Groundwater Quality Affected by the Pyrite Ash Waste and Fertilizers in Valea Calugareasca, Romania

Vasilache, Nicoleta; Diacu, Elena; Modrogan, Cristina; Chiriac, Florentina Laura; Paun, Iuliana Claudia; Tenea, Anda Gabriela; Pirvu, Florinela; Vasile, Gabriela Geanina

doi:10.3390/w14132022

Cited by 6 publications

(5 citation statements)

References 59 publications

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“…In the meantime, it is difficult to compare the results of our study with previous groundwater quality studies in the area as the latter have a very coarse spatial resolution (i.e., regional values) and treat parameters individually rather than compounding their concentrations into an index. For example, nitrate contamination of groundwater is frequently discussed in other studies [ 79 , 80 , 81 , 82 ]; however, the respective studies are lacking the inclusion of heavy metals or vice versa.…”

Section: Resultsmentioning

confidence: 99%

Evaluation of Shallow Groundwater Quality at Regional Scales Using Adaptive Water Quality Indices

Brețcan

Tanislav

Rădulescu

et al. 2022

IJERPH

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Groundwater, which is the main source of water for human consumption in many rural areas, has its quality determined by the complex interaction of environmental factors and anthropogenic activities. The present study evaluated the quality of shallow groundwater (1 to 25 m depth) in the rural area of the Târgovişte Plain, a densely populated area (200 inhabitants/km2) using 80 water samples collected from public wells. In order to explain the spatial distribution of the concentrations of the 19 physicochemical parameters considered (including heavy metals), the evaluation of groundwater quality for human consumption and potential impact on human health was conducted using the Water Quality Index (WQI), Integrated Weight Water Quality Index (IwWQI), Total Hazard Index (THI), and cumulative carcinogenic risk (CCR). For the WQI/IwWQI the comparative analysis of the two indices showed that for the WQI, it is important to select an optimal set of parameters, because use of a large number of physicochemical parameters can eclipse the values that exceed WHO guideline limits. In contrast, the use of entropy in the calculation of the IwWQI did not lead to eclipsing of exceedance, no matter the number of parameters used. Areas with poor and very poor groundwater quality according to the WQI/IwWQI overlapped, with a moderate risk to human health (THI > 1) for noncarcinogenic contaminants and also a risk of developing cancer according to the CCR average value (1.15 × 10−2). The health of 43% of the rural population in the Târgovişte Plain can be affected if they drink contaminated groundwater, and it is estimated that about 600 people can develop cancer during their lifetime. If the risk of developing cancer is reduced only in the rural population that does not have access to a water source from a centralized and verified network, the results suggest that 385 people (1.15%) can develop cancer as a result of consuming groundwater contaminated with heavy metals based on the average value of CCR. This value is lower than the general mortality rate in areas with high CCR and below the average number of cancer patients in Romania (2.65%). The quality of groundwater and the risk of developing diseases and cancer due to water consumption is directly proportional to the intensity of agricultural land use and inversely proportional to the depth of the groundwater layer, the distance from the main hydrographic network and the reservoirs, and the distance from the main city, Târgovişte. The complex and integrated analysis of groundwater quality using quality indices and indicators of health risk for the population, validated by hot-spot analysis and compared to the mortality rate, is an approach with practical applicability. This integrated approach allows public authorities, policymakers, and health services to implement an efficient monitoring program and optimize anthropogenic activities in order to prevent groundwater contamination and finally improve the quality of life for the residents in the area of this study.

