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Articoli di riviste sul tema "Hydrochemistry"

Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 25 maggio 2024

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1

Zabokrytska, M. R. "“ESSAYS ON THE HISTORY OF HYDROCHEMISTRY IN UKRAINE” (2020) – THE FIRST MONOGRAPH ON THE HISTORY OF HYDROCHEMICAL STUDIES IN UKRAINE". Hydrology, hydrochemistry and hydroecology, n. 3 (58) (2020): 112–21. http://dx.doi.org/10.17721/2306-5680.2020.3.11.

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The article analyzes the monograph Essays on the History of Hydrochemistry in Ukraine (author Valentyn Khilchevskyi – professor at Taras Shevchenko National University of Kyiv), published in 2020.This is the first such monographic study. The monograph is devoted to the history of hydrochemical studies of surface waters in Ukraine. In the introductory part, an excursion on this issue was carried out in the XVIII-XIX centuries. The first part of the book is devoted to a review of hydrochemical studies of surface waters and their quality, which were carried out by Ukrainian scientists of the institutes of the National Academy of Sciences of Ukraine, industry institutions and institutions of higher education (1920-2020). As the author of the monograph notes, today scientific hydrochemical schools have been preserved at the Institute of Hydrobiology of the NAS of Ukraine (Kyiv), the Ukrainian Hydrometeorological Institute of the State Emergency Service of Ukraine and the NAS of Ukraine (Kyiv). They are engaged in hydrochemistry at the Ukrainian Institute of Environmental Problems (Kharkov). Among the higher educational institutions, it is worth noting the scientific hydrochemical school of the Taras Shevchenko National University of Kyiv, which has a prominent place in the development of the educational and methodological base, the creation of the first basic textbooks on hydrochemistry in Ukraine. They deal with individual issues of hydrochemistry at Odessa State Ecological University, Oles Honchar Dnipro National University, Yuriy Fedkovich Chernivtsi National University, Lesya Ukrainka Eastern European National University (Lutsk), National University of Water Management and Nature Management (Rivne). The second part describes the formation and history of the scientific hydrochemical school of the Taras Shevchenko National University of Kyiv (1970-2020), to which the author himself belongs. The information and facts presented in the monograph will be of extreme value from the standpoint of studying the history of hydrochemistry by young scientists, since today there is a reform in science and education, new concepts and terms are being introduced. For example, the nomenclature of the names of specialties is changing. So, the recruitment of graduate students of hydrologists-hydrochemists since 2016 is already carried out in specialty 103 “Earth Sciences” to the educational and scientific program “Hydrology”. And from 2021, it is planned to completely switch to a new form of defense of dissertations (in particular, the degree of candidate of sciences will be replaced by the degree of Doctor of Philosophy). The book will be useful to scientists and practitioners dealing with issues of hydrochemistry and water quality, teachers and students studying hydrochemical and hydroecological disciplines.
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2

Brown, Giles H. "Glacier meltwater hydrochemistry". Applied Geochemistry 17, n. 7 (luglio 2002): 855–83. http://dx.doi.org/10.1016/s0883-2927(01)00123-8.

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Trudgill, Stephen. "Book Review: Hydrochemistry". Progress in Physical Geography: Earth and Environment 24, n. 1 (marzo 2000): 149–50. http://dx.doi.org/10.1177/030913330002400117.

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4

Church, M. Robbins. "HYDROCHEMISTRY OF FORESTED CATCHMENTS". Annual Review of Earth and Planetary Sciences 25, n. 1 (maggio 1997): 23–59. http://dx.doi.org/10.1146/annurev.earth.25.1.23.

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5

Yanin, E. P., L. I. Kashina e Yu E. Sayet. "Hydrochemistry of Lake Glubokoe". Hydrobiologia 141, n. 1-2 (ottobre 1986): 11–23. http://dx.doi.org/10.1007/bf00007476.

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6

KHAFIZOV, A. R., L. A. КАМАLETDINOVA, A. F. KHAZIPOVA e A. V. КОМISSAROV. "Current state and long-term changes in the hydrochemistry of the Pavlovsky reservoir on the Ufa river". Prirodoobustrojstvo, n. 3 (2022): 101–7. http://dx.doi.org/10.26897/1997-6011-2022-3-101-107.

