Hydrogeochemical processes occurring in the hydrothermal systems of the Gonghe–Guide basin, northwestern China: critical insights from a principal components analysis (PCA)

Hydrogeochemical processes occurring in the hydrothermal systems of the Gonghe–Guide basin, northwestern China: critical insights from a principal components analysis (PCA)

The Gonghe–Guide basin is a geologically complex area located in the northeastern Qinghai–Tibet Plateau. Although it is far away from the Himalayan geothermal belt, hot springs with high contents of SiO 2 , Li, B and As are widely distributed there. Principal components analysis (PCA) was used to id...

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Veröffentlicht in:Environmental earth sciences 2016-08, Vol.75 (16), p.1, Article 1187
Hauptverfasser: Zhang, Xiaobo, Guo, Qinghai, Liu, Mingliang, Luo, Jin, Yin, Zuowei, Zhang, Canhai, Zhu, Mingcheng, Guo, Wei, Li, Jiexiang, Zhou, Chao
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Anthropogenic factors
Arsenic
Basins
Biogeosciences
Boron
Crystalline rocks
Earth and Environmental Science
Earth Sciences
Environmental Science and Engineering
Geochemistry
Geology
Hot springs
Hydrologic sciences
Hydrology/Water Resources
Leaching
Original Article
Principal components analysis
Strontium
Sulfates
Terrestrial Pollution
Thermal energy
Water analysis
Water sampling
Water springs
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container_end_page
container_issue 16
container_start_page 1
container_title Environmental earth sciences
container_volume 75
creator Zhang, Xiaobo
Guo, Qinghai
Liu, Mingliang
Luo, Jin
Yin, Zuowei
Zhang, Canhai
Zhu, Mingcheng
Guo, Wei
Li, Jiexiang
Zhou, Chao
description The Gonghe–Guide basin is a geologically complex area located in the northeastern Qinghai–Tibet Plateau. Although it is far away from the Himalayan geothermal belt, hot springs with high contents of SiO 2 , Li, B and As are widely distributed there. Principal components analysis (PCA) was used to identify the geochemical genesis of the major constituents in geothermal waters and cold groundwaters from the study areas as well as the related hydrogeochemical processes. The results indicate that these constituents can be represented by six factors: factor 1 (F − , Li + , K + and SiO 2 ), factor 2 (EC, Cl − and Na + ), factor 3 (pH HCO 3 - , Mg 2+ and Ca 2+ ), factor 4 (B, As, Fe and Al), factor 5 ( SO 4 2 - and Sr) and factor 6 ( NO 3 - ). Generally, the dissolution of silicate and carbonate minerals is the predominant geochemical processes responsible for the occurrence of the constituents that constitute factors 1 and 3, respectively. In contrast, although halite is not a primary mineral in the aquifer matrix, its leaching results in the enrichment of chloride and sodium in the groundwaters, which make significant contributions to the high EC values of some water samples. Although arsenic and boron are associated with factor 4, elevated levels of these elements in groundwater may be derived from the leaching of crystalline rocks (like granite and gneiss) rather than the input of potential magmatic fluids. Moreover, anthropogenic activity has an impact on the hydrochemistry of the groundwaters as well, as indicated by the elevated concentrations of nitrate (the sole component of factor 6) in some samples. It is also worth noting that the PCA results may not match well with the hydrogeochemical analyses. Factor 5 is composed of sulfate and strontium, whereas celestite is unlikely to be the primary source of sulfate in groundwater.
doi_str_mv 10.1007/s12665-016-5991-9
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Although it is far away from the Himalayan geothermal belt, hot springs with high contents of SiO 2 , Li, B and As are widely distributed there. Principal components analysis (PCA) was used to identify the geochemical genesis of the major constituents in geothermal waters and cold groundwaters from the study areas as well as the related hydrogeochemical processes. The results indicate that these constituents can be represented by six factors: factor 1 (F − , Li + , K + and SiO 2 ), factor 2 (EC, Cl − and Na + ), factor 3 (pH HCO 3 - , Mg 2+ and Ca 2+ ), factor 4 (B, As, Fe and Al), factor 5 ( SO 4 2 - and Sr) and factor 6 ( NO 3 - ). Generally, the dissolution of silicate and carbonate minerals is the predominant geochemical