated health risks. This special issue is divided into three sections. Section I deals with the occurrence and co-existence of As, F, and trace elements (TE) in the environment. As and F occurrence [including trace elements (TEs)] in groundwater at a global scale (example: India, Sri Lanka, Bangladesh, Ghana, and Iran, etc.) has been highlighted (Section I). The geological, and anthropogenic factors affecting As and F contamination have been observed. The state-of-art, removal techniques for As and F have been discussed. Section II and Section III incorporate all the advanced removal methods for As and F, respectively. Arsenic and F removal comprises assessing natural remediation potential (phytoremediation) including different advanced absorbents. The new findings published here, bring together a wide range of new insights on As and F behavior in the groundwater environment.
35.	Mushtaq, S., et al. (author) An innovative systematic approach to internalize external costs of salinization in major irrigated systems 2016 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 2-3, s. 16-26 Journal article (peer-reviewed)abstract Agricultural production has external costs embedded in different forms. These externalities have not yet been internalized in the market's prices. The study applied a basin-wide systematic approach to manage river salinity, which is one of the most vexatious of these externalities, and needs urgent remediation. The application of the approach is exemplarily demonstrated for the Murray Darling Basin (MDB) in Australia. An in-depth economic analysis indicates that in the upper areas, plant-based options are suitable and economically viable, while in middle and downstream parts of the MDB, more options are suitable such as irrigation management, subsurface drainage and effluent reuse, and salt interception systems and Sequential Biological Concentration (SBC). The SBC differs from most other options since it provides direct economic benefits to the operators and is profitable. We adopt Pigouvian recommendations as polluters pay principle to internalize externality. Charging salinity credits in terms of polluters pay principle (e.g. in this case of about A$53 t-1) would result in attractive economic returns even at higher level of salinity, thus offering sufficient incentives to invest in relevant salinity management strategy. We recommended that potential salinity mitigation technique should consider regional characteristics and that it should be focused on high impact salinity zones to increase the effectiveness of the effort.
36.	Ormachea Muñoz, Mauricio, et al. (author) Geochemistry of naturally occurring arsenic in groundwater and surface-water in the southern part of the Poopó Lake basin, Bolivian Altiplano 2016 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 2-3, s. 104-116 Journal article (peer-reviewed)abstract Groundwaters from shallow aquifers and surface water from rivers of the southern part of Poopó Lake basin within the Bolivian Altiplano have significant quality problems such as high salinity and high concentrations of arsenic (As). The extent of As contamination is observed in the studied groundwater over large parts of the study area. Surface-waters are generally alkaline (pH 8.2–8.7) and oxidizing with dissolved oxygen (DO) concentrations in a range of 2.5–6.6 mg/L The water chemistry is predominantly of Na–Cl–HCO3–type, with concentrations of dissolved As in the range of 8.6–117 µg/L with As(V) as the main aqueous species. The concentration of Li varies in the range of 1.1–4.4 mg/L, while other trace elements occur in low concentrations. Groundwaters have a very large range of chemical compositions and the spatial variability of As concentrations is considerable over distances of a few km; dissolved As in groundwater spans over 4 orders of magnitude (3–3497 µg/L), while concentrations of Li have a range of 0.05–31.6 mg/L. Among the investigated drinking-water wells, 90% exceed the WHO guideline value of 10 µg As/L. Electrical conductivity ranges between 295 and 20,900 µS/cm; high salinity is resulting from evaporation under ambient semi-arid climatic conditions. The pH values of the groundwaters are generally slightly alkaline (5.5–8.7) and universally oxidizing, under these conditions As(V) is the prevalent specie. Groundwater As correlates positively with pH, electrical conductivity, Cl−, Na+, HCO3 −, Ca2+ and SO4 2−. Weathering/dissolution of carbonates, evaporites, halite and plagioclase minerals incorporate Na+ and HCO3 − in solution with consequent pH and alkalinity increase; these are favorable conditions for high mobility of As species. Stable isotopic signatures indicate recharge at the Altiplano with seasonal effects. All surface water and some groundwater samples are enriched due to evaporation, which probably increased concentration of dissolved As.
