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Elsevier, Quaternary Science Reviews, 15-16(29), p. 1831-1843

DOI: 10.1016/j.quascirev.2010.03.018

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Holocene climate trend, variability, and shift documented by lacustrine stable-isotope record in the northeastern United States

Journal article published in 2010 by Cheng Zhao, Zicheng Yu, Emi Ito ORCID, Yan Zhao
This paper is available in a repository.
This paper is available in a repository.

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Data provided by SHERPA/RoMEO

Abstract

Earlier studies indicated that the general pattern of the Holocene climate in the northeastern United States changed from cool and dry (11.6–8.2ka; 1ka=1000 cal yr BP) to warm and wet (8.2–5.4ka) to warm and dry (5.4–3ka) to cool and wet (after 3ka). A new ∼35-year resolution stable isotope record of endogenic calcite from a sediment core for Lake Grinnell in northern New Jersey provided a chance to examine the Holocene climate variations of the region in a finer detail. After the Younger Dryas cold climate reversal, the δ18O fluctuated around a constant value of −7.4‰ until 5.8ka, thereafter shifted to a steadily decreasing trend to the most recent value of −8.2‰. Responding to this shift, the widely observed hemlock decline in the northeastern USA occurred about ∼350–500 (±143.5) years later. Detrended δ18O and δ13C records show a clear covariance at 910-year periodicity. The amplitudes of centennial-scale δ18O variations became much smaller after 4.7ka. At the same time, the dominant frequency of these variations changed from 330 to 500 years. We suggest that a non-linear response of atmospheric circulation to the gradual decrease in insolation is responsible for the shift in the climate trend at 5.8ka as indicated by the deceasing δ18O values. A dominant frequency shift in solar forcing and the decreased seasonal contrast of insolation might have caused the change in climate variability at 4.7ka through modulating ocean and atmosphere circulations.