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The purpose of the work is to identify the current state and long-term changes in the hydrochemistry of the Pavlovsky reservoir, which allow further development of programs for its environmental rehabilitation. An analysis of studies of the current state and long-term changes in hydrochemistry (the content of chemical elements in water) of the Pavlovsky reservoir for 10 chemical indicators in 7 sites is presented. The factors that form and change the hydrochemistry of the Pavlovsky reservoir are studied. It was revealed that throughout the reservoir, from its beginning to the upper stream, the content of Sr2+, Mn2+ and petroleum products in the water decreases; increase – Zn2+, Hg2+, phenols and organic substances; are evenly distributed – Fettl (Fe2+ + Fe3+), Pttl (according to PO4 3-), Cu2+. A long-term trend of reducing the content of chemical elements in water is noted for Fe, Mn2+, petroleum products, phenols, COD; upward trend – for Rttl, Cu2+, Zn2+, phenols. The relationship between the average annual content of chemical elements in water and the values of average annual imflows has been established. Based on the results obtained, priority ways to improve the hydrochemistry of the Pavlovsky reservoir have been identified.
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7

Zhang, Hongying, Zongjun Gao, Mengjie Shi, Shaoyan Fang, Hailong Xu, Yechen Cui e Jiutan Liu. "Study of the Effects of Land Use on Hydrochemistry and Soil Microbial Diversity". Water 11, n. 3 (5 marzo 2019): 466. http://dx.doi.org/10.3390/w11030466.

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The objectives of this study were to compare the influence of land use, to determine which land has an impact on hydrochemistry and to clarify the impact of land use on soil microbial diversity and the correlation between hydrochemistry and soil microbial diversity. The impacts were assessed through chemical and biological data from 4 land-use groups. The results showed that soil microbial diversity and water chemical composition were different under different land uses. There was a strong correlation between the main hydrochemical components under different land uses, and the M03 had the highest correlation. The Shannon index was the largest for M01, the Simpson index was the smallest for M01, and the Chao1 and Ace indexes were the largest for M02. Actinobacteria, Proteobacteria and Acidobacteria were the dominant bacteria with different land uses, and some bacteria were present or absent depending on the land use. It was found that the soil CO2 content was different with different land uses. Soil CO2 content, hydrochemistry and soil microbial species were related to each other. A heatmap analysis showed that the F− and soil CO2 content showed a strong correlation with soil microorganisms and that the dominant bacteria were positively correlated. Under different land uses, hydrochemistry, soil CO2 and soil microorganisms interact with one another.
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8

Khilchevskyi, V. K. "GENERALIZED LIST OF PUBLICATIONS IN THE SCIENTIFIC COLLECTION “HYDROLOGY, HYDROCHEMISTRY AND HYDROECOLOGY” FOR 2016-2020". Hydrology, hydrochemistry and hydroecology, n. 2 (57) (2020): 88–104. http://dx.doi.org/10.17721/2306-5680.2020.2.2.

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The list of publications in the scientific periodical collection “Hydrology, hydrochemistry and hydroecology” for 2016-2020 is given. The scientific collection “Hydrology, hydrochemistry and hydroecology” was founded in May 2000 at the Taras Shevchenko National University of Kiev. In 2009, the collection was registered with the Ministry of Justice of Ukraine. The last recertification at the Ministry of Education and Science of Ukraine was in 2016 – the collection is included in the list of specialized scientific publications of Ukraine in the field of “Geographical Sciences”.In the formation of the collection of articles are grouped into five main sections: general methodological aspects of research; hydrology, water resources; hydrochemistry, hydroecology; hydroecology, hydrobiology; geographical aspects of hydroecological research. For the years 2016-2020. The collection contains about 270 publications. In total for the period 2000-2020. in 56 issues, about 1410 publications were published.
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9

Zabokrytska, M. R. "FIRST IN UKRAINE “HYDROCHEMICAL DICTIONARY” WAS PUBLISHED (2022)". Hydrology, hydrochemistry and hydroecology, n. 1(63) (2022): 71–74. http://dx.doi.org/10.17721/2306-5680.2022.1.7.

