Sedimentary ancient DNA reveals past ecosystem and biodiversity changes on the Tibetan Plateau: Overview and prospects

Weihan Jia; Sten Anslan; Fahu Chen; Xianyong Cao; Hailiang Dong; Katharina Dulias; Zhengquan Gu; Liv Heinecke; Hongchen Jiang; Stefan Kruse; Wengang Kang; Kai Li; Sisi Liu; Xingqi Liu; Ying Liu; Jian Ni; Antje Schwalb; Kathleen R. Stoof-Leichsenring; Wei Shen; Fang Tian; Jing Wang; Yongbo Wang; Yucheng Wang; Hai Xu; Xiaoyan Yang; Dongju Zhang; Ulrike Herzschuh

doi:10.1016/j.quascirev.2022.107703

Sedimentary ancient DNA reveals past ecosystem and biodiversity changes on the Tibetan Plateau: Overview and prospects

Weihan Jia, Sten Anslan, Fahu Chen, Xianyong Cao, Hailiang Dong, Katharina Dulias, Zhengquan Gu, Liv Heinecke, Hongchen Jiang, Stefan Kruse, Wengang Kang, Kai Li, Sisi Liu, Xingqi Liu, Ying Liu, Jian Ni, Antje Schwalb, Kathleen R. Stoof-Leichsenring, Wei Shen, Fang TianJing Wang, Yongbo Wang, Yucheng Wang, Hai Xu, Xiaoyan Yang, Dongju Zhang, Ulrike Herzschuh^*

^*Corresponding author for this work

Section for Geogenetics

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Alpine ecosystems on the Tibetan Plateau are being threatened by ongoing climate warming and intensified human activities. Ecological time-series obtained from sedimentary ancient DNA (sedaDNA) are essential for understanding past ecosystem and biodiversity dynamics on the Tibetan Plateau and their responses to climate change at a high taxonomic resolution. Hitherto only few but promising studies have been published on this topic. The potential and limitations of using sedaDNA on the Tibetan Plateau are not fully understood. Here, we (i) provide updated knowledge of and a brief introduction to the suitable archives, region-specific taphonomy, state-of-the-art methodologies, and research questions of sedaDNA on the Tibetan Plateau; (ii) review published and ongoing sedaDNA studies from the Tibetan Plateau; and (iii) give some recommendations for future sedaDNA study designs. Based on the current knowledge of taphonomy, we infer that deep glacial lakes with freshwater and high clay sediment input, such as those from the southern and southeastern Tibetan Plateau, may have a high potential for sedaDNA studies. Metabarcoding (for microorganisms and plants), metagenomics (for ecosystems), and hybridization capture (for prehistoric humans) are three primary sedaDNA approaches which have been successfully applied on the Tibetan Plateau, but their power is still limited by several technical issues, such as PCR bias and incompleteness of taxonomic reference databases. Setting up high-quality and open-access regional taxonomic reference databases for the Tibetan Plateau should be given priority in the future. To conclude, the archival, taphonomic, and methodological conditions of the Tibetan Plateau are favorable for performing sedaDNA studies. More research should be encouraged to address questions about long-term ecological dynamics at ecosystem scale and to bring the paleoecology of the Tibetan Plateau into a new era.

Original language	English
Article number	107703
Journal	Quaternary Science Reviews
Volume	293
Number of pages	14
ISSN	0277-3791
DOIs	https://doi.org/10.1016/j.quascirev.2022.107703
Publication status	Published - 2022

Bibliographical note

Publisher Copyright:
© 2022 The Authors

Keywords

Biodiversity
Ecosystem
Environmental DNA
Paleoecology
Paleogeography
Sedimentary ancient DNA (sedaDNA)
Taphonomy
Tibetan Plateau

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Cite this

Jia, W., Anslan, S., Chen, F., Cao, X., Dong, H., Dulias, K., Gu, Z., Heinecke, L., Jiang, H., Kruse, S., Kang, W., Li, K., Liu, S., Liu, X., Liu, Y., Ni, J., Schwalb, A., Stoof-Leichsenring, K. R., Shen, W., ... Herzschuh, U. (2022). Sedimentary ancient DNA reveals past ecosystem and biodiversity changes on the Tibetan Plateau: Overview and prospects. Quaternary Science Reviews, 293, Article 107703. https://doi.org/10.1016/j.quascirev.2022.107703

