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| Author |
Park, H.; Schlesinger, W. |
| Title |
Global biochemical cycle of boron |
Type |
Journal Article |
| Year |
2002 |
Publication  |
Global Biogeochemical Cycles |
Abbreviated Journal |
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| Volume |
16 |
Issue |
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Pages |
1072 |
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| Abstract |
The global Boron (B) cycle is primarily driven by a large flux (1.44 Tg B/yr) through the atmosphere derived from seasalt aerosols. Other significant sources of atmospheric boron include emissions during the combustion of biomass (0.26-0.43 Tg B/yr) and coal, which adds 0.20 Tg B/yr as an anthropogenic contribution. These known inputs to the atmosphere cannot account for the boron removed from the atmosphere during rainfall (3.0 Tg B/yr) and estimated dry deposition (1.3-2.7 Tg B/yr). In addition to atmospheric deposition, rock weathering is a source of boron (0.19 Tg B/yr) for terrestrial ecosystems, and humans mine about 0.31 Tg B/yr from the Earth's crust. More than 4.8 Tg B/yr circulates in the biogeochemical cycle of land plants, and about 0.53-0.63 Tg B/yr is carried from land to sea by rivers. The biogeochemical cycle of boron in the sea includes 4.4 Tg B/yr circulating in the marine biosphere, and an annual loss of 0.47 Tg B/yr to the oceanic crust via a variety of sedimentary processes that collectively remove only a small fraction of the total annual inputs to the oceans. Thus with our current understanding of the global biogeochemistry of B, the atmospheric budget shows outputs > inputs, while the marine compartments show inputs > outputs. Despite these uncertainties, it is clear that the human perturbation of the global B cycle has more than doubled the mobilization of B from the crust and contributes significantly to the B transport in rivers. |
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THL @ luqianxue.zhang @ article |
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94 |
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| Author |
Castrignanò, A.; Buttafuoco, G.; Giasi, C. |
| Title |
Assessment of groundwater salinisation risk using multivariate geostatistics |
Type |
Book Chapter |
| Year |
2008 |
Publication |
geoENV VI – Geostatistics for Environmental Applications |
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15 |
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191-202 |
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Springer, Dordrecht |
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A., S.; M.J., P.; R., D. |
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CUT @ phaedon.kyriakidis @ Castrignano2008 |
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119 |
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| Author |
Oehler, T.; Tamborski, J.; Rahman, S.; Moosdorf, N.; Ahrens, J.; Mori, C.; Neuholz, R.Ã.©; Schnetger, B.; Beck, M. |
| Title |
DSi as a Tracer for Submarine Groundwater Discharge |
Type |
Journal Article |
| Year |
2019 |
Publication |
Frontiers in Marine Science |
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6 |
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563 |
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Submarine groundwater discharge (SGD) is an important source of nutrients and metals to the coastal ocean, affects coastal ecosystems, and is gaining recognition as a relevant water resource. SGD is usually quantified using geochemical tracers such as radon or radium. However, a few studies have also used dissolved silicon (DSi) as a tracer for SGD, as DSi is usually enriched in groundwater when compared to surface waters. In this study, we discuss the potential of DSi as a tracer in SGD studies based on a literature review and two case studies from contrasting environments. In the first case study, DSi is used to calculate SGD fluxes in a tropical volcanic-carbonate karstic region (southern Java, Indonesia), where SGD is dominated by terrestrial groundwater discharge. The second case study discusses DSi as a tracer for marine SGD (i.e., recirculated seawater) in the tidal flat area of Spiekeroog (southern North Sea), where SGD is dominantly driven by tidal pumping through beach sands. Our results indicate that DSi is a useful tracer for SGD in various lithologies (e.g., karstic, volcanic, complex) to quantify terrestrial and marine SGD fluxes. DSi can also be used to trace groundwater transport processes in the sediment and the coastal aquifer. Care has to be taken that all sources and sinks of DSi are known and can be quantified or neglected. One major limitation is that DSi is used by siliceous phytoplankton and therefore limits its applicability to times of the year when primary production of siliceous phytoplankton is low. In general, DSi is a powerful tracer for SGD in many environments. We recommend that DSi should be used to complement other conventionally used tracers, such as radon or radium, to help account for their own shortcomings. |
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2296-7745 |
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THL @ christoph.kuells @ Oehler2019 |
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192 |
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| Author |
Richter, B. C.; Kreidler, C.W. |
| Title |
Identification of Sources of Groundwater Salinization using Geochemical Techniques |
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Journal Article |
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1991 |
Publication |
EPA/600/2-91/064 |
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259 |
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Geochemistry, USA, isotopes, salinization, ground water |
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Bureau of Economic Geology, Univ. of Austin, Texas |
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EPA |
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Editor |
Bledsoe, B.E. |
| Language |
en |
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en |
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THL @ christoph.kuells @ |
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187 |
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Bouzourra, H.; Bouhlila, R.; Elango, L.; Slama, F.; Ouslati, N. |
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Characterization of mechanisms and processes of groundwater salinization in irrigated coastal area using statistics, GIS, and hydrogeochemical investigations |
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Journal Article |
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2015 |
Publication |
Environmental Science and Pollution Research |
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22 |
Issue |
4 |
Pages |
2643-2660 |
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Springer |
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THL @ luqianxue.zhang @ bouzourra2015characterization |
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78 |
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