http://scholars.ntou.edu.tw/handle/123456789/9249
Title: | Alkenone surface hydrographic changes of the subarctic Northwestern Pacific since the last glacial: proxy limitations and implications of non-thermal environmental influences | Authors: | Yu, Pai-Sen Liao, Chia-Ju Chen, Min-Te Zou, Jian-Jun Shi, Xuefa Bosin, A. A. Gorbarenko, Sergey A. Yokoyama, Yusuke |
Keywords: | LONG-CHAIN ALKENONES;EAST-ASIAN MONSOON;NORTH PACIFIC;OKHOTSK SEA;BERING-SEA;ICE-SHEET;TEMPERATURE;CLIMATE;OCEAN;KYR | Issue Date: | 4-Jun-2020 | Publisher: | SPRINGER | Journal Volume: | 7 | Journal Issue: | 1 | Source: | PROG EARTH PLANET SC | Abstract: | We investigated an alkenone-based sea surface temperature (SST) and the hydrographic change records of the subarctic Northwestern (NW) Pacific from the last glacial to interglacial. The core we investigated is a piston core (LV 63-41-2, 52.56 degrees N, 160.00 degrees E; water depth 1924 m) retrieved from the southern offshore east coast of the Kamchatka Peninsula, which is a location of high sedimentation rate, with highly dynamic interactions with the cold/warm water masses of the Bering Sea/the NW Pacific. Based on our alkenone analysis with a previously well-established chronology of the core, we found high glacial C-37:4 contents suggesting larger freshwater influences prior to the last deglacial in approximately 27-16 ka BP. The most significant features of what we found are alkenone indicative of warming intervals with minimum alkenone productions that occurred prior to the stadial Heinrich event 1 and the Younger Dryas. In contrast, for the interval corresponding to the Bolling-Allerod period, our alkenone analysis shows relatively colder but maximum alkenone productions. We conclude that this particular subarctic alkenone SST proxy record is mainly masked by non-thermal environmental influences, such as strong shifts of timing and duration of the sea ice retreat and/or salinity changes in surface water at this site, which could cause changes in water stratification that affect nutrient supplies of the upper ocean that modulate growth durations of phytoplankton/coccolithophore productions. Our studies suggest that this subarctic alkenone SST proxy record is indicative of the changes of seasonality that control the timing and duration of the blooming seasons of coccolithophores. The alkenone SST proxy is also dominantly driven by water stratification effects that, instead of SSTs, reflect most likely a combination of the following local to regional climate and ocean current patterns: (1) the amount of meltwater inputs from high mountain glaciers at Kamchatka; (2) less saline, nutrient-rich Alaskan Stream waters from the Cordilleran Ice Sheet in the Gulf of Alaska; (3) downwelling waters associated with the interactions between the southward Eastern Kamchatka Current and the spinning-up of the North Pacific Subarctic Gyre; and (4) the strength of the Kuroshio Current since the last glacial. |
URI: | http://scholars.ntou.edu.tw/handle/123456789/9249 | ISSN: | 2197-4284 | DOI: | 10.1186/s40645-020-00339-x |
Appears in Collections: | 地球科學研究所 13 CLIMATE ACTION 15 LIFE ON LAND |
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