Last Interglacial Arctic warmth confirms polar amplification of climate change

Pat Anderson; Ole Bennike; Nancy Bigelow; Julie Brigham-Grette; Matt Duvall; Mary Edwards; Bianca Fréchette; Svend Funder; Sigfus Johnsen; Jochen Knies; Roy Koerner; Anatoly Lozhkin; Shawn Marshall; Jens Matthiessen; Glen Macdonald; Gifford Miller; Marisa Montoya; Daniel Muhs; Bette Otto-Bliesner; Jonathan Overpeck; Niels Reeh; Hans Petter Sejrup; Robert Spielhagen; Charles Turner; Andrei Velichko

doi:10.1016/j.quascirev.2006.01.033

Last Interglacial Arctic warmth confirms polar amplification of climate change

Pat Anderson, Ole Bennike, Nancy Bigelow, Julie Brigham-Grette, Matt Duvall, Mary Edwards, Bianca Fréchette, Svend Funder, Sigfus Johnsen, Jochen Knies, Roy Koerner, Anatoly Lozhkin, Shawn Marshall, Jens Matthiessen, Glen Macdonald, Gifford Miller, Marisa Montoya, Daniel Muhs, Bette Otto-Bliesner, Jonathan OverpeckNiels Reeh, Hans Petter Sejrup, Robert Spielhagen, Charles Turner, Andrei Velichko

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

224 Scopus citations

Abstract

The warmest millennia of at least the past 250,000 years occurred during the Last Interglaciation, when global ice volumes were similar to or smaller than today and systematic variations in Earth's orbital parameters aligned to produce a strong positive summer insolation anomaly throughout the Northern Hemisphere. The average insolation during the key summer months (M, J, J) was ca 11% above present across the Northern Hemisphere between 130,000 and 127,000 years ago, with a slightly greater anomaly, 13%, over the Arctic. Greater summer insolation, early penultimate deglaciation, and intensification of the North Atlantic Drift, combined to reduce Arctic Ocean sea ice, allow expansion of boreal forest to the Arctic Ocean shore across vast regions, reduce permafrost, and melt almost all glaciers in the Northern Hemisphere. Insolation, amplified by key boundary condition feedbacks, collectively produced Last Interglacial summer temperature anomalies 4-5 °C above present over most Arctic lands, significantly above the average Northern Hemisphere anomaly. The Last Interglaciation demonstrates the strength of positive feedbacks on Arctic warming and provides a potentially conservative analogue for anticipated future greenhouse warming.

Original language	English (US)
Pages (from-to)	1383-1400
Number of pages	18
Journal	Quaternary Science Reviews
Volume	25
Issue number	13-14
DOIs	https://doi.org/10.1016/j.quascirev.2006.01.033
State	Published - Jul 1 2006
Externally published	Yes

ASJC Scopus subject areas

Global and Planetary Change
Ecology, Evolution, Behavior and Systematics
Archaeology
Archaeology
Geology

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10.1016/j.quascirev.2006.01.033

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Anderson, P., Bennike, O., Bigelow, N., Brigham-Grette, J., Duvall, M., Edwards, M., Fréchette, B., Funder, S., Johnsen, S., Knies, J., Koerner, R., Lozhkin, A., Marshall, S., Matthiessen, J., Macdonald, G., Miller, G., Montoya, M., Muhs, D., Otto-Bliesner, B., ... Velichko, A. (2006). Last Interglacial Arctic warmth confirms polar amplification of climate change. Quaternary Science Reviews, 25(13-14), 1383-1400. https://doi.org/10.1016/j.quascirev.2006.01.033

Anderson, P, Bennike, O, Bigelow, N, Brigham-Grette, J, Duvall, M, Edwards, M, Fréchette, B, Funder, S, Johnsen, S, Knies, J, Koerner, R, Lozhkin, A, Marshall, S, Matthiessen, J, Macdonald, G, Miller, G, Montoya, M, Muhs, D, Otto-Bliesner, B, Overpeck, J, Reeh, N, Sejrup, HP, Spielhagen, R, Turner, C & Velichko, A 2006, 'Last Interglacial Arctic warmth confirms polar amplification of climate change', Quaternary Science Reviews, vol. 25, no. 13-14, pp. 1383-1400. https://doi.org/10.1016/j.quascirev.2006.01.033

