Journal
MARINE GEOLOGY
Volume 425, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.margeo.2020.106183
Keywords
Vermetids; Stable isotopes; Palaeotemperature; Upwelling current; Holocene; Brazil
Categories
Funding
- Coordenacao de Aperfeicoamento de Pessoal de Nivel Superior - CAPES [88882.314604/2019-01, 88887.320380/2019-00]
- Conselho Nacional de Desenvolvimento Cientifico e Tecnologico - CNPq [477749/2014]
- PPGL
- UFRJ
- University of Ferrara
- Project MIUR-Dipartimenti di Eccellenza 2018-2022 [PRIN 2017RX9XXXY]
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In places where ocean currents cause upwelling, nearshore sea-surface temperatures (SST) are often cooler than nearby offshore waters. In the Arraial do Cabo Bay coast upper Holocene aragonitic vermetids are represented by monospecific clusters of overgrowing Petaloconchus varians occurring in supratidal/intertidal carbonate and mixed siliciclastic-carbonate deposits. Based on stable isotope composition (delta C-13, delta O-18) of fossil vermetid shells, radiocarbon ages and altimetric survey, the upper Holocene upwelling system of the Cabo Frio area (southeastern Brazil, Rio de Janeiro) is assessed. In the studied region, at 3700 cal. years BP the maximum relative sea level (RSL) was + 4.0 m with a SST of 20.7 degrees C. Subsequently, vermetid-based SST decreased from similar to 22.8 to similar to 17 degrees C (at similar to 3300 cal. years BP), with the coldest temperatures recording a strong upwelling event at around 2000 cal. years BP when the RSL was at + 2 m. The intensification in upwelling water masses is identified by the C-13 enrichment, along with higher delta O-18, in the vermetid shells. The decreasing SST trend assessed from similar to 3300 to similar to 2000 cal. years BP can be related to more frequent South Atlantic Coastal Water intrusions on the surface layer in the mid-shelf, increasing the nutrient concentration in the upper layer. From similar to 1900 to similar to 1300 cal. years BP, a higher SST up to similar to 21 degrees C occurred during the continuous sea-level fall.
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