37.	Owusu Sekyere, Enoch (author) Alleviating water shortages by decreasing water footprint in sugarcane production: The impacts of different soil mulching and irrigation systems in South Africa 2020 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 11 Journal article (peer-reviewed)abstract Identifying ways and practices to alleviate water scarceness is an important policy issue across sectors, particularly in the agricultural sector in arid countries. The present study examines how water scarcity can be alleviated by decreasing the water footprint of sugarcane production using different soil mulching and irrigation systems in South Africa. The study also quantifies the economic benefits of reducing blue water footprints. The MyCanesim model and water footprint assessment methodologies were employed to estimate blue and green water footprints under the different systems in the Malelane region of South Africa. The findings reveal that blue water consumption for sugarcane grown with a thick mulch cover was substantially lower than for that grown with a light mulch cover. The difference was larger for centre pivot-irrigated sugarcane than for subsurface drip-irrigated sugarcane. The blue and total (blue plus green) water footprint values for crops grown with a thick mulch cover were only marginally lower than for those grown with the light mulch cover. The blue water footprint for subsurface drip-irrigated sugarcane was 8–10 m3/t lower than for centre pivot-irrigated sugarcane due to its higher application efficiency. The economic productivity of blue water usage for subsurface drip-irrigated sugarcane was higher than for centre pivot-irrigated sugarcane crops. In addition, the economic water productivity of blue water usage for crops grown with a thick mulch cover was slightly higher (5%) than that of those grown with a light mulch cover under subsurface drip irrigation. The findings support the notion that water-use efficiency in sugarcane production can be improved and the water footprints reduced by implementing more efficient irrigation systems, by covering the soil with a thick mulch cover to limit evaporation, and by implementing effective irrigation scheduling.
38.	Quino Lima, Israel, 1980-, et al. (author) Hydrochemical assessment with respect to arsenic and other trace elementsin the Lower Katari Basin, Bolivian Altiplano 2019 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 8, s. 281-293 Journal article (other academic/artistic)abstract Hydrochemical investigations of groundwater and surface water were carried out to better understand the spatial distribution of As, major ions and trace elements.The study was carried out to evaluate the sources of dissolved species and elucidate the processes that govern the evolution of natural water in the Lower Katari Basin.The study area is close to the Titicaca Lake (Cohana Bay) formed by sediments of the Quaternary system, deposited in the fluvio-glacial to fluvio-lacustrineenvironment and geologic formations of the Devonian and Neogene system of volcanic origin. The study area has several environmental problems mainly caused bycontaminants such as heavy metals, nutrients, and bacteria. These problems are linked to the urban and industrial wastes, natural geologic conditions, and miningactivities carried out upstream of the Katari Basin, where rivers discharge into the Cohana Bay.A total of 37 water samples were collected during wet season, 31 groundwater samples including drinking water wells and six surface water samples. Thehierarchical cluster analysis and principal component analysis were applied to hydrochemical data. Results show high salinity in groundwater related to theevaporation causing serious problems for the groundwater quality and rendering it unsuitable for drinking. Dissolved As concentration ranges from 0.7 to 89.7 μg/L;the principal source of As could be the alteration of volcanic rocks, more than 48% of the shallow groundwater samples exceeded the WHO guideline value for As andmore than 22% for NO3-. Groundwater has neutral to slightly alkaline pH, and moderately oxidizing character. The groundwater chemistry reveals considerablevariability, ranging from Na-SO4,Cl type through mixed Na-HCO3 type and Ca,Na-HCO3,Cl type. The distribution of trace elements shows a large range of concentrations.Speciation of As indicates that the predominant oxidation state is As (V). The geochemical modelling indicates that As could be associated with ironoxides and hydroxides which are probably the most important mineral phases for the As adsorption. The spatial distribution and the variation of dissolved Asconcentration in groundwater is governed by the variability in geological characteristics of the region that raises a significant concern about drinking water quality.
