High-resolution palynological record of Holocene climatic and oceanographic changes in the northern South China Sea

Zhen Li; Vera Pospelova; Lejun Liu; Rui Zhou; Bing Song

doi:10.1016/j.palaeo.2017.03.009

High-resolution palynological record of Holocene climatic and oceanographic changes in the northern South China Sea

Zhen Li, Vera Pospelova, Lejun Liu, Rui Zhou, Bing Song

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

For the first time, palynological records of terrestrial palynomorphs and dinoflagellate cysts are investigated in a sediment core from the northern South China Sea (SCS) covering the last 12,500 years. Both terrestrial and marine palynomorph records show strong signals of the sea-level change during the studied interval. The highest herb pollen content was associated with extensive grasslands on the exposed shelf at the low sea-level stand during the Younger Dryas and early Holocene. The increase in fern spores and decrease in concentrations of dinoflagellate cysts and terrestrial palynomorphs was observed during the sea-level rise interval from 12,500 to ~ 6800 (or 6000) cal yr BP. Then, the sea level became stabilized and consistently low dinoflagellate cyst abundances and high abundances of fern spores were recorded. A high abundance of Impagidinium in the period ~ 12,000–10,400 cal yr BP possibly resulted from increased input of western Philippine Sea waters into the SCS and the branching of the Kuroshio Current. A short-term decrease of Impagidinium at ~ 11,700–11,000 cal yr BP corresponding to the MWP-1B event might be associated with input of the East China Sea waters through the Taiwan Strait. The relationship between the sedimentation rates and the concentrations of terrestrial palynomorphs indicates a water-dominant transport for pollen and spore dispersal prior to ~ 6300 cal yr BP, whereas wind transport became more prominent thereafter. The timing of this change corresponds to the highest sea-level stand at ~ 6800–6000 cal yr BP, when the present oceanographic setting was formed. The mid-Holocene Optimum can be seen by the highest abundance of subtropical-tropical broad-leaved arboreal pollen and by the highest abundances of Dapsilidinium pastielsii. Three strengthened winter monsoon intervals at ~ 5500 cal yr BP, 4000 cal yr BP, and 2500 cal yr BP are reflected by increases in Pinus pollen content after the present oceanographic condition formed.

Original language	English (US)
Pages (from-to)	94-124
Number of pages	31
Journal	Palaeogeography, Palaeoclimatology, Palaeoecology
Volume	483
DOIs	https://doi.org/10.1016/j.palaeo.2017.03.009
State	Published - Oct 1 2017
Externally published	Yes

Bibliographical note

Funding Information:
The Natural Sciences and Engineering Research Council of Canada (NSERC) CGS D3 fellowship, Montalbano scholarship, and the National Science and Technology Major Projects of China grant (2011ZX05056-001-02) provided partial funding for this research to Z. Li. This work was also funded by NSERC through a Discovery grant (312305) to V. Pospelova. She is the Hanse-Wissenschaftskolleg (HWK) senior research fellow in marine and climate research at the Institute for Advanced Study (Germany). L. Liu was partially supported by the National Key Project (GASI-GEOGE-05) from the State Oceanography Administration of China in this work.

Publisher Copyright:
© 2017 Elsevier B.V.

Keywords

Asian monsoon
Dinoflagellate cysts
Holocene
Palynology
Sea level change
The South China Sea

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title = "High-resolution palynological record of Holocene climatic and oceanographic changes in the northern South China Sea",

abstract = "For the first time, palynological records of terrestrial palynomorphs and dinoflagellate cysts are investigated in a sediment core from the northern South China Sea (SCS) covering the last 12,500 years. Both terrestrial and marine palynomorph records show strong signals of the sea-level change during the studied interval. The highest herb pollen content was associated with extensive grasslands on the exposed shelf at the low sea-level stand during the Younger Dryas and early Holocene. The increase in fern spores and decrease in concentrations of dinoflagellate cysts and terrestrial palynomorphs was observed during the sea-level rise interval from 12,500 to ~ 6800 (or 6000) cal yr BP. Then, the sea level became stabilized and consistently low dinoflagellate cyst abundances and high abundances of fern spores were recorded. A high abundance of Impagidinium in the period ~ 12,000–10,400 cal yr BP possibly resulted from increased input of western Philippine Sea waters into the SCS and the branching of the Kuroshio Current. A short-term decrease of Impagidinium at ~ 11,700–11,000 cal yr BP corresponding to the MWP-1B event might be associated with input of the East China Sea waters through the Taiwan Strait. The relationship between the sedimentation rates and the concentrations of terrestrial palynomorphs indicates a water-dominant transport for pollen and spore dispersal prior to ~ 6300 cal yr BP, whereas wind transport became more prominent thereafter. The timing of this change corresponds to the highest sea-level stand at ~ 6800–6000 cal yr BP, when the present oceanographic setting was formed. The mid-Holocene Optimum can be seen by the highest abundance of subtropical-tropical broad-leaved arboreal pollen and by the highest abundances of Dapsilidinium pastielsii. Three strengthened winter monsoon intervals at ~ 5500 cal yr BP, 4000 cal yr BP, and 2500 cal yr BP are reflected by increases in Pinus pollen content after the present oceanographic condition formed.",

keywords = "Asian monsoon, Dinoflagellate cysts, Holocene, Palynology, Sea level change, The South China Sea",

author = "Zhen Li and Vera Pospelova and Lejun Liu and Rui Zhou and Bing Song",

note = "Funding Information: The Natural Sciences and Engineering Research Council of Canada (NSERC) CGS D3 fellowship, Montalbano scholarship, and the National Science and Technology Major Projects of China grant (2011ZX05056-001-02) provided partial funding for this research to Z. Li. This work was also funded by NSERC through a Discovery grant (312305) to V. Pospelova. She is the Hanse-Wissenschaftskolleg (HWK) senior research fellow in marine and climate research at the Institute for Advanced Study (Germany). L. Liu was partially supported by the National Key Project (GASI-GEOGE-05) from the State Oceanography Administration of China in this work. Publisher Copyright: {\textcopyright} 2017 Elsevier B.V.",

