Föhn, fire and grazing in Southern Tibet? A 20,000-year multi-proxy record in an alpine ecotonal ecosystem

Georg Miehe; Shabeh ul Hasson; Bruno Glaser; Steffen Mischke; Jürgen Böhner; Willem O. van der Knaap; Jacqueline F.N. van Leeuwen; La Duo; Sabine Miehe; Torsten Haberzettl

doi:10.1016/j.quascirev.2021.106817

Föhn, fire and grazing in Southern Tibet? A 20,000-year multi-proxy record in an alpine ecotonal ecosystem

Georg Miehe
, Shabeh ul Hasson
, Bruno Glaser
, Steffen Mischke
, Jürgen Böhner
, Willem O. van der Knaap
, Jacqueline F.N. van Leeuwen
, La Duo
, Sabine Miehe
, Torsten Haberzettl

Faculty of Earth Sciences

University of Iceland

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

Abstract

The lithology, ostracods, palynomorphs and black carbon of a sediment core from a saline wetland in the southern Tibetan highlands (29°14′33.40″N/87°13′09.10″E, 4480 m a.s.l., A.R. Xizang, China) is analyzed and climate modelling applied with respect to core questions in Quaternary research: (1) Do meso-climatic effects of regional landscape structures like high mountains overrule the effects of global climates? (2) Did life persist during the LGM? (3) Which shifts in ecosystems can be detected? (4) Does the fire-record testify for the presence of humans and their environmental impact? (5) How old is Neolithisation in the world's largest highlands? The results of this integrated multi-disciplinary investigation revealed (1) the meso-climatic effect of the Himalayan arc's relief channeled westerlies with West-Himalayan forest-pollen types into the southern Tibetan highlands, with (2) higher winter-precipitation, slightly lower summer precipitation, and the persistence of life for plants, and herbivores and therefore probably hunters. (3) The most arid period occurred between 17.8 and 15 cal kyr B.P., possibly synchronous with the Heinrich 1 event. Around 14.8 cal kyr B.P. humidity increased with torrential rains of high erosive power on sparsely plant-covered slopes and lasted until 4 cal kyr B.P. (4) The continuous fire-record proved the availability of combustible matter and a constant fire source which is believed to be human-attributed. Charcoal peaks around 17, 16 and 13 cal kyr B.P. remained sporadic until 11.5 cal kyr B.P. and attained the highest values since 8.7 cal kyr B.P. Black carbon increased steadily until 11 cal kyr B.P. and sharply peaked with high fluctuations around 10 cal kyr B.P., indicating high frequency intensive fires at the beginning of the Holocene. Between 10 and 6 cal kyr B.P. fire frequency decreases, with a slight peak around 4 cal kyr B.P. (5) The dawn of pastoralism in the early Mid Holocene Climatic Optimum dated back to 8.7 cal kyr B.P. with a decline of grass-pollen and the synchronous emergence of grazing weeds, leaving a perception gap of 5000 years between the palaeo-ecological and the archaeological state of the art.

Original language	English
Article number	106817
Journal	Quaternary Science Reviews
Volume	256
DOIs	https://doi.org/10.1016/j.quascirev.2021.106817
Publication status	Published - 15 Mar 2021

Bibliographical note

Funding Information: G. and S. Miehe’s fieldwork and evaluation were supported by the German Research Council ( DFG ). We are grateful to M. Benesch and H. Maennicke (Halle) for organic matter and black carbon analyses, respectively. Jürgen Böhner and Shabeh ul Hasson thank the support from the DFG under Germany’s Excellence Strategy – EXC2037 “CLICCS - Climate, Climatic Change, and Society ” – Project Number: 390683824 , contribution to the Center for Earth System Research and Sustainability (CEN) of Universität Hamburg. H.J.B. Birks (Bergen) helped with information about indicator values. Special thanks go to F. Schlütz (Wilhelmshaven), C. Drautz (Bonn), and F. Lehmkuhl (Aachen) for their invaluable support during the evaluation. The help of F. Badreldin (Marburg) and two unknown reviewers for improving the manuscript is especially acknowledged. Publisher Copyright: © 2021 Elsevier Ltd

Other keywords

Anthropocene
Black carbon
Climate modelling
Holocene
Last Glacial Maximum
Neolithisation
Ostracods
Palynology
Qinghai-Tibet-Plateau

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10.1016/j.quascirev.2021.106817