39.	Rose, Pawan Kumar, et al. (author) Congo red dye removal using modified banana leaves : Adsorption equilibrium, kinetics, and reusability analysis 2023 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 23 Journal article (peer-reviewed)abstract Congo red (CR) dye is a synthetic azo dye expansively used in the textile industry, is discharged to aquatic environments, and is toxic to humans and aquatic flora. The performance of cationic amino-modified banana leaves (CMBL) for CR dye sequestration was evaluated first time in this study. The surface modification of CMBL was analyzed using Scanning electron microscope (SEM) and Fourier transform infrared (FTIR) spectrum and compared with raw banana leaves powder (RBL). The optimum condition for CR dye adsorption using CMBL was optimized using Central Composite Design (CCD) by investigating four critical operating parameters: contact time, pH, RBL/CMBL doses, and initial CR dye concentrations. The proposed model (quadratic) was acceptable due to the high values of correlation coefficients R2 (0.96) and adjusted R2 (0.92). The CMBL exhibited maximum removal efficiency of 76.82% towards CR dye at pH 3 compared to RBL, i.e., 19.63%. Electrostatic interaction and hydrogen bonding were the primary removal mechanisms for the CR dye adsorption process using CMBL. Freundlich isotherm and pseudo-second-order kinetic model exhibited a strong correlation for experimental data and reported a correlation coefficient (R2) of more than 0.99. In addition, CMBL showed excellent reusability for the adsorption of CR dye even after three consecutive adsorption-desorption experiments.
40.	Roy, Sagarika, et al. (author) A geospatial approach for understanding the spatio-temporal variability and projection of future trend in groundwater availability in the Tawi basin, Jammu, India 2023 In: GROUNDWATER FOR SUSTAINABLE DEVELOPMENT. - : Elsevier BV. - 2352-801X. ; 21, s. 100912- Journal article (peer-reviewed)abstract The overexploitation of groundwater in the foothills of the Himalayas at Jammu has led in a steady decline of groundwater levels in the recent years. The causes of the groundwater scarcity, however, is unknown due to a lack of long-term trend analysis of groundwater monitoring and scientific investigations. Therefore, the objective of this research is to investigate the groundwater variability in the alluvial aquifers of Tawi River basin of the Jammu district by applying a non-parametric approach using Mann-Kendall and Sen's slope approach. In addition, a stochastic seasonal Autoregressive Integrated Moving Average (ARIMA) model was also used for forecasting time series groundwater level. The results revealed that during the pre-monsoon (PRM) season, 66.6% of the monitoring wells suffered groundwater decreases, compared to 53% during the post-monsoon (POM) season across the whole study area. The steepest slope was found in the Kandi belt with maximum water table declined to 26 m below ground level (bgl) in 2018 compared to 8.44 m bgl in 2009 with an average rate of decline of 1.109 m/yr in PRM season. Siwalik region reported a decline of groundwater level at the rate of 0.173 m/yr and 0.27 m/yr in PRM and POM respectively. However, water table in Sirowal region improved marginally in PRM and POM season with a mean raise of 0.05 m/yr and 0.08 m/yr respectively. According to the time series forecasting by stochastic simulation, if the current situation continues, the groundwater level in the Kandi region would decline by 9.46 m and 9.38 m respectively, over the observed values in 2018 to reach a level of 27.82 and 24.38 m bgl in PRM and POM respectively by 2025. The spatio-temporal analysis showed that the groundwater extraction in the aquifers of Kandi region was higher than that of the Siwalik and Sirowal region. The spatiotemporal trend and projection of groundwater levels is quite helpful in identifying the most vulnerable places, as well as addressing the current and future condition of groundwater levels for optimal resource planning and management of groundwater resources in the sustainable ways.
41.	Saghravani, Seyed Reza, et al. (author) Multi-isotopic and hydrochemical evidence of water resources evolution and recharge estimation in the tropical coastal aquifer 2024 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 24 Journal article (peer-reviewed)abstract The study integrates hydrochemical and isotopic (δ18O, δ2H, 3H, and δ13C) techniques to investigate water evolution in the North Kelantan River basin. Groundwater facies were mainly classified as Ca–Mg–Cl, Ca–Mg–Cl–HCO3, and Na–Cl during the rainy season and shift toward Ca–Mg–HCO3 and Na–Ca–HCO3–Cl during the dry season in surface water and shallow aquifer, while facies in intermediate and deep aquifers were classified as Na–HCO3 and Na–Cl. The δ18O and δ2H compositions of most groundwater samples have not deviated significantly from NKMWL (δ2H = 8.4 δ18O + 11.5) with slightly depleted isotopic values due to the humid climate. Isotopically, evaporation does not impact recharged water significantly. However, shallow aquifers are slightly enriched than deep aquifers of the study area. The estimated recharge was 20.17% and 22.52% of annual rainfall based on the CMB and δ18O values, respectively. The recharge mainly occurs during the wet season and is influenced mostly by the amount of rain. Aquifers clustered in distinct groups based on their isotopic signatures and hydrochemical results. The decomposition of organic matter is the primary carbon source in the study area. Building on this, by utilizing isotope hydrology to study water resources, we can gain a deeper insight into the susceptibility of groundwater in coastal aquifers of monsoonal tropical humid regions.