Jia, W, Anslan, S, Chen, F, Cao, X, Dong, H, Dulias, K, Gu, Z, Heinecke, L, Jiang, H, Kruse, S, Kang, W, Li, K, Liu, S, Liu, X, Liu, Y, Ni, J, Schwalb, A, Stoof-Leichsenring, KR, Shen, W, Tian, F, Wang, J, Wang, Y, Wang, Y, Xu, H, Yang, X, Zhang, D & Herzschuh, U 2022, 'Sedimentary ancient DNA reveals past ecosystem and biodiversity changes on the Tibetan Plateau: Overview and prospects', Quaternary Science Reviews, vol. 293, 107703. https://doi.org/10.1016/j.quascirev.2022.107703

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title = "Sedimentary ancient DNA reveals past ecosystem and biodiversity changes on the Tibetan Plateau: Overview and prospects",

abstract = "Alpine ecosystems on the Tibetan Plateau are being threatened by ongoing climate warming and intensified human activities. Ecological time-series obtained from sedimentary ancient DNA (sedaDNA) are essential for understanding past ecosystem and biodiversity dynamics on the Tibetan Plateau and their responses to climate change at a high taxonomic resolution. Hitherto only few but promising studies have been published on this topic. The potential and limitations of using sedaDNA on the Tibetan Plateau are not fully understood. Here, we (i) provide updated knowledge of and a brief introduction to the suitable archives, region-specific taphonomy, state-of-the-art methodologies, and research questions of sedaDNA on the Tibetan Plateau; (ii) review published and ongoing sedaDNA studies from the Tibetan Plateau; and (iii) give some recommendations for future sedaDNA study designs. Based on the current knowledge of taphonomy, we infer that deep glacial lakes with freshwater and high clay sediment input, such as those from the southern and southeastern Tibetan Plateau, may have a high potential for sedaDNA studies. Metabarcoding (for microorganisms and plants), metagenomics (for ecosystems), and hybridization capture (for prehistoric humans) are three primary sedaDNA approaches which have been successfully applied on the Tibetan Plateau, but their power is still limited by several technical issues, such as PCR bias and incompleteness of taxonomic reference databases. Setting up high-quality and open-access regional taxonomic reference databases for the Tibetan Plateau should be given priority in the future. To conclude, the archival, taphonomic, and methodological conditions of the Tibetan Plateau are favorable for performing sedaDNA studies. More research should be encouraged to address questions about long-term ecological dynamics at ecosystem scale and to bring the paleoecology of the Tibetan Plateau into a new era.",

keywords = "Biodiversity, Ecosystem, Environmental DNA, Paleoecology, Paleogeography, Sedimentary ancient DNA (sedaDNA), Taphonomy, Tibetan Plateau",

author = "Weihan Jia and Sten Anslan and Fahu Chen and Xianyong Cao and Hailiang Dong and Katharina Dulias and Zhengquan Gu and Liv Heinecke and Hongchen Jiang and Stefan Kruse and Wengang Kang and Kai Li and Sisi Liu and Xingqi Liu and Ying Liu and Jian Ni and Antje Schwalb and Stoof-Leichsenring, {Kathleen R.} and Wei Shen and Fang Tian and Jing Wang and Yongbo Wang and Yucheng Wang and Hai Xu and Xiaoyan Yang and Dongju Zhang and Ulrike Herzschuh",

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year = "2022",

doi = "10.1016/j.quascirev.2022.107703",

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volume = "293",

journal = "Quaternary Science Reviews",

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T1 - Sedimentary ancient DNA reveals past ecosystem and biodiversity changes on the Tibetan Plateau

T2 - Overview and prospects

AU - Jia, Weihan

AU - Anslan, Sten

AU - Chen, Fahu

AU - Cao, Xianyong

AU - Dong, Hailiang

AU - Dulias, Katharina

AU - Gu, Zhengquan

AU - Heinecke, Liv

AU - Jiang, Hongchen

AU - Kruse, Stefan

AU - Kang, Wengang

AU - Li, Kai

AU - Liu, Sisi

AU - Liu, Xingqi

AU - Liu, Ying

AU - Ni, Jian

AU - Schwalb, Antje

AU - Stoof-Leichsenring, Kathleen R.

