Abyssal benthic foraminifera in the Polar Front Region (Pacific Sector): faunal composition, standing stock and size structure.

We have evaluated the quantitative composition of Rose Bengal-stained benthic foraminiferal assemblages of surface samples from two box cores (ANTA98-28 bc; ANTA01-01 bc) collected at the Polar Front in the Pacific sector of the Southern Ocean. Size structure, faunal composition and standing stock w...

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Bibliographic Details
Published in:Chemistry and Ecology
Main Authors: SABBATINI, ANNA, NEGRI, Alessandra, MORIGI C., RAVAIOLI M.
Other Authors: Sabbatini, Anna, Morigi, C., Ravaioli, M., Negri, Alessandra
Format: Article in Journal/Newspaper
Language:unknown
Published: 2004
Subjects:
abyssal plain
benthic foraminifera
community composition
size distribution
size structure
Antarc*
Antarctic
Southern Ocean
Online Access:http://hdl.handle.net/11566/30868
https://doi.org/10.1080/02757540410001655387
Description
Summary:We have evaluated the quantitative composition of Rose Bengal-stained benthic foraminiferal assemblages of surface samples from two box cores (ANTA98-28 bc; ANTA01-01 bc) collected at the Polar Front in the Pacific sector of the Southern Ocean. Size structure, faunal composition and standing stock were analysed for living (Rose Bengalstained) and dead foraminifera. The size fractions among 63-150, 150-250 and >250 μm were counted separately in order to study the foraminiferal size distribution and to compare our results with earlier Antarctic studies. The low organic carbon content of the sediment, and hence the limited food availability, is reflected by very low standing stocks and low diversity values. Calcareous taxa dominated dead foraminiferal assemblages that were more diverse than the stained assemblages. In the sediment samples of ANTA01-01 bc, the living fauna contained agglutinated taxa and soft-shelled monothalamous forms. Our data represent the southernmost record of benthic foraminiferal community (63° S) from the Polar Front region in the Pacific sector. These samples provide further evidence for the occurrence of meiofaunal foraminifera in extreme environments, like the Antarctic region, where the uncoupled annual variations in temperature and production cause strong effects on the structure of benthic communities.

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