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Section: Resultsmentioning

confidence: 99%

Evaluation of Shallow Groundwater Quality at Regional Scales Using Adaptive Water Quality Indices

Brețcan

Tanislav

Rădulescu

et al. 2022

IJERPH

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“…The approach was introduced by Meybeck [35] to learn the silicate weathering process. Equal concentrations of Cland Na + in aquifers are derived from the dissolution of halite [93,94]. A significant positive correlation (r = 0.882) between Cland Na suggests that Na + originated from halite dissolution [40].…”

Section: Silicate Weathering Processmentioning

confidence: 99%

Application of Geochemical Modelling and Multiple Regression Analysis to Reassess Groundwater Evolution in Kaduna Basin, NW Nigeria

Wali,

Alias,

Harun

et al. 2024

Preprint

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This review reassesses groundwater's hydrochemical evolution in the Kaduna Basin using geochemical modelling (GM) and multiple regression analysis (MRA). Hydrochemical data were obtained from the literature using a systematic approach and were subjected to GM and MRA. The geochemical modelling results showed that aquifers are saturated with Anhydrite, Chlorite, Chrysotile, Dolomite, Gypsum, Halite, K-Mica, Pyrite, Quartz, Dolomite, and Goethite. The Na2O-Al2O3-SiO2-H2O system indicated that the studied locations fell in Na-montmorillonite and Kalinite fields. However, the K2OAl2O3-SiO2-H2O system showed that groundwater is stable with Montmorillonite, Kaolinite, and K-Feldspar. MRA and Na+/Cl- molar ratio revealed that rock weathering significantly controls groundwater. The Na+/Cl- values are above 1 in 83.33%, 54.84%, and 26.27% sampling locations in the Kudenda-Nassarawa area, Kaduna South, and Kakuri and its Environs, respectively. The overall p-value was less than 0.01 and R-Sq = 63%, suggesting that all elements significantly influence aquifers' hydrochemistry. Results of geochemical modelling, Na+/Cl- molar ratio, and MRA are concurrent as they both show silicate weathering as the factor controlling groundwater hydrochemistry. Thus, geochemical and multiple regression analysis offers a reliable and user-friendly tool for assessing aquifers' hydrochemistry. We hope this review's findings will stimulate other researchers to an analogous procedure in a forthcoming study on hydrochemical analysis, especially those from semi-arid environments.

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“…According to a study conducted by Saad et al and published in 2014 [17], this study discussed some indicators of groundwater pollution in the city of Al-Marj, where the water of 17 wells used for drinking and agriculture was analyzed. Only 4 wells are drinkable and free from indications of contamination.…”

Section: Introductionmentioning

confidence: 99%

Study of sewage wells’ contamination with intestinal bacteria in the city of Misurata, Libya

Drah

Lahmer

Yunita

2023

IOP Conf. Ser.: Earth Environ. Sci.

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Groundwater pollution, and the same pollution with sewage water resulting from improperdisposal by correct scientific methods, is one of the most dangerous environmental disastersthat affect humans in particular and the environment in general, as groundwater is considered one of the most important water resources, especially in the dry and semi-arid surface areas. Study of the contamination of groundwater wells with E. coli bacteria in a number of ground wells, 70 wells in one of the regions in the city of Misurata. Samples were collected and measured TDS and grown on a special medium compact dry and incubated for 24 hours at 37 C and another 24 hours at a temperature of 44 C. The results showed that 27 wells (38.5%) out of 70 wells were contaminated with E. coli bacteria, andthis is an indication of the risk of spreading contamination with colon bacteria compared tothe sample size. From the foregoing, the study concluded that the high rate of contamination of well water with coliform bacteria is due to the lack of a system to treat black water and dispose of it in a random manner.

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Groundwater Quality Affected by the Pyrite Ash Waste and Fertilizers in Valea Calugareasca, Romania

Cited by 6 publications

References 59 publications

Evaluation of Shallow Groundwater Quality at Regional Scales Using Adaptive Water Quality Indices

Evaluation of Shallow Groundwater Quality at Regional Scales Using Adaptive Water Quality Indices

Application of Geochemical Modelling and Multiple Regression Analysis to Reassess Groundwater Evolution in Kaduna Basin, NW Nigeria

Study of sewage wells’ contamination with intestinal bacteria in the city of Misurata, Libya

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