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AU - Song, Bing

N1 - Funding Information: The Natural Sciences and Engineering Research Council of Canada (NSERC) CGS D3 fellowship, Montalbano scholarship, and the National Science and Technology Major Projects of China grant (2011ZX05056-001-02) provided partial funding for this research to Z. Li. This work was also funded by NSERC through a Discovery grant (312305) to V. Pospelova. She is the Hanse-Wissenschaftskolleg (HWK) senior research fellow in marine and climate research at the Institute for Advanced Study (Germany). L. Liu was partially supported by the National Key Project (GASI-GEOGE-05) from the State Oceanography Administration of China in this work. Publisher Copyright: © 2017 Elsevier B.V.

PY - 2017/10/1

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N2 - For the first time, palynological records of terrestrial palynomorphs and dinoflagellate cysts are investigated in a sediment core from the northern South China Sea (SCS) covering the last 12,500 years. Both terrestrial and marine palynomorph records show strong signals of the sea-level change during the studied interval. The highest herb pollen content was associated with extensive grasslands on the exposed shelf at the low sea-level stand during the Younger Dryas and early Holocene. The increase in fern spores and decrease in concentrations of dinoflagellate cysts and terrestrial palynomorphs was observed during the sea-level rise interval from 12,500 to ~ 6800 (or 6000) cal yr BP. Then, the sea level became stabilized and consistently low dinoflagellate cyst abundances and high abundances of fern spores were recorded. A high abundance of Impagidinium in the period ~ 12,000–10,400 cal yr BP possibly resulted from increased input of western Philippine Sea waters into the SCS and the branching of the Kuroshio Current. A short-term decrease of Impagidinium at ~ 11,700–11,000 cal yr BP corresponding to the MWP-1B event might be associated with input of the East China Sea waters through the Taiwan Strait. The relationship between the sedimentation rates and the concentrations of terrestrial palynomorphs indicates a water-dominant transport for pollen and spore dispersal prior to ~ 6300 cal yr BP, whereas wind transport became more prominent thereafter. The timing of this change corresponds to the highest sea-level stand at ~ 6800–6000 cal yr BP, when the present oceanographic setting was formed. The mid-Holocene Optimum can be seen by the highest abundance of subtropical-tropical broad-leaved arboreal pollen and by the highest abundances of Dapsilidinium pastielsii. Three strengthened winter monsoon intervals at ~ 5500 cal yr BP, 4000 cal yr BP, and 2500 cal yr BP are reflected by increases in Pinus pollen content after the present oceanographic condition formed.

AB - For the first time, palynological records of terrestrial palynomorphs and dinoflagellate cysts are investigated in a sediment core from the northern South China Sea (SCS) covering the last 12,500 years. Both terrestrial and marine palynomorph records show strong signals of the sea-level change during the studied interval. The highest herb pollen content was associated with extensive grasslands on the exposed shelf at the low sea-level stand during the Younger Dryas and early Holocene. The increase in fern spores and decrease in concentrations of dinoflagellate cysts and terrestrial palynomorphs was observed during the sea-level rise interval from 12,500 to ~ 6800 (or 6000) cal yr BP. Then, the sea level became stabilized and consistently low dinoflagellate cyst abundances and high abundances of fern spores were recorded. A high abundance of Impagidinium in the period ~ 12,000–10,400 cal yr BP possibly resulted from increased input of western Philippine Sea waters into the SCS and the branching of the Kuroshio Current. A short-term decrease of Impagidinium at ~ 11,700–11,000 cal yr BP corresponding to the MWP-1B event might be associated with input of the East China Sea waters through the Taiwan Strait. The relationship between the sedimentation rates and the concentrations of terrestrial palynomorphs indicates a water-dominant transport for pollen and spore dispersal prior to ~ 6300 cal yr BP, whereas wind transport became more prominent thereafter. The timing of this change corresponds to the highest sea-level stand at ~ 6800–6000 cal yr BP, when the present oceanographic setting was formed. The mid-Holocene Optimum can be seen by the highest abundance of subtropical-tropical broad-leaved arboreal pollen and by the highest abundances of Dapsilidinium pastielsii. Three strengthened winter monsoon intervals at ~ 5500 cal yr BP, 4000 cal yr BP, and 2500 cal yr BP are reflected by increases in Pinus pollen content after the present oceanographic condition formed.

KW - Asian monsoon

KW - Dinoflagellate cysts

KW - Holocene

KW - Palynology

KW - Sea level change

KW - The South China Sea

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ER -

High-resolution palynological record of Holocene climatic and oceanographic changes in the northern South China Sea

Abstract

Bibliographical note

Keywords

UN SDGs

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