A chironomid-based mean July temperature inference model from the south-east margin of the Tibetan Plateau, China
A chironomid-based mean July temperature inference model from the south-east margin of the Tibetan Plateau, China
Chironomid-based calibration training set comprised of 100 lakes from south-western China was established. Multivariate ordination analyses were used to investigate the relationship between the distribution and abundance of chironomid species and environmental variables from these lakes. Canonical correspondence analyses (CCAs) and partial CCAs showed that mean July temperature is one of the independent and significant variables explaining the second largest amount of variance after potassium ions(K+) in the 100 south-western Chinese lakes. Quantitative transfer functions were created using the chironomid assemblages for this calibration data set. The second component of the weighted average partial least square (WA-PLS) model produced a coefficient of determination (r2bootstrap) of 0.63, maximum bias (bootstrap) of 5.16 and root mean squared error of prediction (RMSEP) of 2.31°C. We applied the transfer functions to a 150-year chironomid record from Tiancai Lake (26°38′3.8 N, 99°43’E, 3898 m a.s.l), Yunnan, China to obtain mean July temperature inferences. We validated these results by applying several reconstruction diagnostics and comparing them to a 50-year instrumental record from the nearest weather station (26°51'29.22"N, 100°14'2.34"E, 2390 m a.s.l). The transfer function performs well in this comparison. We argue that this 100-lake large training set is suitable for reconstruction work despite the low explanatory power of mean July temperature because it contains a complete range of modern temperature and environmental data for the chironomid taxa observed and is therefore robust.
Zhang, Enlou
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Chang, Jie
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Cao, Yanmin
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Tang, Hongqu
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Langdon, Peter
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Shulmeister, James
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Wang, Rong
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Yang, Xiangdong
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Shen, Ji
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Zhang, Enlou
d69a1979-6a81-44d8-96cd-a6ed19bcda03
Chang, Jie
4a0808ec-10d6-41cc-96d8-4ca561beb31d
Cao, Yanmin
7c296898-cf85-412c-b126-9e68f2b9063c
Tang, Hongqu
b8c44c20-f206-49b0-8607-323cebaa08e9
Langdon, Peter
95b97671-f9fe-4884-aca6-9aa3cd1a6d7f
Shulmeister, James
6b472348-dab2-44b7-8543-62d65c5705cc
Wang, Rong
fd4ca2d0-78f2-40c2-aad1-355e7f3f3022
Yang, Xiangdong
5b5830c8-3ece-4df9-9b3a-1cfaed35d8e2
Shen, Ji
5ed35aaf-5773-4955-b0e6-efd88156b616
Zhang, Enlou, Chang, Jie, Cao, Yanmin, Tang, Hongqu, Langdon, Peter, Shulmeister, James, Wang, Rong, Yang, Xiangdong and Shen, Ji
(2017)
A chironomid-based mean July temperature inference model from the south-east margin of the Tibetan Plateau, China.
Climate of the Past.
(In Press)
Abstract
Chironomid-based calibration training set comprised of 100 lakes from south-western China was established. Multivariate ordination analyses were used to investigate the relationship between the distribution and abundance of chironomid species and environmental variables from these lakes. Canonical correspondence analyses (CCAs) and partial CCAs showed that mean July temperature is one of the independent and significant variables explaining the second largest amount of variance after potassium ions(K+) in the 100 south-western Chinese lakes. Quantitative transfer functions were created using the chironomid assemblages for this calibration data set. The second component of the weighted average partial least square (WA-PLS) model produced a coefficient of determination (r2bootstrap) of 0.63, maximum bias (bootstrap) of 5.16 and root mean squared error of prediction (RMSEP) of 2.31°C. We applied the transfer functions to a 150-year chironomid record from Tiancai Lake (26°38′3.8 N, 99°43’E, 3898 m a.s.l), Yunnan, China to obtain mean July temperature inferences. We validated these results by applying several reconstruction diagnostics and comparing them to a 50-year instrumental record from the nearest weather station (26°51'29.22"N, 100°14'2.34"E, 2390 m a.s.l). The transfer function performs well in this comparison. We argue that this 100-lake large training set is suitable for reconstruction work despite the low explanatory power of mean July temperature because it contains a complete range of modern temperature and environmental data for the chironomid taxa observed and is therefore robust.
Text
Zhang et al cp-manuscript-Jan-10-2017-clean
- Accepted Manuscript
More information
Accepted/In Press date: 23 February 2017
Organisations:
Palaeoenvironment Laboratory (PLUS)
Identifiers
Local EPrints ID: 407639
URI: http://eprints.soton.ac.uk/id/eprint/407639
ISSN: 1814-9332
PURE UUID: 9e62ca5a-3bca-4b1e-8bfd-459a3928fe83
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Date deposited: 16 Apr 2017 17:08
Last modified: 16 Mar 2024 05:05
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Contributors
Author:
Enlou Zhang
Author:
Jie Chang
Author:
Yanmin Cao
Author:
Hongqu Tang
Author:
James Shulmeister
Author:
Rong Wang
Author:
Xiangdong Yang
Author:
Ji Shen
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