Cite this

@article{e566427b392345498a7a40a9657bdea6,

title = "F{\"o}hn, fire and grazing in Southern Tibet? A 20,000-year multi-proxy record in an alpine ecotonal ecosystem",

abstract = "The lithology, ostracods, palynomorphs and black carbon of a sediment core from a saline wetland in the southern Tibetan highlands (29°14′33.40″N/87°13′09.10″E, 4480 m a.s.l., A.R. Xizang, China) is analyzed and climate modelling applied with respect to core questions in Quaternary research: (1) Do meso-climatic effects of regional landscape structures like high mountains overrule the effects of global climates? (2) Did life persist during the LGM? (3) Which shifts in ecosystems can be detected? (4) Does the fire-record testify for the presence of humans and their environmental impact? (5) How old is Neolithisation in the world's largest highlands? The results of this integrated multi-disciplinary investigation revealed (1) the meso-climatic effect of the Himalayan arc's relief channeled westerlies with West-Himalayan forest-pollen types into the southern Tibetan highlands, with (2) higher winter-precipitation, slightly lower summer precipitation, and the persistence of life for plants, and herbivores and therefore probably hunters. (3) The most arid period occurred between 17.8 and 15 cal kyr B.P., possibly synchronous with the Heinrich 1 event. Around 14.8 cal kyr B.P. humidity increased with torrential rains of high erosive power on sparsely plant-covered slopes and lasted until 4 cal kyr B.P. (4) The continuous fire-record proved the availability of combustible matter and a constant fire source which is believed to be human-attributed. Charcoal peaks around 17, 16 and 13 cal kyr B.P. remained sporadic until 11.5 cal kyr B.P. and attained the highest values since 8.7 cal kyr B.P. Black carbon increased steadily until 11 cal kyr B.P. and sharply peaked with high fluctuations around 10 cal kyr B.P., indicating high frequency intensive fires at the beginning of the Holocene. Between 10 and 6 cal kyr B.P. fire frequency decreases, with a slight peak around 4 cal kyr B.P. (5) The dawn of pastoralism in the early Mid Holocene Climatic Optimum dated back to 8.7 cal kyr B.P. with a decline of grass-pollen and the synchronous emergence of grazing weeds, leaving a perception gap of 5000 years between the palaeo-ecological and the archaeological state of the art.",

keywords = "Anthropocene, Black carbon, Climate modelling, Holocene, Last Glacial Maximum, Neolithisation, Ostracods, Palynology, Qinghai-Tibet-Plateau",

author = "Georg Miehe and Hasson, \{Shabeh ul\} and Bruno Glaser and Steffen Mischke and J{\"u}rgen B{\"o}hner and \{van der Knaap\}, \{Willem O.\} and \{van Leeuwen\}, \{Jacqueline F.N.\} and La Duo and Sabine Miehe and Torsten Haberzettl",

note = "Funding Information: G. and S. Miehe{\textquoteright}s fieldwork and evaluation were supported by the German Research Council ( DFG ). We are grateful to M. Benesch and H. Maennicke (Halle) for organic matter and black carbon analyses, respectively. J{\"u}rgen B{\"o}hner and Shabeh ul Hasson thank the support from the DFG under Germany{\textquoteright}s Excellence Strategy – EXC2037 “CLICCS - Climate, Climatic Change, and Society ” – Project Number: 390683824 , contribution to the Center for Earth System Research and Sustainability (CEN) of Universit{\"a}t Hamburg. H.J.B. Birks (Bergen) helped with information about indicator values. Special thanks go to F. Schl{\"u}tz (Wilhelmshaven), C. Drautz (Bonn), and F. Lehmkuhl (Aachen) for their invaluable support during the evaluation. The help of F. Badreldin (Marburg) and two unknown reviewers for improving the manuscript is especially acknowledged. Publisher Copyright: {\textcopyright} 2021 Elsevier Ltd",

year = "2021",

month = mar,

day = "15",

doi = "10.1016/j.quascirev.2021.106817",

language = "English",

volume = "256",

journal = "Quaternary Science Reviews",

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publisher = "Elsevier Ltd.",

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TY - JOUR

T1 - Föhn, fire and grazing in Southern Tibet? A 20,000-year multi-proxy record in an alpine ecotonal ecosystem

AU - Miehe, Georg

AU - Hasson, Shabeh ul

AU - Glaser, Bruno

AU - Mischke, Steffen

AU - Böhner, Jürgen

AU - van der Knaap, Willem O.

AU - van Leeuwen, Jacqueline F.N.

AU - Duo, La

AU - Miehe, Sabine

AU - Haberzettl, Torsten

N1 - Funding Information: G. and S. Miehe’s fieldwork and evaluation were supported by the German Research Council ( DFG ). We are grateful to M. Benesch and H. Maennicke (Halle) for organic matter and black carbon analyses, respectively. Jürgen Böhner and Shabeh ul Hasson thank the support from the DFG under Germany’s Excellence Strategy – EXC2037 “CLICCS - Climate, Climatic Change, and Society ” – Project Number: 390683824 , contribution to the Center for Earth System Research and Sustainability (CEN) of Universität Hamburg. H.J.B. Birks (Bergen) helped with information about indicator values. Special thanks go to F. Schlütz (Wilhelmshaven), C. Drautz (Bonn), and F. Lehmkuhl (Aachen) for their invaluable support during the evaluation. The help of F. Badreldin (Marburg) and two unknown reviewers for improving the manuscript is especially acknowledged. Publisher Copyright: © 2021 Elsevier Ltd

