Enhanced Primary Productivity in the Brazil Malvinas Confluence Zone during the Mis 3


Contact
Sabine.Kasten [ at ] awi.de

Abstract

Micropaleontological analyses from the western South Atlantic core AU-Geo02-GC20 (45° 55' S; 58° 30' W, 2589 m water depth) revealed changes in the primary productivity and sea surface temperature (SST) during MIS 3 that point to significant changes in the Brazil Malvinas Confluence Zone dynamics. These changes led to a marked increase in the SST and the primary productivity between 44.0-36.1 ka BP, as indicated by the quantitative reconstruction of the subsurface temperature and the high relative abundance of the planktonic foraminifera Globigerina bulloides and the eutrophic index. The increase in the SST and the primary productivity could indicate frequent or more persistent southward penetration of subtropical waters over the north Patagonian margin due to a southward extension of the Brazil Current and a weakening of the Malvinas Current. The high primary productivity resulted in the intensive use of phosphate during spring. Conversely, benthic assemblages do not reflect high surface productivity. The dominance of calcareous nannoplankton over diatoms as primary producers, which allows inferring the shoaling of the nutricline and the thermocline, justifies the decoupling between planktonic and benthic communities as a consequence of reduced efficiency of the biological pump. The deposition of the pelagites during the period of enhanced primary productivity indicates a slowing down of the bottom circulation, probably due to a weakening of the Atlantic Meridional Overturning Circulation.



Item Type
Article
Authors
Divisions
Primary Division
Programs
Primary Topic
Publication Status
Published
Eprint ID
59280
DOI 10.5710/amgh.04.04.2023.3515

Cite as
Laprida, C. , Albarracn, P. B. , Romero, S. I. , Martn, R. S. , Isola, J. , Kasten, S. and Chapori, N. G. (2023): Enhanced Primary Productivity in the Brazil Malvinas Confluence Zone during the Mis 3 , Ameghiniana, 60 (4), pp. 358-379 . doi: 10.5710/amgh.04.04.2023.3515


Download
[thumbnail of Laprida_et_al_2023.pdf]
Preview
PDF
Laprida_et_al_2023.pdf - Other

Download (6MB) | Preview

Share
Add to AnyAdd to TwitterAdd to FacebookAdd to LinkedinAdd to PinterestAdd to Email


Citation


Actions
Edit Item Edit Item