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The article presents and analyzes the scientific reference publication – “Hydrochemical Dictionary”, published by the professor of the Kiev National Taras Shevchenko University V.K. Khilchevskyi in 2022. Hydrochemistry is a scientific discipline that studies the chemical composition of natural waters (surface, underground and marine) and the patterns of its change depending on chemical, physical and biological processes occurring in the environment and under the influence of anthropogenic factors. Hydrochemistry has its own object of study, a theoretical, methodological and methodological basis, which allows it to develop important scientific and practical issues. It is closely connected with hydrology, geology, oceanology, and hydrobiology. Being formed in the process of formation and further development, hydrochemistry is constantly enriched with new terms and concepts. Yes, since the early 2000s. hydrochemical and hydroecological terminology has been influenced by the Water Framework Directive (WFD) of the European Union due to the deepening of international scientific contacts and the implementation in Ukraine of the provisions of the WFD in regulatory documents. Since an ever wider range of specialists is involved in this area, the issues of unification of hydrochemical terminology are becoming important. This goal is dedicated to the “Hydrochemical Dictionary”, which is the first in Ukraine scientific reference publication of this direction. The Dictionary includes terms widely used in the scientific literature on hydrochemistry, as well as a number of terms in related scientific disciplines related to hydrochemistry (hydrology, geography, hydrogeology, hydrobiology, analytical, organic and physical chemistry, geochemistry, etc.), the EU WFD. The “Hydrochemical Dictionary” contains terms covering the following issues: properties and chemical composition of natural waters; processes of formation of the chemical composition of natural waters; methodology and methods of hydrochemical research and water analysis; processes of pollution and self-purification of water bodies; hydrobiological and microbiological processes in water bodies; water quality and integrated water resources management. The Dictionary contains about 830 terms and concepts listed in the subject index, which makes it easy to find the right terms on the corresponding pages. “Hydrochemical Dictionary” is designed for students of universities specializing in “Earth Sciences” of educational programs of the hydrological profile, studying hydrochemical and hydroecological disciplines; will be useful to specialists in the field of hydrochemistry, hydrology, hydroecology, hydrogeology, geography.
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10

Shesterkin, V. P. "HYDROCHEMISTRY OF THE TYRMA RIVER". Regional problems 24, n. 2-3 (2021): 47–51. http://dx.doi.org/10.31433/2618-9593-2021-24-2-3-47-51.

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The spatial-temporal dynamics of the dissolved substances content in the Tyrma River water and in its tributaries have been studied by the author. It was found great differences in the values of mineralization and concentrations of HCO3-, Ca2+, Mg2+ and Fe, due to natural conditions of the territory.
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11

Alimova, G. S., e A. Yu Tokareva. "HYDROCHEMISTRY OF THE IRIMNOYE LAKE". Успехи современного естествознания (Advances in Current Natural Sciences), n. 11 2018 (2018): 79–84. http://dx.doi.org/10.17513/use.36909.

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12

NAGAI, Shigeru. "Hydrochemistry of Well and Groundwater." Journal of the Japan Society of Engineering Geology 33, n. 4 (1992): 227–36. http://dx.doi.org/10.5110/jjseg.33.227.

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13

Grosheva, E. "Hydrochemistry of southern Lake Baikal". Aquatic Ecosystem Health and Management 3, n. 2 (1 luglio 2000): 211–13. http://dx.doi.org/10.1016/s1463-4988(00)00013-0.

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14

Lenahan, Matthew J., Keith L. Bristow e Patrice de Caritat. "Detecting induced correlations in hydrochemistry". Chemical Geology 284, n. 1-2 (maggio 2011): 182–92. http://dx.doi.org/10.1016/j.chemgeo.2011.02.018.

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15

Grosheva, E. I., R. P. Loseva, N. D. Sudakova e Y. S. Kusner. "Hydrochemistry of southern Lake Baikal". Aquatic Ecosystem Health & Management 3, n. 2 (gennaio 2000): 211–13. http://dx.doi.org/10.1080/14634980008657016.

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16

Zhou, Bing, Huiwei Wang e Qianqian Zhang. "Assessment of the Evolution of Groundwater Chemistry and Its Controlling Factors in the Huangshui River Basin of Northwestern China, Using Hydrochemistry and Multivariate Statistical Techniques". International Journal of Environmental Research and Public Health 18, n. 14 (15 luglio 2021): 7551. http://dx.doi.org/10.3390/ijerph18147551.

