An ostracod-conductivity transfer function for Tibetan lakes

Steffen Mischke; Ulrike Herzschuh; Gudrun Massmann; Chengjun Zhang

doi:10.1007/s10933-006-9087-5

An ostracod-conductivity transfer function for Tibetan lakes

Steffen Mischke
, Ulrike Herzschuh
, Gudrun Massmann
, Chengjun Zhang

Faculty of Earth Sciences

University of Iceland

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

Abstract

About 145 freshwater to hypersaline lakes of the eastern Tibetan Plateau were investigated to develop a transfer function for quantitative palaeoenvironmental reconstructions using ostracods. A total of 100 lakes provided sufficient numbers of ostracod shells. Multivariate statistical techniques were used to analyse the influence of a number of environmental variables on the distributions of surface sediment ostracod assemblages. Of 23 variables determined for each site, 19 were included in the statistical analysis. Lake water electrical conductivity (8.2%), Ca% (7.6%) and Fe% (4.8%, ion concentrations as % of the cations) explained the greatest amounts of variation in the distribution of ostracod taxa among the 100 lakes. Electrical conductivity optima and tolerances were calculated for abundant taxa. A transfer function, based on weighted averaging partial least squares regression (WA-PLS), was developed for electrical conductivity (r ² = 0.71, root-mean-square-error of prediction [RMSEP] = 0.35 [12.4% of gradient length], maximum bias = 0.64 [22.4% of gradient length], as assessed by leave-one-out cross-validation) based on 96 lakes. Our results show that ostracods provide reliable estimates of electrical conductivity and can be used for quantitative palaeoenvironmental reconstructions similarly to more commonly used diatom, chironomid or pollen data.

Original language	English
Pages (from-to)	509-524
Number of pages	16
Journal	Journal of Paleolimnology
Volume	38
Issue number	4
DOIs	https://doi.org/10.1007/s10933-006-9087-5
Publication status	Published - Nov 2007

Bibliographical note

Funding Information: Acknowledgements Thanks are due to Ludwig Buckl who helped with sample treatment and ostracod picking, to Andreas Winkler and Maja Tesmer for analysis of water samples, and Huaming Shang and Yanbin Lei for help during fieldwork. Helpful comments concerning the EC-optima calculation of ostracods were provided by Steve Juggins. In addition, we wish to thank Ian Boomer and an anonymous referee for their thorough reviews and John P. Smol for many helpful comments. Funds were provided through the Deutsche Forschungsgemeinschaft (DFG).

Other keywords

CCA
Calibration data set
Electrical conductivity
Ostracoda
Salinity
Tibetan Plateau
Transfer function
Weighted averaging partial least squares regression (WA-PLS)

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10.1007/s10933-006-9087-5

Cite this

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title = "An ostracod-conductivity transfer function for Tibetan lakes",

abstract = "About 145 freshwater to hypersaline lakes of the eastern Tibetan Plateau were investigated to develop a transfer function for quantitative palaeoenvironmental reconstructions using ostracods. A total of 100 lakes provided sufficient numbers of ostracod shells. Multivariate statistical techniques were used to analyse the influence of a number of environmental variables on the distributions of surface sediment ostracod assemblages. Of 23 variables determined for each site, 19 were included in the statistical analysis. Lake water electrical conductivity (8.2\%), Ca\% (7.6\%) and Fe\% (4.8\%, ion concentrations as \% of the cations) explained the greatest amounts of variation in the distribution of ostracod taxa among the 100 lakes. Electrical conductivity optima and tolerances were calculated for abundant taxa. A transfer function, based on weighted averaging partial least squares regression (WA-PLS), was developed for electrical conductivity (r 2 = 0.71, root-mean-square-error of prediction [RMSEP] = 0.35 [12.4\% of gradient length], maximum bias = 0.64 [22.4\% of gradient length], as assessed by leave-one-out cross-validation) based on 96 lakes. Our results show that ostracods provide reliable estimates of electrical conductivity and can be used for quantitative palaeoenvironmental reconstructions similarly to more commonly used diatom, chironomid or pollen data.",

keywords = "CCA, Calibration data set, Electrical conductivity, Ostracoda, Salinity, Tibetan Plateau, Transfer function, Weighted averaging partial least squares regression (WA-PLS)",

author = "Steffen Mischke and Ulrike Herzschuh and Gudrun Massmann and Chengjun Zhang",

note = "Funding Information: Acknowledgements Thanks are due to Ludwig Buckl who helped with sample treatment and ostracod picking, to Andreas Winkler and Maja Tesmer for analysis of water samples, and Huaming Shang and Yanbin Lei for help during fieldwork. Helpful comments concerning the EC-optima calculation of ostracods were provided by Steve Juggins. In addition, we wish to thank Ian Boomer and an anonymous referee for their thorough reviews and John P. Smol for many helpful comments. Funds were provided through the Deutsche Forschungsgemeinschaft (DFG).",

year = "2007",

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doi = "10.1007/s10933-006-9087-5",

