Abstract
AbstractReconstructions of key climate parameters prior to anthropogenic influences serve to constrain decadal to multicentury natural climate variability. In the western Pacific region, relatively few reconstructions exist north of the Western Pacific Warm Pool (WPWP), a region critical to global climate. In this study, we collected a coral core from Houbihu, southern Taiwan, and generated a 225‐year reconstruction of annual and wintertime sea surface temperature, dry season sea surface salinity, and wet season rainfall records derived from paired Porites Sr/Ca and δ18O profiles extending back to the end of the Little Ice Age (1850 CE). Multidecadal sea surface temperature trends generally track regional surface temperature reconstructions, indicating the dominant influence of solar and volcanic radiative forcings. Reconstructed dry season sea surface salinity reflects an advection signal linked to the East Asian Winter Monsoon and the Pacific Decadal Oscillation, both influencing variations in the Kuroshio Intrusion across the Luzon Strait. Reconstructed wet season rainfall, on the other hand, reveals influence of the Pacific Decadal Oscillation on the decadal variability of local and regional rainfall patterns. Relative to the late 1900s, our climate reconstructions document cooler and drier (high salinity and low rainfall) conditions during the end of the Little Ice Age, supporting other lines of evidence of a retracted WPWP region during this period. In the late 20th to early 21st century, our climate reconstructions record warming and freshening (low salinity and high rainfall) trends, highlighting the potential impact of anthropogenic forcing in the extension of the WPWP.
Highlights
Understanding long‐term climate variability involves reconstructions of key climate parameters extending beyond the limits of observational data and anthropogenic influences (Dunbar & Cole, 1999; Gagan et al, 2000; Lough, 2010)
Robust annual and winter Sr/Ca‐sea surface temperature (SST), dry season δ18Oc‐sea surface salinity (SSS) and wet season δ18Oc‐rainfall calibrations in Houbihu allow for reconstructing subtropical climate variability over the past two centuries
Multidecadal SST trends broadly agree with various surface temperature reconstructions in the region, indicating the dominant control of solar and volcanic radiative forcing factors in the subtropical western Pacific climate variability
Summary
Understanding long‐term climate variability involves reconstructions of key climate parameters extending beyond the limits of observational data and anthropogenic influences (Dunbar & Cole, 1999; Gagan et al, 2000; Lough, 2010). The Little Ice Age (LIA) is the most recent climate interval to study naturally forced, widespread climatic change (Bradley & Jones, 1993; Dunbar & Cole, 1999). Proxy reconstructions mostly from corals, bivalves, marine sediments, and foraminifera in this region reveal a period of cooling, between 0.5 and 2 °C lower than present. These regional cooling estimates coincide with minimum solar forcing and higher volcanic activity (Bradley & Jones, 1993; Crowley, 2000; Mann et al, 1999)
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