Stalagmite evidence for East Asian winter monsoon variability and 18O-depleted surface water in the Japan Sea during the last glacial period

Stalagmite evidence for East Asian winter monsoon variability and 18O-depleted surface water in the Japan Sea during the last glacial period

Abstract In the East Asian monsoon area, stalagmites generally record lower and higher oxygen isotope (δ18O) levels during warm humid interglacial and cold dry glacial periods, respectively. Here, we report unusually low stalagmite δ18O from the last glacial period (ca. 32.2–22.3 ka) in Fukugaguchi...

Full description

Bibliographic Details
Main Authors: Shota Amekawa, Kenji Kashiwagi, Masako Hori, Tomomi Sone, Hirokazu Kato, Tomoyo Okumura, Tsai-Luen Yu, Chuan-Chou Shen, Akihiro Kano
Format: Article
Language:English
Published: SpringerOpen 2021-02-01
Series:Progress in Earth and Planetary Science
Subjects:
Stalagmite paleoclimatelogy
East Asian winter monsoon
Last glacial period
Japan Sea
Oxygen isotope ratio
Online Access:https://doi.org/10.1186/s40645-021-00409-8
id doaj-2031e698030d49fea21480095cb86a23
record_format Article
spelling doaj-2031e698030d49fea21480095cb86a232021-02-23T09:15:05ZengSpringerOpenProgress in Earth and Planetary Science2197-42842021-02-018111510.1186/s40645-021-00409-8Stalagmite evidence for East Asian winter monsoon variability and 18O-depleted surface water in the Japan Sea during the last glacial periodShota Amekawa0Kenji Kashiwagi1Masako Hori2Tomomi Sone3Hirokazu Kato4Tomoyo Okumura5Tsai-Luen Yu6Chuan-Chou Shen7Akihiro Kano8Department of Earth and Planetary Sciences, Faculty of Science, The University of TokyoDepartment of Environmental Biology and Chemistry, Faculty of Science, University of ToyamaDivision of Natural Sciences, Osaka Kyoiku UniversityMarine Works Japan LTD.Department of Earth and Planetary Sciences, Faculty of Science, The University of TokyoCenter for Advanced Marine Core Research, Kochi UniversityCenter for High-precision Mass Spectrometry and Environment Change Laboratory (HISPEC), Department of Geosciences, National Taiwan UniversityCenter for High-precision Mass Spectrometry and Environment Change Laboratory (HISPEC), Department of Geosciences, National Taiwan UniversityDepartment of Earth and Planetary Sciences, Faculty of Science, The University of TokyoAbstract In the East Asian monsoon area, stalagmites generally record lower and higher oxygen isotope (δ18O) levels during warm humid interglacial and cold dry glacial periods, respectively. Here, we report unusually low stalagmite δ18O from the last glacial period (ca. 32.2–22.3 ka) in Fukugaguchi Cave, Niigata Prefecture, Japan, where a major moisture source is the East Asian winter monsoon (EAWM) that carries vapor from the warm surface of the Japan Sea. The δ18O profile of this stalagmite may imply millennial-scale changes, and high δ18O intervals that are related to Dansgaard–Oeschger (D–O) interstadials. More importantly, the stalagmite exhibits low overall δ18O values; the mean δ18O (− 8.87‰) is distinctly lower than the mid-Holocene mean of another stalagmite from the same cave (4.2–8.2 ka, − 7.64‰). An interpretation assuming a more intense EAWM and greater vapor transportation during the last glacial period, compared with the mid-Holocene, contradicts the limited inflow of the Tsushima Warm Current into the Japan Sea because of lowered sea level. Additionally, our model calculation using δ18O data from meteoric water indicated that the amount effect of winter meteoric water was insignificant (1.2‰/1000 mm). Low stalagmite δ18O for the last glacial period in Fukugaguchi Cave most likely resulted from 18O-depleted surface water, which developed in the isolated Japan Sea. The estimated amplitude of the δ18O decrease in surface water was ~ 3‰ at most, consistent with the abnormally low values for foraminifera (by ~ 2.5‰) in sediment during the last glacial period, shown by samples collected from the Japan Sea. This is the first terrestrial evidence of 18O depletion in Japan Sea surface water during the last glacial period.https://doi.org/10.1186/s40645-021-00409-8Stalagmite paleoclimatelogyEast Asian winter monsoonLast glacial periodJapan SeaOxygen isotope ratio
collection DOAJ
language English
format Article
sources DOAJ
author Shota Amekawa
Kenji Kashiwagi
Masako Hori
Tomomi Sone
Hirokazu Kato
Tomoyo Okumura
Tsai-Luen Yu
Chuan-Chou Shen
Akihiro Kano
spellingShingle Shota Amekawa
Kenji Kashiwagi
Masako Hori
Tomomi Sone
Hirokazu Kato
Tomoyo Okumura
Tsai-Luen Yu
Chuan-Chou Shen
Akihiro Kano
