Submarine groundwater discharge drives coastal water quality and nutrient budgets at small and large scales

•Location of polluted nearshore waters coincided with SGD hotspots on a local scale.•SGD-driven nutrients were one order of magnitude higher than riverine inputs in China.•Nutrients via SGD contributed >50% of the total sources to Chinese coastal waters.•SGD influences coastal water quality and n...

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Published inGeochimica et cosmochimica acta Vol. 290; pp. 201 - 215
Main Authors Zhang, Yan, Santos, Isaac R., Li, Hailong, Wang, Qianqian, Xiao, Kai, Guo, Huaming, Wang, Xuejing
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2020
Subjects
Ecology
Ekologi
Nutrient budgets
Primary production
Submarine groundwater discharge (SGD)
Water quality
Submarine groundwater discharge (SGD)
Water quality
Nutrient budgets
Primary production
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Abstract •Location of polluted nearshore waters coincided with SGD hotspots on a local scale.•SGD-driven nutrients were one order of magnitude higher than riverine inputs in China.•Nutrients via SGD contributed >50% of the total sources to Chinese coastal waters.•SGD influences coastal water quality and nutrient budgets at small and large scales. Submarine groundwater discharge (SGD) can be a significant source of chemical pollutants from land to ocean. Here, we first estimated SGD using radium isotopes and related nutrient fluxes at the local scale in Jiaozhou Bay (JZB), a typical Chinese system that is experiencing rapid urban and industrial development. We then summarized SGD studies off China to assess the large-scale implications of SGD to nutrient budgets. In JZB, the location of contaminated nearshore waters revealed by an integrative water quality index (WQI) coincided with the SGD hotspots. The total (fresh and saline) SGD flux in JZB was estimated to be (0.64–1.67) × 107 m3/d or (2.12–5.59) cm/d based on 224Ra and 228Ra mass balance models. This was approximately 8 times the discharge rate of local rivers. By combining these JZB results with the literature data, we provide the first estimate of SGD and associated nutrient fluxes off China. The magnitude of SGD at the China-scale was (5.40–10.2) × 1012 m3/yr, accounting for 5–9% of the global SGD flux. SGD-derived nutrient fluxes summarized from ∼40 previous studies were one order of magnitude higher than riverine inputs. These nutrients fluxes from SGD contributed >50% of the total dissolved inorganic nitrogen (DIN), phosphorous (DIP) and silicate (DSi) inputs into Chinese coastal waters, which can explain about 60% of the phosphorus required by primary production. The mean DIN/DIP ratio (121) in SGD was significantly higher than the Redfield ratio, with important implications for phytoplankton growth and structure. SGD can influence water quality, dominate nutrient budgets, and drive primary production not only at the local scale, but also at the regional and global scales.
AbstractList Submarine groundwater discharge (SGD) can be a significant source of chemical pollutants from land to ocean. Here, we first estimated SGD using radium isotopes and related nutrient fluxes at the local scale in Jiaozhou Bay (JZB), a typical Chinese system that is experiencing rapid urban and industrial development. We then summarized SGDstudies off China to assess the largescale implications of SGD to nutrient budgets. In JZB, the location of contaminated nearshore waters revealed by an integrative water quality index (WQI) coincided with the SGD hotspots. The total (fresh and saline) SGD flux in JZB was estimated to be (0.64-1.67) x 10(7) m(3)/d or (2.12-5.59) cm/d based on Ra-224 and Ra-228 mass balance models. This was approximately 8 times the discharge rate of local rivers. By combining these JZB results with the literature data, we provide the first estimate of SGD and associated nutrient fluxes off China. The magnitude of SGD at the China-scale was (5.40-10.2) x 10(12) m(3)/yr, accounting for 59% of the global SGD flux. SGD-derived nutrient fluxes summarized from similar to 40 previous studies were one order of magnitude higher than riverine inputs. These nutrients fluxes from SGD contributed >50% of the total dissolved inorganic nitrogen (DIN), phosphorous (DIP) and silicate (DSi) inputs into Chinese coastal waters, which can explain about 60% of the phosphorus required by primary production. The mean DIN/DIP ratio (121) in SGD was significantly higher than the Redfield ratio, with important implications for phytoplankton growth and structure. SGD can influence water quality, dominate nutrient budgets, and drive primary production not only at the local scale, but also at the regional and global scales.