processes responsible for the occurrence of the constituents that constitute factors 1 and 3, respectively. In contrast, although halite is not a primary mineral in the aquifer matrix, its leaching results in the enrichment of chloride and sodium in the groundwaters, which make significant contributions to the high EC values of some water samples. Although arsenic and boron are associated with factor 4, elevated levels of these elements in groundwater may be derived from the leaching of crystalline rocks (like granite and gneiss) rather than the input of potential magmatic fluids. Moreover, anthropogenic activity has an impact on the hydrochemistry of the groundwaters as well, as indicated by the elevated concentrations of nitrate (the sole component of factor 6) in some samples. It is also worth noting that the PCA results may not match well with the hydrogeochemical analyses. 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Although it is far away from the Himalayan geothermal belt, hot springs with high contents of SiO 2 , Li, B and As are widely distributed there. Principal components analysis (PCA) was used to identify the geochemical genesis of the major constituents in geothermal waters and cold groundwaters from the study areas as well as the related hydrogeochemical processes. The results indicate that these constituents can be represented by six factors: factor 1 (F − , Li + , K + and SiO 2 ), factor 2 (EC, Cl − and Na + ), factor 3 (pH HCO 3 - , Mg 2+ and Ca 2+ ), factor 4 (B, As, Fe and Al), factor 5 ( SO 4 2 - and Sr) and factor 6 ( NO 3 - ). Generally, the dissolution of silicate and carbonate minerals is the predominant geochemical processes responsible for the occurrence of the constituents that constitute factors 1 and 3, respectively. 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Although it is far away from the Himalayan geothermal belt, hot springs with high contents of SiO 2 , Li, B and As are widely distributed there. Principal components analysis (PCA) was used to identify the geochemical genesis of the major constituents in geothermal waters and cold groundwaters from the study areas as well as the related hydrogeochemical processes. The results indicate that these constituents can be represented by six factors: factor 1 (F − , Li + , K + and SiO 2 ), factor 2 (EC, Cl − and Na + ), factor 3 (pH HCO 3 - , Mg 2+ and Ca 2+ ), factor 4 (B, As, Fe and Al), factor 5 ( SO 4 2 - and Sr) and factor 6 ( NO 3 - ). Generally, the dissolution of silicate and carbonate minerals is the predominant geochemical processes responsible for the occurrence of the constituents that constitute factors 1 and 3, respectively. In contrast, although halite is not a primary mineral in the aquifer matrix, its leaching results in the enrichment of chloride and sodium in the groundwaters, which make significant contributions to the high EC values of some water samples. Although arsenic and boron are associated with factor 4, elevated levels of these elements in groundwater may be derived from the leaching of crystalline rocks (like granite and gneiss) rather than the input of potential magmatic fluids. Moreover, anthropogenic activity has an impact on the hydrochemistry of the groundwaters as well, as indicated by the elevated concentrations of nitrate (the sole component of factor 6) in some samples. It is also worth noting that the PCA results may not match well with the hydrogeochemical analyses. Factor 5 is composed of sulfate and strontium, whereas celestite is unlikely to be the primary source of sulfate in groundwater.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><doi>10.1007/s12665-016-5991-9</doi></addata></record>
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subjects Anthropogenic factors
Arsenic
Basins
Biogeosciences
Boron
Crystalline rocks
Earth and Environmental Science
Earth Sciences
Environmental Science and Engineering
Geochemistry
Geology
Hot springs
Hydrologic sciences
Hydrology/Water Resources
Leaching
Original Article
Principal components analysis
Strontium
Sulfates
Terrestrial Pollution
Thermal energy
Water analysis
Water sampling
Water springs
title Hydrogeochemical processes occurring in the hydrothermal systems of the Gonghe–Guide basin, northwestern China: critical insights from a principal components analysis (PCA)
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