AU - Shen, Wei

AU - Tian, Fang

AU - Wang, Jing

AU - Wang, Yongbo

AU - Wang, Yucheng

AU - Xu, Hai

AU - Yang, Xiaoyan

AU - Zhang, Dongju

AU - Herzschuh, Ulrike

PY - 2022

Y1 - 2022

N2 - Alpine ecosystems on the Tibetan Plateau are being threatened by ongoing climate warming and intensified human activities. Ecological time-series obtained from sedimentary ancient DNA (sedaDNA) are essential for understanding past ecosystem and biodiversity dynamics on the Tibetan Plateau and their responses to climate change at a high taxonomic resolution. Hitherto only few but promising studies have been published on this topic. The potential and limitations of using sedaDNA on the Tibetan Plateau are not fully understood. Here, we (i) provide updated knowledge of and a brief introduction to the suitable archives, region-specific taphonomy, state-of-the-art methodologies, and research questions of sedaDNA on the Tibetan Plateau; (ii) review published and ongoing sedaDNA studies from the Tibetan Plateau; and (iii) give some recommendations for future sedaDNA study designs. Based on the current knowledge of taphonomy, we infer that deep glacial lakes with freshwater and high clay sediment input, such as those from the southern and southeastern Tibetan Plateau, may have a high potential for sedaDNA studies. Metabarcoding (for microorganisms and plants), metagenomics (for ecosystems), and hybridization capture (for prehistoric humans) are three primary sedaDNA approaches which have been successfully applied on the Tibetan Plateau, but their power is still limited by several technical issues, such as PCR bias and incompleteness of taxonomic reference databases. Setting up high-quality and open-access regional taxonomic reference databases for the Tibetan Plateau should be given priority in the future. To conclude, the archival, taphonomic, and methodological conditions of the Tibetan Plateau are favorable for performing sedaDNA studies. More research should be encouraged to address questions about long-term ecological dynamics at ecosystem scale and to bring the paleoecology of the Tibetan Plateau into a new era.

AB - Alpine ecosystems on the Tibetan Plateau are being threatened by ongoing climate warming and intensified human activities. Ecological time-series obtained from sedimentary ancient DNA (sedaDNA) are essential for understanding past ecosystem and biodiversity dynamics on the Tibetan Plateau and their responses to climate change at a high taxonomic resolution. Hitherto only few but promising studies have been published on this topic. The potential and limitations of using sedaDNA on the Tibetan Plateau are not fully understood. Here, we (i) provide updated knowledge of and a brief introduction to the suitable archives, region-specific taphonomy, state-of-the-art methodologies, and research questions of sedaDNA on the Tibetan Plateau; (ii) review published and ongoing sedaDNA studies from the Tibetan Plateau; and (iii) give some recommendations for future sedaDNA study designs. Based on the current knowledge of taphonomy, we infer that deep glacial lakes with freshwater and high clay sediment input, such as those from the southern and southeastern Tibetan Plateau, may have a high potential for sedaDNA studies. Metabarcoding (for microorganisms and plants), metagenomics (for ecosystems), and hybridization capture (for prehistoric humans) are three primary sedaDNA approaches which have been successfully applied on the Tibetan Plateau, but their power is still limited by several technical issues, such as PCR bias and incompleteness of taxonomic reference databases. Setting up high-quality and open-access regional taxonomic reference databases for the Tibetan Plateau should be given priority in the future. To conclude, the archival, taphonomic, and methodological conditions of the Tibetan Plateau are favorable for performing sedaDNA studies. More research should be encouraged to address questions about long-term ecological dynamics at ecosystem scale and to bring the paleoecology of the Tibetan Plateau into a new era.

KW - Biodiversity

KW - Ecosystem

KW - Environmental DNA

KW - Paleoecology

KW - Paleogeography

KW - Sedimentary ancient DNA (sedaDNA)

KW - Taphonomy

KW - Tibetan Plateau

U2 - 10.1016/j.quascirev.2022.107703

DO - 10.1016/j.quascirev.2022.107703

M3 - Journal article

AN - SCOPUS:85136645574

SN - 0277-3791

VL - 293

JO - Quaternary Science Reviews

JF - Quaternary Science Reviews

M1 - 107703

ER -