Tracing silicon cycling in the Okavango Delta, a sub-tropical flood-pulse wetland using silicon isotopes

Frings, Patrick; De La Rocha, Christina; Struyf, Eric; van Pelt, Dimitri; Schoelynck, Jonas; Hudson, Mike Murray; Gondwe, Mangaliso J.; Wolski, Piotr; Mosimane, Keotsheple; Gray, William; Schaller, Jörg; Conley, Daniel

Tracing silicon cycling in the Okavango Delta, a sub-tropical flood-pulse wetland using silicon isotopes

Mark

Frings, Patrick ^LU ; De La Rocha, Christina ; Struyf, Eric ; van Pelt, Dimitri ; Schoelynck, Jonas ; Hudson, Mike Murray ; Gondwe, Mangaliso J. ; Wolski, Piotr ; Mosimane, Keotsheple and Gray, William , et al. (2014) In Geochimica et Cosmochimica Acta 142. p.132-148

Abstract: Chemical weathering of silicate minerals releases elements into solution whereas the neoformation of secondary minerals

works in the opposite direction, potentially confounding estimates of silicate weathering rates. Silicon isotopes (d30Si) may be

a useful tool to investigate these processes. Here, we present 82 d30Si measurements from surface waters, pore waters, biogenic

silica (BSi), clays, sand and vegetation from the Okavango Delta, Botswana, a freshwater sub-tropical, flood-pulse wetland.

Hydrologically, the Okavango is dominated by evapotranspiration water losses to the atmosphere. It receives an annual pulse

of water that inundates seasonal floodplains, while river baseflow is... (More); Chemical weathering of silicate minerals releases elements into solution whereas the neoformation of secondary minerals

works in the opposite direction, potentially confounding estimates of silicate weathering rates. Silicon isotopes (d30Si) may be

a useful tool to investigate these processes. Here, we present 82 d30Si measurements from surface waters, pore waters, biogenic

silica (BSi), clays, sand and vegetation from the Okavango Delta, Botswana, a freshwater sub-tropical, flood-pulse wetland.

Hydrologically, the Okavango is dominated by evapotranspiration water losses to the atmosphere. It receives an annual pulse

of water that inundates seasonal floodplains, while river baseflow is sufficient to maintain a permanent floodplain. d30Si in

dissolved silica (DSi) in surface waters along a 300 km transect at near-peak flood show a limited range (0.36–1.19&), imply-

ing the Delta is well buffered by a balance of processes adding and removing DSi from the surface water. A key control on DSi

concentrations is the uptake, production of BSi and recycling of Si by aquatic vegetation, although the net isotopic effect is

necessarily small since all BSi re-dissolves on short timescales. In the sediments, BSi d30Si (n = 30) ranges from (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/4695158

author

Frings, Patrick ^LU ; De La Rocha, Christina ; Struyf, Eric ; van Pelt, Dimitri ; Schoelynck, Jonas ; Hudson, Mike Murray ; Gondwe, Mangaliso J. ; Wolski, Piotr ; Mosimane, Keotsheple and Gray, William , et al. (More)

Frings, Patrick ^LU ; De La Rocha, Christina ; Struyf, Eric ; van Pelt, Dimitri ; Schoelynck, Jonas ; Hudson, Mike Murray ; Gondwe, Mangaliso J. ; Wolski, Piotr ; Mosimane, Keotsheple ; Gray, William ; Schaller, Jörg and Conley, Daniel ^LU (Less)

organization

Quaternary Sciences

publishing date

2014

type

Contribution to journal

publication status

published

subject

Geology

in

Geochimica et Cosmochimica Acta

volume

142

pages

132 - 148

publisher

Elsevier

external identifiers

wos:000342622400010
scopus:84908037173

ISSN

0016-7037

DOI

10.1016/j.gca.2014.07.007

language

English

LU publication?

yes

id

07d2b8f8-e7ea-48e2-a7d7-c3e3c9f36a81 (old id 4695158)

date added to LUP

2016-04-01 10:49:14

date last changed

2025-04-04 14:51:37

@article{07d2b8f8-e7ea-48e2-a7d7-c3e3c9f36a81,
  abstract     = {{Chemical weathering of silicate minerals releases elements into solution whereas the neoformation of secondary minerals<br/><br>
works in the opposite direction, potentially confounding estimates of silicate weathering rates. Silicon isotopes (d30Si) may be<br/><br>
a useful tool to investigate these processes. Here, we present 82 d30Si measurements from surface waters, pore waters, biogenic<br/><br>
silica (BSi), clays, sand and vegetation from the Okavango Delta, Botswana, a freshwater sub-tropical, flood-pulse wetland.<br/><br>
Hydrologically, the Okavango is dominated by evapotranspiration water losses to the atmosphere. It receives an annual pulse<br/><br>
of water that inundates seasonal floodplains, while river baseflow is sufficient to maintain a permanent floodplain. d30Si in<br/><br>
dissolved silica (DSi) in surface waters along a 300 km transect at near-peak flood show a limited range (0.36–1.19&amp;), imply-<br/><br>
ing the Delta is well buffered by a balance of processes adding and removing DSi from the surface water. A key control on DSi<br/><br>
concentrations is the uptake, production of BSi and recycling of Si by aquatic vegetation, although the net isotopic effect is<br/><br>
necessarily small since all BSi re-dissolves on short timescales. In the sediments, BSi d30Si (n = 30) ranges from}},
  author       = {{Frings, Patrick and De La Rocha, Christina and Struyf, Eric and van Pelt, Dimitri and Schoelynck, Jonas and Hudson, Mike Murray and Gondwe, Mangaliso J. and Wolski, Piotr and Mosimane, Keotsheple and Gray, William and Schaller, Jörg and Conley, Daniel}},
  issn         = {{0016-7037}},
  language     = {{eng}},
  pages        = {{132--148}},
  publisher    = {{Elsevier}},
  series       = {{Geochimica et Cosmochimica Acta}},
  title        = {{Tracing silicon cycling in the Okavango Delta, a sub-tropical flood-pulse wetland using silicon isotopes}},
  url          = {{https://lup.lub.lu.se/search/files/2158938/4695159.pdf}},
  doi          = {{10.1016/j.gca.2014.07.007}},
  volume       = {{142}},
  year         = {{2014}},
}

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Tracing silicon cycling in the Okavango Delta, a sub-tropical flood-pulse wetland using silicon isotopes