Smh. Conan et Gja. Brummer, Fluxes of planktic foraminifera in response to monsoonal upwelling on the Somalia Basin margin, DEEP-SEA II, 47(9-11), 2000, pp. 2207-2227
Citations number
38
Categorie Soggetti
Aquatic Sciences","Earth Sciences
Journal title
DEEP-SEA RESEARCH PART II-TOPICAL STUDIES IN OCEANOGRAPHY
Sediment trap samples collected off Somalia (bi)weekly from early June 1992
through mid February 1993 show large seasonal variations in the shell flux
and species composition of planktic foraminifera. These variations mirror
the monsoon-driven circulation, which resulted in massive upwelling and off
shore eddy transport in summer during the SW Monsoon (June-September) and a
ccounted for nearly 90% of the estimated annual shell flux of planktic fora
minifera. G. bulloides dominated the SW Monsoon along with G. glutinata, T.
quinqueloba, N. dutertrei and T. iota in a fauna-rich species but with a l
ow diversity and equitability. During the autumn intermonsoon (November-Dec
ember) the ocean became stratified and the nutrient exhausted, whereas duri
ng the NE Monsoon (January-March) a warm surface mixed layer developed with
the nutrients entrained by deep wind mixing. It was dominated by G. ruber
in association with G. tenella, G. aequilateralis, G. trilobus/G. sacculife
r and G. menardii in a fauna poorer in species but with a higher diversity
and equitability. Consequently, the ratio in the abundance of G. bulloides
and G. ruber follows the monsoonal cycle closely, as both species persist t
hroughout the year. Only the rare G. theyeri seems to be restricted to the
SW Monsoon.
In October at the end of the SW Monsoon, the trap at 265 m above the bottom
intercepted massive amounts of fine-grained carbonate ( < 125 mu m) resusp
ended from the shelf and upper slope. It contained extreme fluxes of biocla
stic fragments, benthic foraminifera and benthic ostracods as well as enhan
ced fluxes of small-sized planktic foraminifera < 125 mu m, notably G. rube
scens. Integrated over the year, the species composition intercepted by the
trap shows a very good match with the shell fauna in a core top sediment f
rom the same site. Apparently, the year-estimated monsoonal record of plank
tic foraminifera, which is strongly dominated by the SW Monsoon production,
survives burial intact. Consequently, the species composition of planktic
foraminifera and measures such as the bulloides/ruber ratio can be applied
as a proxy for past changes in the intensity of the SW Monsoon off Somalia
compared to the modern condition. (C) 2000 Published by Elsevier Science Lt
d. All rights reserved.