PY - 2021/3/15

Y1 - 2021/3/15

N2 - The lithology, ostracods, palynomorphs and black carbon of a sediment core from a saline wetland in the southern Tibetan highlands (29°14′33.40″N/87°13′09.10″E, 4480 m a.s.l., A.R. Xizang, China) is analyzed and climate modelling applied with respect to core questions in Quaternary research: (1) Do meso-climatic effects of regional landscape structures like high mountains overrule the effects of global climates? (2) Did life persist during the LGM? (3) Which shifts in ecosystems can be detected? (4) Does the fire-record testify for the presence of humans and their environmental impact? (5) How old is Neolithisation in the world's largest highlands? The results of this integrated multi-disciplinary investigation revealed (1) the meso-climatic effect of the Himalayan arc's relief channeled westerlies with West-Himalayan forest-pollen types into the southern Tibetan highlands, with (2) higher winter-precipitation, slightly lower summer precipitation, and the persistence of life for plants, and herbivores and therefore probably hunters. (3) The most arid period occurred between 17.8 and 15 cal kyr B.P., possibly synchronous with the Heinrich 1 event. Around 14.8 cal kyr B.P. humidity increased with torrential rains of high erosive power on sparsely plant-covered slopes and lasted until 4 cal kyr B.P. (4) The continuous fire-record proved the availability of combustible matter and a constant fire source which is believed to be human-attributed. Charcoal peaks around 17, 16 and 13 cal kyr B.P. remained sporadic until 11.5 cal kyr B.P. and attained the highest values since 8.7 cal kyr B.P. Black carbon increased steadily until 11 cal kyr B.P. and sharply peaked with high fluctuations around 10 cal kyr B.P., indicating high frequency intensive fires at the beginning of the Holocene. Between 10 and 6 cal kyr B.P. fire frequency decreases, with a slight peak around 4 cal kyr B.P. (5) The dawn of pastoralism in the early Mid Holocene Climatic Optimum dated back to 8.7 cal kyr B.P. with a decline of grass-pollen and the synchronous emergence of grazing weeds, leaving a perception gap of 5000 years between the palaeo-ecological and the archaeological state of the art.

AB - The lithology, ostracods, palynomorphs and black carbon of a sediment core from a saline wetland in the southern Tibetan highlands (29°14′33.40″N/87°13′09.10″E, 4480 m a.s.l., A.R. Xizang, China) is analyzed and climate modelling applied with respect to core questions in Quaternary research: (1) Do meso-climatic effects of regional landscape structures like high mountains overrule the effects of global climates? (2) Did life persist during the LGM? (3) Which shifts in ecosystems can be detected? (4) Does the fire-record testify for the presence of humans and their environmental impact? (5) How old is Neolithisation in the world's largest highlands? The results of this integrated multi-disciplinary investigation revealed (1) the meso-climatic effect of the Himalayan arc's relief channeled westerlies with West-Himalayan forest-pollen types into the southern Tibetan highlands, with (2) higher winter-precipitation, slightly lower summer precipitation, and the persistence of life for plants, and herbivores and therefore probably hunters. (3) The most arid period occurred between 17.8 and 15 cal kyr B.P., possibly synchronous with the Heinrich 1 event. Around 14.8 cal kyr B.P. humidity increased with torrential rains of high erosive power on sparsely plant-covered slopes and lasted until 4 cal kyr B.P. (4) The continuous fire-record proved the availability of combustible matter and a constant fire source which is believed to be human-attributed. Charcoal peaks around 17, 16 and 13 cal kyr B.P. remained sporadic until 11.5 cal kyr B.P. and attained the highest values since 8.7 cal kyr B.P. Black carbon increased steadily until 11 cal kyr B.P. and sharply peaked with high fluctuations around 10 cal kyr B.P., indicating high frequency intensive fires at the beginning of the Holocene. Between 10 and 6 cal kyr B.P. fire frequency decreases, with a slight peak around 4 cal kyr B.P. (5) The dawn of pastoralism in the early Mid Holocene Climatic Optimum dated back to 8.7 cal kyr B.P. with a decline of grass-pollen and the synchronous emergence of grazing weeds, leaving a perception gap of 5000 years between the palaeo-ecological and the archaeological state of the art.

KW - Anthropocene

KW - Black carbon

KW - Climate modelling

KW - Holocene

KW - Last Glacial Maximum

KW - Neolithisation

KW - Ostracods

KW - Palynology

KW - Qinghai-Tibet-Plateau

UR - https://www.scopus.com/pages/publications/85101580011

U2 - 10.1016/j.quascirev.2021.106817

DO - 10.1016/j.quascirev.2021.106817

M3 - Article

SN - 0277-3791

VL - 256

JO - Quaternary Science Reviews

JF - Quaternary Science Reviews

M1 - 106817

ER -

Föhn, fire and grazing in Southern Tibet? A 20,000-year multi-proxy record in an alpine ecotonal ecosystem

Abstract

Bibliographical note

Other keywords

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