Cotard E., Deteix V., Vivier F., Dapoigny A., Caquineau Sandrine, Cardinal D. (2025). Significant impact of lithogenic dissolution from subantarctic volcanic islands on the regional marine silicon cycle. Limnology and Oceanography, [Early access], p. [14 p.]. ISSN 0024-3590.
Titre du document
Significant impact of lithogenic dissolution from subantarctic volcanic islands on the regional marine silicon cycle
Cotard E., Deteix V., Vivier F., Dapoigny A., Caquineau Sandrine, Cardinal D.
Source
Limnology and Oceanography, 2025,
[Early access], p. [14 p.] ISSN 0024-3590
Silicic acid controls the production of diatoms, a predominant phytoplankton in the Southern Ocean. Diatoms are major contributors to the biological carbon pump, which is particularly active in the Southern Ocean as well as in areas naturally enriched in iron, such as around the Kerguelen Plateau. This study evaluates the factors controlling the biogeochemical cycle of Si and its dynamics in this area and how it is impacted by the island mass effect using the Si isotopic signatures of both dissolved and biogenic Si. While subsurface winter waters have similar delta Si-30 signatures and dissolved Si concentrations, surface delta Si-30 and dissolved Si values are different between stations. We show that this results from both (i) a different degree of dissolved Si utilization by silicifiers from winter water as the main Si source and (ii) an additional significant Si source to dissolved Si in the mixed layer from lithogenic Si dissolution for areas under the influence of the shelf. Indeed, the delta Si-30(DSi) signatures near the islands are homogeneous and lighter by -0.33 parts per thousand +/- 0.07 parts per thousand in the mixed layer compared to the outside plateau station. We estimate such lithogenic Si contribution to dissolved Si at 2.9 +/- 1.8 mu mol L-1 for a corresponding specific flux of 3.7 +/- 2.3 x 10(6) mol km(-2) yr(-1) in shallow areas around Heard and McDonald Islands (< 100 m). This Si dissolution flux per surface area is among the highest in the ocean and has a traceable biogeochemical impact over the Northern Kerguelen Plateau. It is likely due to the active volcanic nature of these islands combined with subglacial erosion on Heard.