•Location of polluted nearshore waters coincided with SGD hotspots on a local scale.•SGD-driven nutrients were one order of magnitude higher than riverine inputs in China.•Nutrients via SGD contributed >50% of the total sources to Chinese coastal waters.•SGD influences coastal water quality and nutrient budgets at small and large scales. Submarine groundwater discharge (SGD) can be a significant source of chemical pollutants from land to ocean. Here, we first estimated SGD using radium isotopes and related nutrient fluxes at the local scale in Jiaozhou Bay (JZB), a typical Chinese system that is experiencing rapid urban and industrial development. We then summarized SGD studies off China to assess the large-scale implications of SGD to nutrient budgets. In JZB, the location of contaminated nearshore waters revealed by an integrative water quality index (WQI) coincided with the SGD hotspots. The total (fresh and saline) SGD flux in JZB was estimated to be (0.64–1.67) × 107 m3/d or (2.12–5.59) cm/d based on 224Ra and 228Ra mass balance models. This was approximately 8 times the discharge rate of local rivers. By combining these JZB results with the literature data, we provide the first estimate of SGD and associated nutrient fluxes off China. The magnitude of SGD at the China-scale was (5.40–10.2) × 1012 m3/yr, accounting for 5–9% of the global SGD flux. SGD-derived nutrient fluxes summarized from ∼40 previous studies were one order of magnitude higher than riverine inputs. These nutrients fluxes from SGD contributed >50% of the total dissolved inorganic nitrogen (DIN), phosphorous (DIP) and silicate (DSi) inputs into Chinese coastal waters, which can explain about 60% of the phosphorus required by primary production. The mean DIN/DIP ratio (121) in SGD was significantly higher than the Redfield ratio, with important implications for phytoplankton growth and structure. SGD can influence water quality, dominate nutrient budgets, and drive primary production not only at the local scale, but also at the regional and global scales.
Author Wang, Qianqian
Xiao, Kai
Wang, Xuejing
Li, Hailong
Santos, Isaac R.
Guo, Huaming
Zhang, Yan
Author_xml – sequence: 1
  givenname: Yan
  surname: Zhang
  fullname: Zhang, Yan
  organization: MOE Key Laboratory of Groundwater Circulation and Environment Evolution and School of Water Resources and Environment, China University of Geosciences (Beijing), Beijing 100083, China
– sequence: 2
  givenname: Isaac R.
  orcidid: 0000-0003-0524-842X
  surname: Santos
  fullname: Santos, Isaac R.
  organization: Department of Marine Sciences, University of Gothenburg, Gothenburg, Sweden
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  givenname: Hailong
  orcidid: 0000-0002-4225-7782
  surname: Li
  fullname: Li, Hailong
  email: hailongli@cugb.edu.cn
  organization: State Key Laboratory of Biogeology and Environmental Geology, China University of Geosciences (Beijing), Beijing 100083, China
– sequence: 4
  givenname: Qianqian
  surname: Wang
  fullname: Wang, Qianqian
  organization: Guangdong Provincial Key Laboratory of Soil and Groundwater Pollution Control, School of Environmental Science and Engineering, Southern University of Science and Technology, Shenzhen 518055, China
– sequence: 5
  givenname: Kai
  surname: Xiao
  fullname: Xiao, Kai
  organization: Guangdong Provincial Key Laboratory of Soil and Groundwater Pollution Control, School of Environmental Science and Engineering, Southern University of Science and Technology, Shenzhen 518055, China
– sequence: 6
  givenname: Huaming
  orcidid: 0000-0002-4408-8775
  surname: Guo
  fullname: Guo, Huaming
  organization: MOE Key Laboratory of Groundwater Circulation and Environment Evolution and School of Water Resources and Environment, China University of Geosciences (Beijing), Beijing 100083, China
– sequence: 7
  givenname: Xuejing
  surname: Wang
  fullname: Wang, Xuejing
  email: wangxj3@sustech.edu.cn
  organization: Guangdong Provincial Key Laboratory of Soil and Groundwater Pollution Control, School of Environmental Science and Engineering, Southern University of Science and Technology, Shenzhen 518055, China
BackLink https://gup.ub.gu.se/publication/298060$$DView record from Swedish Publication Index
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Keywords Submarine groundwater discharge (SGD)
Water quality
Nutrient budgets
Primary production
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Snippet •Location of polluted nearshore waters coincided with SGD hotspots on a local scale.•SGD-driven nutrients were one order of magnitude higher than riverine...
Submarine groundwater discharge (SGD) can be a significant source of chemical pollutants from land to ocean. Here, we first estimated SGD using radium isotopes...
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Enrichment Source
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SubjectTerms Ecology
Ekologi
Nutrient budgets
Primary production
Submarine groundwater discharge (SGD)
Water quality
Title Submarine groundwater discharge drives coastal water quality and nutrient budgets at small and large scales
URI https://dx.doi.org/10.1016/j.gca.2020.08.026
https://gup.ub.gu.se/publication/298060
Volume 290
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