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AU - Mischke, Steffen

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AU - Zhang, Chengjun

N1 - Funding Information: Acknowledgements Thanks are due to Ludwig Buckl who helped with sample treatment and ostracod picking, to Andreas Winkler and Maja Tesmer for analysis of water samples, and Huaming Shang and Yanbin Lei for help during fieldwork. Helpful comments concerning the EC-optima calculation of ostracods were provided by Steve Juggins. In addition, we wish to thank Ian Boomer and an anonymous referee for their thorough reviews and John P. Smol for many helpful comments. Funds were provided through the Deutsche Forschungsgemeinschaft (DFG).

PY - 2007/11

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N2 - About 145 freshwater to hypersaline lakes of the eastern Tibetan Plateau were investigated to develop a transfer function for quantitative palaeoenvironmental reconstructions using ostracods. A total of 100 lakes provided sufficient numbers of ostracod shells. Multivariate statistical techniques were used to analyse the influence of a number of environmental variables on the distributions of surface sediment ostracod assemblages. Of 23 variables determined for each site, 19 were included in the statistical analysis. Lake water electrical conductivity (8.2%), Ca% (7.6%) and Fe% (4.8%, ion concentrations as % of the cations) explained the greatest amounts of variation in the distribution of ostracod taxa among the 100 lakes. Electrical conductivity optima and tolerances were calculated for abundant taxa. A transfer function, based on weighted averaging partial least squares regression (WA-PLS), was developed for electrical conductivity (r 2 = 0.71, root-mean-square-error of prediction [RMSEP] = 0.35 [12.4% of gradient length], maximum bias = 0.64 [22.4% of gradient length], as assessed by leave-one-out cross-validation) based on 96 lakes. Our results show that ostracods provide reliable estimates of electrical conductivity and can be used for quantitative palaeoenvironmental reconstructions similarly to more commonly used diatom, chironomid or pollen data.

AB - About 145 freshwater to hypersaline lakes of the eastern Tibetan Plateau were investigated to develop a transfer function for quantitative palaeoenvironmental reconstructions using ostracods. A total of 100 lakes provided sufficient numbers of ostracod shells. Multivariate statistical techniques were used to analyse the influence of a number of environmental variables on the distributions of surface sediment ostracod assemblages. Of 23 variables determined for each site, 19 were included in the statistical analysis. Lake water electrical conductivity (8.2%), Ca% (7.6%) and Fe% (4.8%, ion concentrations as % of the cations) explained the greatest amounts of variation in the distribution of ostracod taxa among the 100 lakes. Electrical conductivity optima and tolerances were calculated for abundant taxa. A transfer function, based on weighted averaging partial least squares regression (WA-PLS), was developed for electrical conductivity (r 2 = 0.71, root-mean-square-error of prediction [RMSEP] = 0.35 [12.4% of gradient length], maximum bias = 0.64 [22.4% of gradient length], as assessed by leave-one-out cross-validation) based on 96 lakes. Our results show that ostracods provide reliable estimates of electrical conductivity and can be used for quantitative palaeoenvironmental reconstructions similarly to more commonly used diatom, chironomid or pollen data.

KW - CCA

KW - Calibration data set

KW - Electrical conductivity

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KW - Salinity

KW - Tibetan Plateau

KW - Transfer function

KW - Weighted averaging partial least squares regression (WA-PLS)

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U2 - 10.1007/s10933-006-9087-5

DO - 10.1007/s10933-006-9087-5

M3 - Article

SN - 0921-2728

VL - 38

SP - 509

EP - 524

JO - Journal of Paleolimnology

JF - Journal of Paleolimnology

IS - 4

ER -

An ostracod-conductivity transfer function for Tibetan lakes

Abstract

Bibliographical note

Other keywords

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