Biogeochemistry of selenium compounds in the water column of warm monomictic Lake Kinneret

Biogeochemistry of selenium compounds in the water column of warm monomictic Lake Kinneret

The biogeochemistry of dissolved selenium (Se) was investigated over 3 years (2015–2017) in the subtropical, warm monomictic and meso-eutrophic Lake Kinneret ( Sea of Galilee , Israel). We monitored seasonal variation and vertical distribution of dissolved total Se (T.Se), inorganic oxyanions (Se(IV...

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Bibliographic Details
Published in:Biogeochemistry Vol. 157; no. 3; pp. 291 - 311
Main Authors: Be’eri-Shlevin, Y., Bueno, M., Tessier, E., Romero-Rama, A., Sukenik, A., Zohary, T., Amouroux, D.
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 01-02-2022
Springer Nature B.V
Springer Verlag
Subjects:
Allochthonous deposits
Analytical chemistry
Annual variations
Atmosphere
Biogeochemistry
Biogeosciences
Chemical Sciences
Chlorophyll
Chlorophyll a
Earth and Environmental Science
Earth Sciences
Ecosystems
Environmental Chemistry
Estuaries
Estuarine dynamics
Eutrophic lakes
Eutrophication
Fluxes
Life Sciences
Material chemistry
or physical chemistry
Phytoplankton
Plankton
Polymers
Primary production
Seasonal distribution
Seasonal variation
Seasonal variations
Selenium
Selenium compounds
Spring
Spring (season)
Summer
Theoretical and
Uptake
Vertical distribution
Volatile compounds
Volatilization
Water circulation
Water column
Winter
Lake Kinneret
Volatile species
Lakes
Dissolved species
Selenium
Seasonal distribution
Depth profile
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Summary:The biogeochemistry of dissolved selenium (Se) was investigated over 3 years (2015–2017) in the subtropical, warm monomictic and meso-eutrophic Lake Kinneret ( Sea of Galilee , Israel). We monitored seasonal variation and vertical distribution of dissolved total Se (T.Se), inorganic oxyanions (Se(IV) & Se(VI)), reduced Se fraction (Red.Se), organic (Org.Se) and volatile Se compounds. T.Se varied between ~ 100 and 160 ng L −1 with Red.Se comprising 40–80% of the Se inventory, and Se(VI) dominating over Se(IV) most of the time. The variation in T.Se and species correlated with winter holomixis vs. summer fall stratification periods. The annual cycle includes: (a) increase of T.Se from fall/winter to spring, representing increased allochthonous Se input flux, along with Se recycling via holomixis; (b) decrease of T.Se from spring to the end of the year, representing the diminishing Se inputs and the evolving output fluxes to the lake’s bottom and to the atmosphere. Org.Se variations are directly associated with Chlorophyll-a and primary production attesting for the significant role of phytoplankton activity in the Se cycle. An important Se output flux comprises spring to summer Se uptake by phytoplankton and further volatile compounds production and volatilization accounting for ~ 10% of estimated Se input. The similarity of total dissolved Se concentrations in this work and from mid 1990s attests for long-term stability of the Se inventory. The TVSe concentrations in lacustrine systems being similar to that of estuary systems, the biological role of phytoplankton and eventually the degradation of organic material may produce similar fluxes of volatile Se to the atmosphere.
ISSN:0168-2563
1573-515X
DOI:10.1007/s10533-021-00877-6