42.	Saha, R., et al. (author) Exploring suitable sites for installing safe drinking water wells in coastal Bangladesh 2018 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 7, s. 91-100 Journal article (peer-reviewed)abstract Development, monitoring and management of drinking water resources, especially groundwater, are essential for sustainable water extraction. The present study aimed to explore suitable locations and depths for installing tubewells for safe drinking water. Tala upazila of Satkhira district, in the coastal area of Bangladesh, was selected as the study area. Groundwater samples were collected from 632 shallow tubewells (STW) and deep tubewells (DTW). In-situ measurements were done for seven important water quality parameters, such as arsenic (As), iron (Fe), electrical conductivity (EC), temperature (T), Total Coliform-TC, E. coli and Faecal Coliform (FC). Weighted arithmetic water quality index (WQI) was used to calculate the suitability of drinking water collected from tubewells. Experimental value based maps for each parameter were prepared and safe aquifer sites were identified using WQI and geo-statistical as well as geo-spatial analysis. Range of As, Fe and EC were found to be 0–500 µg/L, 0–18 mg/L and 165–8715 µS/cm, respectively and for STW, 88%, 99% and 100% and for DTW, 64%, 71% and 100% exceeded WHO drinking water standards. Comparatively high proportion of STW (TC-41%, E. coli−24% and FC-49%) contained coliform bacteria than DTW (TC-23%, E. coli−15% and FC-28%). Only small proportional areas, such as 24 km2 for As, 27 km2 for Fe, 113 km2 for TC, 132 km2 for E. coli and 102 km2 for FC were found safe in DTW. Multiple patches of safe aquifer were identified at greater depths in the northern, north-central, central and south-western part of the study area. According to WQI, overall 39 km2 area (12% of total area) was explored as suitable sites for installing tubewells where good to excellent quality water could be found in greater depth aquifers. The findings will help policy makers, practitioners and local communities to find out the suitable locations and depths for installation of tubewells in the study area for extracting safe drinking water.
43.	Sanga, Udita, et al. (author) Mental models of sustainable groundwater management among farmers in semi-arid regions of Maharashtra, India 2023 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 21 Journal article (peer-reviewed)abstract Mental models are the dynamic, internal cognitive representations of people's interaction with the world. Such models can be used to gain insights into how humans structure their beliefs and actions about environmental issues. This research paper aims to understand the mental models of sustainable groundwater management among farmers in semi-arid regions of Maharashtra, India. Using a mixed method approach of qualitative interviews and systems mapping, we assess how past experiences with drought and water scarcity have influenced farmers' beliefs, perceptions, and actions and develop mental models that highlight the dynamic processes that guide farmer actions regarding groundwater use and management. We identify policy triggers that can nudge farmers toward sustainable groundwater management in the future. Our results reveal three key insights: i) Farmers who experience higher water scarcity have a higher desire for groundwater conservation and higher consciousness towards future groundwater sustainability, ii) Farmers' actions towards either increased groundwater extraction or conservation are shaped by complex social, environmental, and institutional dynamics rather than self-interested individual will, and iii) Supply-driven water policies and initiatives can lead to maladaptive outcomes such as an increase in groundwater extraction in the long run. Current water policies need a transformative shift from focusing on short-term groundwater supply to those that facilitate long-term sustainable groundwater management by influencing the norms, values, and behavior toward groundwater conservation. Future interventions that allow and encourage collective mobilization, enhanced ownership and participation, adequate training, financial resources, and decentralized management structures with enhanced accountability are likely to be more effective in developing long-term solutions for sustainable groundwater management.
