High-frequency winter cooling and reef coral mortality during the Holocene climatic optimum

A detailed ecological, micro-structural and skeletal Sr/Ca study of a 3.42 m thick Goniopora reef profile from an emerged Holocene reef terrace at the northern South China Sea reveals at least nine abrupt massive Goniopora stress and mortality events occurred in winter during the 7.0-7.5 thousand ca...

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Bibliographic Details
Published in:Earth and Planetary Science Letters
Main Authors: Yu, KF, Zhao, JX, Liu, TS, Wei, GH, Wang, PX, Collerson, KD
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier BV 2004
Subjects:
Geochemistry & Geophysics
Coral Mortality
Sr/ca
Sst
Sea Level
Holocene
South China Sea
Sea-surface Temperature
Great-barrier-reef
East-asian Monsoon
Late Pleistocene
Porites Corals
North-atlantic
Arabian Gulf
Record
Calibration
260301 Geochronology and Isotope Geochemistry
C1
North Atlantic
Online Access:https://espace.library.uq.edu.au/view/UQ:73807
Description
Summary:A detailed ecological, micro-structural and skeletal Sr/Ca study of a 3.42 m thick Goniopora reef profile from an emerged Holocene reef terrace at the northern South China Sea reveals at least nine abrupt massive Goniopora stress and mortality events occurred in winter during the 7.0-7.5 thousand calendar years before present (cal. ka BP) (within the Holocene climatic optimum). Whilst calculated Sr/Ca-SST (sea surface temperature) maxima during this period are comparable to those in the 1990s, Sr/Ca-SST minima are significantly lower, probably due to stronger winter monsoons. Such generally cooler winters, superimposed by further exceptional winter cooling on inter-annual to decadal scales, may have caused stress and mortality of the corals about every 50 years. Sea level rose by similar to 3.42 m during this period, with present sea-level reached at similar to 7.3 ka BP and a sea-level highstand of at least similar to 1.8 m occurred at similar to 7.0 ka. The results show that it took about 20-25 years for a killed Goniopora coral reef to recover. (C) 2004 Elsevier B.V. All rights reserved.

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