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[super]10Be profiles in the East China Sea and the Okinawa Trough

Dissolved beryllium-10 concentration profiles in sea water of the East China Sea and the Okinawa Trough in 1993 autumn and 1994 summer have been investigated. The results show that [super]10Be concentrations in this area are mainly controlled by surface biological productivity, particle remineraliza...

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Bibliographic Details
Published in:Deep-sea research. Part II, Topical studies in oceanography Topical studies in oceanography, 2003-01, Vol.50 (2), p.339-351
Main Authors: Yang, Y-L, Kusakabe, M, Southon, J R
Format: Article
Language:English
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Summary:Dissolved beryllium-10 concentration profiles in sea water of the East China Sea and the Okinawa Trough in 1993 autumn and 1994 summer have been investigated. The results show that [super]10Be concentrations in this area are mainly controlled by surface biological productivity, particle remineralization, and the degree of mixing with the Yangtze River and the Kuroshio waters. During the sampling periods (summer and autumn), the East China Sea was well stratified. Generally, the [super]10Be water depth profiles can be divided into three layers: the surface mixed layer, the particulate [super]10Be regeneration layer, and the bottom layer. Surface water [super]10Be concentrations increase gradually towards the Kuroshio and increase sharply at the edge of the Kuroshio Current. Vertical distributions of [super]10Be show that in the summer [super]10Be is enriched in the bottom water near the Yangtze River estuary and the bottom water in the middle of the continental shelf. The two enriched areas are separated, probably by an intrusion of the Continental Coastal Water. In the autumn, [super]10Be bottom enrichment only occurred in the western part of the East China Sea. This phenomenon is consistent with the seasonal circulation pattern change of currents induced by monsoon winds. The influence on [super]10Be by the Kuroshio branch intrusion in the southern East China Sea northeast of Taiwan may be more significant than the Kuroshio main flow. Simple box model results indicate that [super]10Be input from the Kuroshio Current is more important than Yangtze River input and atmospheric precipitation. About 81% of [super]10Be input to the East China Sea is scavenged into the sediments and 19% of [super]10Be flows out of the East China Sea by currents and water exchange. The [super]10Be sedimentation flux in the East China Sea is nearly five times of the average global [super]10Be production rate, suggesting that the East China Sea is an important sink for [super]10Be.
ISSN:0967-0645
DOI:10.1016/S0967-0645(02)00458-7