44.	Sangkham, Sarawut, et al. (author) Evidence of microplastics in groundwater : A growing risk for human health 2023 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 23 Research review (peer-reviewed)abstract In recent years, microplastics (MPs), an emerging pollutant in groundwater, have raised public health concerns due to their long persistence and potential ecotoxicity. This review discusses on the occurrence, fate, and transport of MPs in groundwater, along with their sampling, detection, size range, types, and potential sources and pathways of contamination. Public health risks associated with exposure to MPs, primarily through daily consumption of contaminated water, have been reviewed. This study recorded a total of 13 studies that evaluated MPs in groundwater; samples were mostly collected from open wells and other types of drilling. It recorded MP concentrations varied from 0.1 to 6832 particles/L. The most frequent polymer types reported in groundwater were polyethylene terephthalate (PET), polyethylene (PE), polyvinyl chloride (PVC), polyamide (PA), and polystyrene (PS). Our analysis of existing literature found that studies on MPs in groundwater have mainly been conducted in coastal areas, particularly Europe and North America. However, there is still a need for more research in other geographical regions, such as Asia, Africa, and South America, to examine a broader range of groundwater aquifer systems. The existing literature has challenges in comparing research findings due to heterogeneity in sample collection and processing protocols. This review recommended more research to examine a larger variety of groundwater aquifer systems, such as drinking water collecting wells near urban, agricultural, industrial, and coastal locations, to provide a more comprehensive understanding of the extent and sources of MP contamination in groundwater and the associated public health risks. Lastly, this paper concluded with the potential human intake of MPs and health risk assessment perspectives for future directions.
45.	Sayeed, A., et al. (author) Handwashing with soap : A concern for overuse of water amidst the COVID-19 pandemic in Bangladesh 2021 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 13, s. 100561- Journal article (peer-reviewed)abstract Handwashing is one of the vital public health measures. It helps to prevent the spread of the COVID-19 pandemic. However, water overuse during hand scrubbing with soap keeping the tap on may put enormous pressure on the already overstretched groundwater resources and households’ economic well-being. Therefore, this study aimed to determine the overuse of water while scrubbing hands with soap for handwashing when the tap is on amid the COVID-19 pandemic in Bangladesh. Sociodemographic data were collected using a web-based survey tool among 1980 participants and an experiment was conducted among 126 participants to estimate the overuse of water during hand scrubbing while the tap is on. A total of 80% of the participants washed their hands regularly after returning home from outside. About 57.3% of participants did not turn off their tap throughout the handwashing process. A single participant, who kept his tap on throughout the handwashing process, overused approximately 1.7 L of water per handwash and 14.9 L of water per day. Hand scrubbing with soap keeping the tap on, raised the overuse of water 13-fold during this pandemic compared to the non-pandemic situation which cost an extra 225.0 BDT (2.7$) per day for 1980 participants. Minimize the speed of tap, using automatic taps, and using taps operated by legs might be an effective solution to reduce the water overuse. Furthermore, behavioral change interventions are needed to aware people turn off the tap during hand scrubbing with soap.