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Groundwater is an eco-environmental factor and critical resource required for human life and socioeconomic development. Understanding the evolution of groundwater chemistry and its controlling factors are imperative for preventing its deterioration and ensuring its sustainable use. We studied the characteristics of groundwater chemistry in the Huangshui River Basin in Qinghai Province, China using hydrochemical techniques. Additionally, we identified the controlling factors of groundwater chemistry in this region using multivariate statistical techniques. Seventeen hydrochemical parameters of groundwater were investigated at 156 sites in June 2019. The results showed that total hardness, Fe, NO3−, SO42−, and Cl− were primary pollution factors of groundwater in this region, and that 33.3%, 35.3%, 8.97%, 23.1%, and 7.69% of the samples exceeded Grade III standards for groundwater quality in China, respectively. Land use types also significantly affected groundwater hydrochemistry. The hydrochemical composition of groundwater in industrial areas is more strongly influenced by human activities. The major hydrochemical types identified in the region were HCO3-Ca·Mg and HCO3·SO4-Ca·Mg. Additionally, high proportions of SO4 (50.6%), Na (32.1%), and Cl (13.5%) groundwater types revealed the influence of anthropogenic activities on the groundwater hydrochemistry. Rock weathering was the major factor influencing the groundwater hydrochemistry, while evaporation–condensation and anthropogenic activities also influenced the hydrochemical characteristics of groundwater. The hydrochemical composition of groundwater was mainly controlled by silicate rock weathering. The main controlling factors of groundwater hydrochemistry were water–rock interactions, “physicochemical” factors (nature processes), domestic sewage, chemical fertilizer, and industrial sewage (human activities).
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17

Romanova, S., E. Tursunov, J. Dostay e N. Kazangapova. "Hydrochemistry river Ile and its tributaries". Chemical Bulletin of Kazakh National University, n. 4 (1 dicembre 2011): 183. http://dx.doi.org/10.15328/chemb_2011_4183-187.

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18

Marcy, A. D. "Hydrochemistry of an Inactive Uranium Mine". Journal American Society of Mining and Reclamation 1993, n. 1 (1993): 457–88. http://dx.doi.org/10.21000/jasmr93010457.

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19

Gomaah, Muhammad. "Hydrochemistry of Umm Er Radhuma Groundwater". Journal of Geoscience and Environment Protection 09, n. 04 (2021): 128–46. http://dx.doi.org/10.4236/gep.2021.94008.

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20

Shesterkin, V. P. "HYDROCHEMISTRY OF THE TYRMINSKY THERMAL SPRING". Regional problems 23, n. 1 (2020): 13–16. http://dx.doi.org/10.31433/2618-9593-2020-23-1-13-16.

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21

Bonetto, Carlos, Carlos Villar, Laura de Cabo e Panchabi Vaithiyanathan. "Hydrochemistry of a large floodplain river". SIL Proceedings, 1922-2010 26, n. 3 (marzo 1998): 899–902. http://dx.doi.org/10.1080/03680770.1995.11900848.

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22

Dozier, J., e M. Williams. "Hydrology and hydrochemistry of alpine basins". Eos, Transactions American Geophysical Union 73, n. 3 (1992): 33. http://dx.doi.org/10.1029/91eo00032.

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23

Salameh, Elias, e Omar Rimawi. "Hydrochemistry of precipitation of northern Jordan". International Journal of Environmental Studies 32, n. 2-3 (dicembre 1988): 203–16. http://dx.doi.org/10.1080/00207238808710461.

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24

Newson, Malcolm D. "Hydrology and hydrochemistry of British wetlands". Journal of Hydrology 191, n. 1-4 (aprile 1997): 368–69. http://dx.doi.org/10.1016/s0022-1694(97)89427-9.

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25

Hubbard, Bryn. "Book Review: Glacier hydrology and hydrochemistry". Progress in Physical Geography: Earth and Environment 25, n. 4 (dicembre 2001): 581–83. http://dx.doi.org/10.1177/030913330102500416.

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26

Nikanorov, A. M. "Some basic notions of theoretical hydrochemistry". Doklady Earth Sciences 429, n. 2 (dicembre 2009): 1559–61. http://dx.doi.org/10.1134/s1028334x0909030x.