Stalagmite evidence for East Asian winter monsoon variability and 18O-depleted surface water in the Japan Sea during the last glacial period
Progress in Earth and Planetary Science
Stalagmite paleoclimatelogy
East Asian winter monsoon
Last glacial period
Japan Sea
Oxygen isotope ratio
author_facet Shota Amekawa
Kenji Kashiwagi
Masako Hori
Tomomi Sone
Hirokazu Kato
Tomoyo Okumura
Tsai-Luen Yu
Chuan-Chou Shen
Akihiro Kano
author_sort Shota Amekawa
title Stalagmite evidence for East Asian winter monsoon variability and 18O-depleted surface water in the Japan Sea during the last glacial period
title_short Stalagmite evidence for East Asian winter monsoon variability and 18O-depleted surface water in the Japan Sea during the last glacial period
title_full Stalagmite evidence for East Asian winter monsoon variability and 18O-depleted surface water in the Japan Sea during the last glacial period
title_fullStr Stalagmite evidence for East Asian winter monsoon variability and 18O-depleted surface water in the Japan Sea during the last glacial period
title_full_unstemmed Stalagmite evidence for East Asian winter monsoon variability and 18O-depleted surface water in the Japan Sea during the last glacial period
title_sort stalagmite evidence for east asian winter monsoon variability and 18o-depleted surface water in the japan sea during the last glacial period
publisher SpringerOpen
series Progress in Earth and Planetary Science
issn 2197-4284
publishDate 2021-02-01
description Abstract In the East Asian monsoon area, stalagmites generally record lower and higher oxygen isotope (δ18O) levels during warm humid interglacial and cold dry glacial periods, respectively. Here, we report unusually low stalagmite δ18O from the last glacial period (ca. 32.2–22.3 ka) in Fukugaguchi Cave, Niigata Prefecture, Japan, where a major moisture source is the East Asian winter monsoon (EAWM) that carries vapor from the warm surface of the Japan Sea. The δ18O profile of this stalagmite may imply millennial-scale changes, and high δ18O intervals that are related to Dansgaard–Oeschger (D–O) interstadials. More importantly, the stalagmite exhibits low overall δ18O values; the mean δ18O (− 8.87‰) is distinctly lower than the mid-Holocene mean of another stalagmite from the same cave (4.2–8.2 ka, − 7.64‰). An interpretation assuming a more intense EAWM and greater vapor transportation during the last glacial period, compared with the mid-Holocene, contradicts the limited inflow of the Tsushima Warm Current into the Japan Sea because of lowered sea level. Additionally, our model calculation using δ18O data from meteoric water indicated that the amount effect of winter meteoric water was insignificant (1.2‰/1000 mm). Low stalagmite δ18O for the last glacial period in Fukugaguchi Cave most likely resulted from 18O-depleted surface water, which developed in the isolated Japan Sea. The estimated amplitude of the δ18O decrease in surface water was ~ 3‰ at most, consistent with the abnormally low values for foraminifera (by ~ 2.5‰) in sediment during the last glacial period, shown by samples collected from the Japan Sea. This is the first terrestrial evidence of 18O depletion in Japan Sea surface water during the last glacial period.
topic Stalagmite paleoclimatelogy
East Asian winter monsoon
Last glacial period
Japan Sea
Oxygen isotope ratio
url https://doi.org/10.1186/s40645-021-00409-8
work_keys_str_mv AT shotaamekawa stalagmiteevidenceforeastasianwintermonsoonvariabilityand18odepletedsurfacewaterinthejapanseaduringthelastglacialperiod
AT kenjikashiwagi stalagmiteevidenceforeastasianwintermonsoonvariabilityand18odepletedsurfacewaterinthejapanseaduringthelastglacialperiod
AT masakohori stalagmiteevidenceforeastasianwintermonsoonvariabilityand18odepletedsurfacewaterinthejapanseaduringthelastglacialperiod
AT tomomisone stalagmiteevidenceforeastasianwintermonsoonvariabilityand18odepletedsurfacewaterinthejapanseaduringthelastglacialperiod
AT hirokazukato stalagmiteevidenceforeastasianwintermonsoonvariabilityand18odepletedsurfacewaterinthejapanseaduringthelastglacialperiod
AT tomoyookumura stalagmiteevidenceforeastasianwintermonsoonvariabilityand18odepletedsurfacewaterinthejapanseaduringthelastglacialperiod
AT tsailuenyu stalagmiteevidenceforeastasianwintermonsoonvariabilityand18odepletedsurfacewaterinthejapanseaduringthelastglacialperiod
AT chuanchoushen stalagmiteevidenceforeastasianwintermonsoonvariabilityand18odepletedsurfacewaterinthejapanseaduringthelastglacialperiod
AT akihirokano stalagmiteevidenceforeastasianwintermonsoonvariabilityand18odepletedsurfacewaterinthejapanseaduringthelastglacialperiod
_version_ 1724254855689666560

Similar Items