46.	Seddique, A. A., et al. (author) Hydrogeochemical and isotopic signatures for the identification of seawater intrusion in the paleobeach aquifer of Cox's Bazar city and its surrounding area, south-east Bangladesh 2019 In: Groundwater for Sustainable Development. - : Elsevier B.V.. - 2352-801X. ; 9 Journal article (peer-reviewed)abstract In order to better understand the encroachment of seawater into the groundwater system a total 115 groundwater samples were collected in an area of ∼7 km 2 in Cox's Bazar paleobeach and its vicinity, from different types of tubewells, which included hand pump fitted bore wells (<50 m depth), moderately deep energized bore wells (50 m–100 m depth) and deep bore wells (>100 m depth) during June 2013. A combined hydro-geochemical indicators, selected trace elements (Sr and B) and in addition to δ 18 O and δ 2 H were used in this study. Results show that the high values of EC (202 μS/cm to 6730 μS/cm) and TDS (135 mg/L to 4509 mg/L) are found in groundwater of wells closer to the coast and few wells from the northern and central part of the study area. The cross plot of HCO 3 /Cl and TDS shows that groundwater along the paleobeach and some isolated areas are saline with TDS > 1000 mg/L, associated with high ratios of Cl/TDS (0.065). The groundwater facies generally evolves from freshwater (Ca-Mg-HCO 3 ) to saline water (Na- Cl) type with an intermediate Ca-Mg-Cl type indicating that the aquifer system interacts with seawater and undergoes cation exchange. Results also reveal that the area affected by marine water intrusion has ionic ratios of Br/Cl (0.0006–0.0021) similar to seawater (0.0015) with some higher values. Groundwaters along the paleobeach and some isolated areas, low ionic ratios of SO 4 /Cl (0.01–6.53) and Na/Cl (0.20–152.09), relative to marine ratios (0.05 and 0.86 respectively), are also observed. Groundwaters with Seawater Mixing Index >1.0 and TDS >1000 mg/L constitute about 20% of the studied groundwaters and have relatively high δ 18 O (>- 4.0‰) values and the linear relationships between TDS and most of the ions, including B and Sr, and the chemical signature of the saline plumes (e.g., marine SO 4 /Cl, Na/Cl and Br/Cl ratios) suggest that mixing processes control the chemical composition of the seawater within the aquifers. However, these geochemical variations also reveal that the quality of potable water has deteriorated to a large extent due to seawater intrusion along the paleobeach, migrating inland toward the heavily groundwater exploited areas from the coast line and may entail various future health hazards.
47.	Seddique, A. A., et al. (author) Sources of U and Th in groundwater of the paleobeach aquifer at Cox's Bazar, Southeast Bangladesh 2020 In: Groundwater for Sustainable Development. - : Elsevier B.V.. - 2352-801X. ; 10 Journal article (peer-reviewed)abstract To explore the influence of radioactive heavy minerals on thorium (Th) and uranium (U) contamination in groundwater, we performed geochemical and mineralogical investigations of core samples (from the ground surface to 18.9 m depth) from a paleobeach area in Cox's Bazar, southeastern Bangladesh. Geochemical data document elevated levels of total Th (6.3–202.3 mg/kg, average 32.9 mg/kg) and U (1.1–33.4 mg/kg, average 5.2 mg/kg), and lithological observations document monazite concentrations as great as 2.36 wt% and zircon concentrations as great as 3.82 wt%. These minerals were found in organic-rich fine to very fine sand in the uppermost meter of the sediment column (down to 1.2 m depth) rather than in coarser sandy sediment. Energy-dispersive spectroscopy of several monazite and zircon grains indicated that alteration was greater in oxic sediment (down to 3 m depth) than reduced sediment (deeper than 3 m). Monazite and zircon had relatively high concentrations of Th (3395.9–3937.5 mg/kg and 275.5–318.4 mg/kg, respectively) and U (850.7–990.6 mg/kg and 256.3–290.5 mg/kg, respectively). Chemical weathering (dissolution and reprecipitation) of detrital monazite and zircon grains, which releases U and Th into the groundwater, may be a major and growing concern for drinking water in the study area. Shallow tubewells (<20 m depth) waters were enriched in U (0.09–9.57 μg/L) and Th (0.02–127.09 µg/L) and that the enrichment mostly occurred in highly oxic environments (Eh = 0.35–0.5 V). We suggest that hydrological and biogeochemical conditions in the aquifer that follow land-use changes influence the release of Th and U into the groundwater of the study area.
48.	Shah, M., et al. (author) Assessment of geothermal water quality for industrial and irrigation purposes in the Unai geothermal field, Gujarat, India 2019 In: Groundwater for Sustainable Development. - : Elsevier. - 2352-801X. ; 8, s. 59-68 Journal article (peer-reviewed)abstract Nowadays, a spotlight on the direct manipulation of water from the geothermal fields is laid for manifold applications. This manuscript discusses the utilization of water produced from geothermal wells for irrigation and industrial purposes. In order to identify the suitability of the water for the above mentioned uses, various hydrochemical parameters were evaluated. Samples were collected from three geothermal well sites from Unai village, a prominent geothermal field situated in Navsari district, Gujarat, India. The hydrochemistry of the samples collected from hot spring (depth 30–45 m) was studied and samples were examined by calculating different parameters. The complete study was done individually for both industrial and irrigational uses of geothermal water. The mean surface temperature of the water is 55 °C and average pH of the sample studied is 8.12. The key Water Quality Indices (WQI) such as Langelier Saturation Index (LSI), Ryznar Stability Index (RSI), Puckorius Scaling Index (PSI) and Larson-Skold Index (LS) were examined for industrial utilization and the key indices like Sodium Absorption Ratio (SAR), Sodium Percentage (SP), Kelly Ratio (KR) Residual Sodium Carbonate (RSC) and Permeability Index (PI) were examined for irrigational utilization of geothermal water. LSI and RSI values show that carbonate and bicarbonate concentration is in the desirable range, however, LS (15.09, 13.54) is very high which indicates higher Cl- content. High value of indices such as SAR, KR, and SP points out the increased concentration of Na+ in the water sample. The results of this study would help the end users to identify the necessary water-treatments before utilizing the water for industrial and irrigation purposes in the study area.