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27

Loveland, P. J. "Hydrology and hydrochemistry of British wetlands". Journal of Contaminant Hydrology 23, n. 4 (agosto 1996): 362–63. http://dx.doi.org/10.1016/0169-7722(95)00002-x.

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28

Ascott, Matthew J., Marianne E. Stuart, Daren C. Gooddy, Ben P. Marchant, John C. Talbot, Ben W. J. Surridge e David A. Polya. "Provenance of drinking water revealed through compliance sampling". Environmental Science: Processes & Impacts 21, n. 6 (2019): 1052–64. http://dx.doi.org/10.1039/c8em00437d.

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29

Heydarizad, Mojtaba, Luis Gimeno, Somayeh Amiri, Masoud Minaei e Hamid Ghalibaf Mohammadabadi. "A Comprehensive Overview of the Hydrochemical Characteristics of Precipitation across the Middle East". Water 14, n. 17 (28 agosto 2022): 2657. http://dx.doi.org/10.3390/w14172657.

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The Middle East is located in a semiarid and arid region and is faced with an intense water shortage crisis. Therefore, studying the hydrochemical characteristics of precipitation as a main part of the water cycle has great importance in this region. The hydrochemical analyses showed that the quality of precipitation was mainly affected by dust particles originating from terrestrial environments, while marine and anthropogenic sources had a minor role. The statistical studies showed that the dissolution of evaporative and carbonate minerals mainly controlled the hydrochemistry of precipitation. Precipitation had an acidic nature in some stations and a nonacidic nature in others. Ca2+ was the major acid-neutralizing cation in the Middle East precipitation. Various machine learning methods were also used to simulate the TDS values in precipitation. The accuracy of the developed models was validated, showing that the model developed by the Gboost method was more accurate than those developed by other machine learning techniques due to its higher R2 values. To conclude, the hydrochemistry of precipitation showed significant variations across the Middle East. The dissolution of particles with terrestrial origins dominantly controlled the hydrochemistry of precipitation, while marine and anthropogenic sources had minor roles.
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Mętrak, Monika, Paweł Pawlikowski e Małgorzata Suska-Malawska. "Age and Land Use as Factors Differentiating Hydrochemistry and Plant Cover of Astatic Ponds in Post-Agricultural Landscape". Journal of Water and Land Development 21, n. 1 (29 luglio 2014): 29–37. http://dx.doi.org/10.2478/jwld-2014-0011.

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Abstract Small, astatic ponds are important features of post-glacial landscape, which support heterogeneity and biodiversity of agricultural areas. In the presented research we explored differences in hydrochemistry and plant cover of 20 small ponds located in Northeastern Poland, characterized by diverse age and developed in differently managed areas. According to our research, though changes in water level are under direct influence of water balance in the catchment, to which belonged the ponds, their hydrochemistry seemed to be shaped by processes at the level lower than the catchment scale. Age of the ponds appeared to be an important factor influencing density and species composition of vegetation developed on the studied ponds.
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Wang, Wanrui, Yapeng Chen, Weihua Wang, Yuhai Yang, Yifeng Hou, Shuai Zhang e Ziyang Zhu. "Assessing the Influences of Land Use Change on Groundwater Hydrochemistry in an Oasis-Desert Region of Central Asia". Water 14, n. 4 (19 febbraio 2022): 651. http://dx.doi.org/10.3390/w14040651.

