Polycystine radiolarians in surface sediments from the Bering Sea Green Belt area and their ecological implication for paleoenvironmental reconstructions

Radiolarians in surface sediments along transects from the shelf edge, along the slope into the deep basin of the northern Bering Sea are dominated by Stylochlamydium venustum, Antarctissa? sp. 1, the Spongodiscidae (juvenile), Pseudodictyophimus gracilipes, Ceratospyris borealis, the Plagoniidae (P...

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Bibliographic Details
Published in:Marine Micropaleontology
Main Authors: Wang, R., Xiao, W., Li, Q., Chen, R.
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier Science BV 2006
Subjects:
radiolarian assemblage
depth distribution pattern
surface productivity
Bering Sea Green Belt
surface sediments
Bering Sea
Antarc*
Sea ice
Online Access:http://hdl.handle.net/2440/23689
https://doi.org/10.1016/j.marmicro.2006.02.002
Description
Summary:Radiolarians in surface sediments along transects from the shelf edge, along the slope into the deep basin of the northern Bering Sea are dominated by Stylochlamydium venustum, Antarctissa? sp. 1, the Spongodiscidae (juvenile), Pseudodictyophimus gracilipes, Ceratospyris borealis, the Plagoniidae (Phormacantha group and Plectacantha group), Siphocampe arachnea, Cycladophora davisiana and Spongotrochus glacialis. This dominance is most extreme on the shelf edge and slope, where S. venustum, Antarctissa? sp. 1, the Spongodiscidae (juvenile), the Plagoniidae and S. glacialis have their highest relative abundance. There is thus a close relation between radiolarian distribution and the high productivity of the "Bering Sea Green Belt" (BSGB) due to periodic sea ice melt. The radiolarian depth distribution patterns indicate that some radiolarian species have specific ecological preferences. S. venustum, the Spongodiscidae (juvenile), and S. glacialis live close to the surface water under relatively low-temperature and low-salinity conditions due to sea ice melting or melt water influx. Antarctissa? sp. 1 appears to dwell mainly in surface to subsurface waters, but has not been recorded in trap samples of the Bering Sea. The Plagoniidae probably live in subsurface and intermediate waters. S. arachnea and C. davisiana are intermediate to deep dwellers. The close association of these radiolarians with the BSGB and specific water depths provides a valuable reference for paleoenvironmental reconstruction in the region. © 2006 Elsevier B.V. All rights reserved. Wang, Rujian Xiao, Wenshen Li, Qianyu Chen, Ronghua

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