49.	Sharma, Pushpa Kumari, et al. (author) Adsorptive behavior of Fe/Zn-modified nanobiochar for arsenic removal from naturally contaminated groundwater 2023 In: Groundwater for Sustainable Development. - : Elsevier BV. - 2352-801X. ; 23, s. 101011- Journal article (peer-reviewed)abstract Global groundwater is frequently discovered to have high arsenic (As) concentrations, critically endangered and potentially toxic to aquatic organisms and humans. This work investigates As(V) adsorption using raw nanobiochar (RnBC) and activated magnetic nanobiochar (AMnBC), which are synthesized via pre-treating rice straw biomass with ZnCl2 and FeCl3 and pyrolyzing at 500 °C, followed by ball milling. The highest adsorption capacity for AMnBC and RnBC was 130 μg/g and 38.67 μg/g, respectively, at alkaline water chemistry to mimic natural groundwater conditions. Different functional groups contributed by modifications are evident with As(V) adsorption using RnBC and AMnBC. Multilayer chemisorption may explain the adsorption of As(V) on biochar surfaces, as Freundulich isotherm and pseudo-second-order kinetic model are suggested. The synthesis cost for AMnBC and RnBC was $0.0147/g and $0.0099/g, respectively, which helped to determine the most effective and efficient method for As(V) adsorption. In this study, natural As-contaminated groundwater collected from Patna, Bihar (India), was treated for As(V) removal using AMnBC in natural environments. Thus, this study recommends that cost-effective modified biochar can effectively be used for As(V) elimination from naturally contaminated groundwater as well as surface water.
50.	Sunkari, Emmanuel Daanoba, et al. (author) Groundwater fluoride contamination in Ghana and the associated human health risks : Any sustainable mitigation measures to curtail the long term hazards? 2022 In: GROUNDWATER FOR SUSTAINABLE DEVELOPMENT. - : Elsevier BV. - 2352-801X. ; 16 Research review (peer-reviewed)abstract This study reviewed groundwater fluoride and the associated human health risks in Ghana. The physical and chemical properties of fluorine that make it soluble in the soil and aquifer materials were carefully reviewed. The pathways through which fluoride gets into groundwater were also reviewed. Fluoride concentrations in groundwater can be as high as 67 mg/L. Its natural concentration in water depends largely on the nature of the geologic formations; fluoride-bearing minerals, anion exchange capacity of aquifer materials (OH- for F-), pH, temperature and residence time of waters within a particular formation. High F- concentrations in groundwater are due to geogenic and anthropogenic sources. The fluorosis endemic parts of Ghana are only restricted to northern Ghana, where elevated groundwater fluoride concentrations (0.05-13.29 mg/L) in the North East Region, Northern Region, Upper East Region, and surrounding communities have been reported. The elevated groundwater fluoride concentrations are as a result of intense water-rock interaction, ion exchange reactions, and mineral dissolution from the Bongo Granitoids and Voltaian sediments. Children in the fluorosis endemic parts of Ghana are exposed to the intake of more fluoridated water than the other age groups and thus, children have higher non-carcinogenic risks. Although, almost all the age groups show evidence of dental fluorosis, children are the hypersensitive population. It is recommended that sustainable defluoridation methods such as adsorption, precipitation, membrane separation and ion exchange techniques be employed to curtail the menace of dental fluorosis.

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