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Land use change greatly affects groundwater hydrochemical cycling and thereby food and ecosystem security in arid regions. Spatiotemporal distribution of groundwater hydrochemistry is vital to understand groundwater water-salt migration processes in the context of land use change, while it is not well known in the oasis-desert region of arid inland basins. Here, to investigate the influences of land use change on groundwater hydrochemistry and suggest sustainable management, 67 water samples were obtained in the Luntai Oasis, a typical oasis desert of Central Asia. Stable isotopes and chemical components of samples were analyzed. Piper and Gibbs plots were used to elaborate the chemical type and major mechanisms controlling water chemistry, respectively. The results showed that cultivated land area has markedly expanded in the Luntai Oasis over the last 20 years (increasing by 121.8%). Groundwater seasonal dynamics and groundwater–surface water interaction were altered dramatically by farmland expansion and groundwater exploitation. Specifically, the spatial heterogeneity and seasonal variability of groundwater hydrochemistry were significant. Compared with the desert area, the δ18O and TDS of river water and shallow groundwater in the oasis cropland exhibited lower values but greater seasonal variation. Higher TDS was observed in autumn for river water, and in spring for shallow groundwater. The chemical evolution of phreatic water was mainly controlled by the evaporation-crystallization process and rock dominance, with a chemical type of Cl-SO4-Na-Mg. Significant spatiotemporal heterogeneity of groundwater hydrochemistry demonstrated the influence of climatic, hydrogeological, land use, and anthropogenic conditions. Groundwater overexploitation would cause phreatic water leakage into confined water, promoting groundwater quality deterioration due to fresh saltwater mixing. Improving agricultural drainage ditches in conjunction with restricting farmland expansion and groundwater extraction is an effective way to alleviate groundwater environment deterioration and maintain oasis-desert ecosystems in arid regions.
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Zabokrytska, M. R. "“REGIONAL HYDROCHEMISTRY OF UKRAINE” (2019) – A MODERN TEXTBOOK ON THE STUDY OF THE CHEMICAL COMPOSITION OF SURFACE, GROUNDWATER AND SEA WATERS IN THE COUNTRY". Hydrology, hydrochemistry and hydroecology, n. 4 (55) (2019): 164–73. http://dx.doi.org/10.17721/2306-5680.2019.4.14.

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The article reviewed and analyzed the textbook “Regional Hydrochemistry of Ukraine” (authors V.K. Khilchevskyi, V.I. Osadchyi, S.M. Kurylo), published in 2019. The textbook comprehensively summarizes and covers materials on the hydrochemistry of precipitation, rivers, lakes, reservoirs and ponds, underground and sea waters in Ukraine. The authors used the latest results of studies of the chemical composition of water of various water bodies in the country, applied the hydrochemical characteristics of the river basin districts according to the modern hydrographic zoning of Ukraine (2016), which takes into account the requirements of the European Union Water Framework Directive (WFD 2000/60/EC). A feature of the textbook is that the authors were largely based on the materials of their own studies of the chemical composition of surface waters. They also systematized and generalized the monographic works of leading Ukrainian scientists, in different years (from the 1950s to the present day) they studied fundamental and applied issues of hydrochemistry of surface, underground and sea waters. The structure of the textbook consists of a preface, 11 sections, applications and a list of references. The textbook is intended for students of the specialty “Earth Sciences”, studying in educational programs of hydrological, hydroecological and hydrogeological profile. It may be useful for students of the specialty “Geography”, students in educational programs of a physical-geographical and geo-ecological profile.
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Saidasheva, EM, e Т. R. Biktimirov. "MORPHOMETRY OF KIDNEY KNIFES IN EXPERIMENTAL HYDROCHEMISTRY". SCIENTIFIC MEDICAL BULLETIN OF UGRA 11, n. 1 (15 maggio 2017): 48–49. http://dx.doi.org/10.25017/2306-1367-2017-11-1-48-49.

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Lucio, Maria Zita Tabosa Pinheiro de Queiroz Lima, Simone Setúbal dos Santos e Daniela Mariano Lopes da Silva. "Hydrochemistry of Cachoeira River (Bahia State, Brazil)". Acta Limnologica Brasiliensia 24, n. 2 (30 ottobre 2012): 181–92. http://dx.doi.org/10.1590/s2179-975x2012005000037.

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AIM: The aim of this study is to evaluate the spatial-temporal changes of chemical elements in the surface waters of the Cachoeira River in order to evaluate the impacts of anthropogenic activities in water quality; METHODS: Samples were collected monthly between August 2008 and August 2009 at six collection points along the river. The abiotic parameters dissolved oxygen, pH, electrical conductivity and temperature were performed in the field using portable digital meters; concentration of ions nitrite (NO2-), nitrate (NO3-), ammonia (NH4+), phosphate (PO4-), sodium (Na+), calcium (Ca+2), potassium (K+), chloride (Cl-), magnesium (Mg+2), sulfate (SO4-2) were determined by ion chromatography and bicarbonate (HCO3-) was calculated by a model of ionic associations originated from alkalinity values; RESULTS: The spatial variations showed that anthropogenic activities and land use changes (cocoa crops and pasture) appear to be the major factors influencing the distribution of nutrients in the Cachoeira River; however, lithology seems to be the factor influencing the major ions; CONCLUSIONS: Variations in ion concentrations were directly related to drought and rainy periods, the geological formation, and the various land uses. The lack of treatment of domestic wastes and their incorrect disposal in water bodies has significantly contributed to the aggravation of environmental problems and consequently the health of the population.
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De Villiers, S. "The hydrochemistry of rivers in KwaZulu-Natal". Water SA 31, n. 2 (5 dicembre 2007): 193. http://dx.doi.org/10.4314/wsa.v31i2.5202.

