Significantly warmer Arctic surface temperatures during the Pliocene indicated by multiple independent proxies

A. P. Ballantyne; D. R. Greenwood; J. S. Sinninghe Damste; A. Z. Csank; J. J. Eberle; N. Rybczynski

doi:10.1130/G30815.1

Significantly warmer Arctic surface temperatures during the Pliocene indicated by multiple independent proxies

A. P. Ballantyne, D. R. Greenwood, J. S. Sinninghe Damste, A. Z. Csank, J. J. Eberle, N. Rybczynski

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

Abstract

Temperatures in the Arctic have increased by an astounding 1 degrees C in response to anthropogenic forcing over the past 20 years and are expected to rise further in the coming decades. The Pliocene (2.6-5.3 Ma) is of particular interest as an analog for future warming because global temperatures were significantly warmer than today for a sustained period of time, with continental configurations similar to present. Here, we estimate mean annual temperature (MAT) based upon three independent proxies from an early Pliocene peat deposit in the Canadian High Arctic. Our proxies, including oxygen isotopes and annual ring widths (MAT = -0.5 +/- 1.9 degrees C), coexistence of paleovegetation (MAT = -0.4 +/- 4.1 degrees C), and bacterial tetraether composition in paleosols (MAT = -0.6 +/- 5.0 degrees C), yield estimates that are statistically indistinguishable. The consensus among these proxies suggests that Arctic temperatures were similar to 19 degrees C warmer during the Pliocene than at present, while atmospheric CO2 concentrations were similar to 390 ppmv. These elevated Arctic Pliocene temperatures result in a greatly reduced and asymmetrical latitudinal temperature gradient that is probably the result of increased poleward heat transport and decreased albedo. These results indicate that Arctic temperatures may be exceedingly sensitive to anthropogenic CO2 emissions.

Original language	English
Pages (from-to)	603-606
Number of pages	4
Journal	Geology
Volume	38
Issue number	7
DOIs	https://doi.org/10.1130/G30815.1
Publication status	Published - Jul 2010
Externally published	Yes

Funding

Ballantyne and Eberle were supported by NSF, Greenwood and Rybczynski were supported by the Natural Sciences and Engineering Research Council of Canada, and Sinninghe Damste was supported by Netherlands Organization for Scientific Research and the European Research Council. This manuscript benefited from comments by C. R. Harington. This research was authorized by Nunavut's Department of Culture, Language, Elders and Youth, and the Qikiqtani Inuit Association. This is contribution 00310 to the Polar Continental Shelf Program and the International Polar Year.

Funders	Funder number
NSF
Natural Sciences and Engineering Research Council of Canada
Netherlands Organization for Applied Scientific Research (TNO)
European Research Council

Keywords

North-america
Sea-ice
Albedo
Environments
Constraints
Pleistocene
Glaciation
Greenland
Miocene
Beetle

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10.1130/G30815.1

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abstract = "Temperatures in the Arctic have increased by an astounding 1 degrees C in response to anthropogenic forcing over the past 20 years and are expected to rise further in the coming decades. The Pliocene (2.6-5.3 Ma) is of particular interest as an analog for future warming because global temperatures were significantly warmer than today for a sustained period of time, with continental configurations similar to present. Here, we estimate mean annual temperature (MAT) based upon three independent proxies from an early Pliocene peat deposit in the Canadian High Arctic. Our proxies, including oxygen isotopes and annual ring widths (MAT = -0.5 +/- 1.9 degrees C), coexistence of paleovegetation (MAT = -0.4 +/- 4.1 degrees C), and bacterial tetraether composition in paleosols (MAT = -0.6 +/- 5.0 degrees C), yield estimates that are statistically indistinguishable. The consensus among these proxies suggests that Arctic temperatures were similar to 19 degrees C warmer during the Pliocene than at present, while atmospheric CO2 concentrations were similar to 390 ppmv. These elevated Arctic Pliocene temperatures result in a greatly reduced and asymmetrical latitudinal temperature gradient that is probably the result of increased poleward heat transport and decreased albedo. These results indicate that Arctic temperatures may be exceedingly sensitive to anthropogenic CO2 emissions.",

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Significantly warmer Arctic surface temperatures during the Pliocene indicated by multiple independent proxies

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