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Neame, P. A. "Hydrochemistry of the Lower Solo River, Indonesia". SIL Proceedings, 1922-2010 23, n. 3 (ottobre 1988): 1372–79. http://dx.doi.org/10.1080/03680770.1987.11898024.

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37

Jacks, G., e A.-C. Norrström. "Hydrochemistry and hydrology of forest riparian wetlands". Forest Ecology and Management 196, n. 2-3 (luglio 2004): 187–97. http://dx.doi.org/10.1016/j.foreco.2004.01.055.

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Kemmers, R. H., e P. C. Jansen. "Hydrochemistry of rich fen and water management". Agricultural Water Management 14, n. 1-4 (agosto 1988): 399–411. http://dx.doi.org/10.1016/0378-3774(88)90093-5.

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39

Tan, Teong Hing. "Hydrochemistry of groundwater at Sabahat region, Sabah". Bulletin of the Geological Society of Malaysia 38 (30 dicembre 1995): 63–70. http://dx.doi.org/10.7186/bgsm38199506.

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40

Liu, Zaihua, Chris Groves, Daoxian Yuan e Joe Meiman. "South China Karst Aquifer Storm-Scale Hydrochemistry". Ground Water 42, n. 4 (luglio 2004): 491–99. http://dx.doi.org/10.1111/j.1745-6584.2004.tb02617.x.

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41

Reimer, Andreas, Günter Landmann e Stephan Kempe. "Lake Van, Eastern Anatolia, Hydrochemistry and History". Aquatic Geochemistry 15, n. 1-2 (18 dicembre 2008): 195–222. http://dx.doi.org/10.1007/s10498-008-9049-9.

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42

Fan, Zhe Chao, e Jun Sun. "Applying the Method of Fuzzy Clustering to Study Leakage from Dyke". Advanced Materials Research 594-597 (novembre 2012): 1945–49. http://dx.doi.org/10.4028/www.scientific.net/amr.594-597.1945.

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Abstract (sommario):
Applying the methods of stable isotopes and hydrochemistry to study the leakage from dyke is an effective way. But men only qualitatively analyzed and judged the problem. The authors attempted to perform the analysis of fuzzy clustering by applying the method of fuzzy clustering that stable isotopes and hydrochemistry values of 22 water samples were taken as index characteristic values and endued different weightings, combining some dyke. The clustering result showed that there was strong correlation in the data of stable isotopes, Cl- and TDS among the water samples of T12 borehole, gushing water 5m north of T9 borehole, river water and the effluent of drainage ditch north of T9 borehole. It is a proof to judge the leakage path that the water samples may has the same replenishment source.
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43

Listiyani R.A., T. "HYDROCHEMISTRY OF GROUNDWATER IN GEYER, GROBOGAN PROVINCE, CENTRAL JAVA". KURVATEK 1, n. 2 (23 maggio 2017): 13–19. http://dx.doi.org/10.33579/krvtk.v1i2.230.

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The demand of clean water as well as good quality of drinking water in research area puss the author for knowing about groundwater quality in research area. The aim of the research is to understand the hydrochemistry of groundwater in study area, includinghydrochemical processes and the influence of minerals or rocks to groundwater quality. The methods in the research are groundwater and rocks sampling, petrography and also groundwater’s chemical analysis.Result of this study shows that groundwater quality in Geyer area is influenced by minerals and rocks in that place with dissolution and ions exchange would be important processes. Minerals which composed rocks are dominated by calcareous and clay minerals. These minerals supply chemical components such as Ca2+, Mg2+, Na+, Cl-, carbonate and bicarbonate to groundwater. Key words: hydrochemistry, groundwater, hydrochemical process, major ion.
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44

Fan, Zhe Chao. "Applying the Methods of Environmental Isotopes and Fuzzy Clustering to Study the Leakage from Embankment". Applied Mechanics and Materials 90-93 (settembre 2011): 2691–95. http://dx.doi.org/10.4028/www.scientific.net/amm.90-93.2691.

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Several typical sections of some embankment were studied by the method of environmental isotopes in the paper. The leakage sources of groundwater were ascertained. The result showed that the groundwater of No.1 borehole at Jiangdu dockyard, No.23 borehole at Xiaocaitan section and No.29 borehole at Lianmengzhuang dock was recharged by river water, the water of Heiyutang pond near No.5 borehole was recharged by the local precipitation or groundwater forming by recent precipitation, and the groundwater of No.7 borehole at Wanshougong section was the mixture of river water and local precipitation. Then the analysis of fuzzy clustering was performed by applying fuzzy clustering method that environmental isotopes and hydrochemistry values were taken as index characteristic values and endued different weights. The quantitative analysis result was in agreement with the conclusion qualitatively judged by environmental isotopes and hydrochemistry.
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45

Fengjuan, Zhang, Xing Liting, Wang Song, Zhuang Huibo, Dou Tongwen e Yang Zengyuan. "Research on Formation Mechanism of Jiyang Shallow Saline Ground Water". Open Chemical Engineering Journal 9, n. 1 (10 novembre 2015): 155–60. http://dx.doi.org/10.2174/1874123101509010155.

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Abstract (sommario):
Shallow salt water in the inland plain has huge development potential. Taking saline water area in Sungeng Town, Jiyang County as an example, based on field water quality and water table tests., tracing test, methods such as mathematical statistical, hydrochemistry diagram of piper and numerical simulation by PHREEQC are used to analyze synthetically. 6862 groups data were studied. Results showed: (1) The groundwater presents typically “weather - evaporation” type, chemistry type is Cl.SO4-Mg.Na. and Cl.SO4-Na.Mg type. (2) In area of inland saline water presents characteristics of lagging water flow with high clay content in aquifer medium. Groundwater mineralization is obvious. (3) Hydrogeochemistry actions such as evaporation, alternate adsorption and water-rock interaction are the primary cause of the forming complex hydrochemistry type. The unique groundwater circulation characteristics of inland plains saltwater area makes water dynamic being relatively stable.
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Wiśnios, Magdalena, Włodzimierz Kanownik e Andrzej Bogdał. "Hydrochemistry of springs in the Ojcow National Park". Acta Scientiarum Polonorum Formatio Circumiectus 14, n. 3 (2015): 205–17. http://dx.doi.org/10.15576/asp.fc/2015.14.3.205.

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47

Van der Weijden, Cornelis H., e Fernando A. L. Pacheco. "Hydrochemistry, weathering and weathering rates on Madeira island". Journal of Hydrology 283, n. 1-4 (dicembre 2003): 122–45. http://dx.doi.org/10.1016/s0022-1694(03)00245-2.

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48

Alderwish, Ahmed M., e Hafidah A. Almatary. "Hydrochemistry and thermal activity of damt region, Yemen". Environmental Earth Sciences 65, n. 7 (27 luglio 2011): 2111–24. http://dx.doi.org/10.1007/s12665-011-1192-8.

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49

Yadav, Ankit, Abhishek Nanda, Bharat Lal Sahu, Yaman Kumar Sahu, Khageshwar Singh Patel, Shamsh Pervez, Mohammad Shahid Gulgundi, José A. Cuchí-Oterino, Pablo Martín-Ramos e Prosun Bhattacharya. "Groundwater hydrochemistry of Rajnandgaon district, Chhattisgarh, Central India". Groundwater for Sustainable Development 11 (ottobre 2020): 100352. http://dx.doi.org/10.1016/j.gsd.2020.100352.

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50

Muscutt, A. D., H. S. Wheater e B. Reynolds. "Stormflow hydrochemistry of a small Welsh upland catchment". Journal of Hydrology 116, n. 1-4 (agosto 1990): 239–49. http://dx.doi.org/10.1016/0022-1694(90)90125-h.

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