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title = "Last Interglacial Arctic warmth confirms polar amplification of climate change",

abstract = "The warmest millennia of at least the past 250,000 years occurred during the Last Interglaciation, when global ice volumes were similar to or smaller than today and systematic variations in Earth's orbital parameters aligned to produce a strong positive summer insolation anomaly throughout the Northern Hemisphere. The average insolation during the key summer months (M, J, J) was ca 11% above present across the Northern Hemisphere between 130,000 and 127,000 years ago, with a slightly greater anomaly, 13%, over the Arctic. Greater summer insolation, early penultimate deglaciation, and intensification of the North Atlantic Drift, combined to reduce Arctic Ocean sea ice, allow expansion of boreal forest to the Arctic Ocean shore across vast regions, reduce permafrost, and melt almost all glaciers in the Northern Hemisphere. Insolation, amplified by key boundary condition feedbacks, collectively produced Last Interglacial summer temperature anomalies 4-5 °C above present over most Arctic lands, significantly above the average Northern Hemisphere anomaly. The Last Interglaciation demonstrates the strength of positive feedbacks on Arctic warming and provides a potentially conservative analogue for anticipated future greenhouse warming.",

author = "Pat Anderson and Ole Bennike and Nancy Bigelow and Julie Brigham-Grette and Matt Duvall and Mary Edwards and Bianca Fr{\'e}chette and Svend Funder and Sigfus Johnsen and Jochen Knies and Roy Koerner and Anatoly Lozhkin and Shawn Marshall and Jens Matthiessen and Glen Macdonald and Gifford Miller and Marisa Montoya and Daniel Muhs and Bette Otto-Bliesner and Jonathan Overpeck and Niels Reeh and Sejrup, {Hans Petter} and Robert Spielhagen and Charles Turner and Andrei Velichko",

note = "Funding Information: CAPE (Circum-Arctic PaleoEnvironments) is an activity within PAGES, a core program of the International Geosphere-Biosphere Program (IGBP), with a mandate to facilitate international syntheses of Arctic records of past environments. The CAPE Last Interglacial Workshop was held in coastal Maine, USA, in October 2002, at facilities operated by Bates College, Lewiston, Maine. We thank M. Retelle for facilitating local arrangements. Support for the workshop was provided by the US NSF through the PARCS (Paleoenvironmental Arctic Science) Program funded by OPP-ARCSS and ESH, as well as various national and international funding agencies that assisted in travel support for the participants. Critical reviews by Norbert Kuhl and an unidentified referee significantly helped to clarify the manuscript. ",

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AU - Anderson, Pat

AU - Bennike, Ole

AU - Bigelow, Nancy

AU - Brigham-Grette, Julie

AU - Duvall, Matt

AU - Edwards, Mary

AU - Fréchette, Bianca

AU - Funder, Svend

AU - Johnsen, Sigfus

AU - Knies, Jochen

AU - Koerner, Roy

AU - Lozhkin, Anatoly

AU - Marshall, Shawn

AU - Matthiessen, Jens

AU - Macdonald, Glen

AU - Miller, Gifford

AU - Montoya, Marisa

AU - Muhs, Daniel

AU - Otto-Bliesner, Bette

AU - Overpeck, Jonathan

AU - Reeh, Niels

AU - Sejrup, Hans Petter

AU - Spielhagen, Robert

AU - Turner, Charles

AU - Velichko, Andrei

N1 - Funding Information: CAPE (Circum-Arctic PaleoEnvironments) is an activity within PAGES, a core program of the International Geosphere-Biosphere Program (IGBP), with a mandate to facilitate international syntheses of Arctic records of past environments. The CAPE Last Interglacial Workshop was held in coastal Maine, USA, in October 2002, at facilities operated by Bates College, Lewiston, Maine. We thank M. Retelle for facilitating local arrangements. Support for the workshop was provided by the US NSF through the PARCS (Paleoenvironmental Arctic Science) Program funded by OPP-ARCSS and ESH, as well as various national and international funding agencies that assisted in travel support for the participants. Critical reviews by Norbert Kuhl and an unidentified referee significantly helped to clarify the manuscript.

PY - 2006/7/1

Y1 - 2006/7/1

N2 - The warmest millennia of at least the past 250,000 years occurred during the Last Interglaciation, when global ice volumes were similar to or smaller than today and systematic variations in Earth's orbital parameters aligned to produce a strong positive summer insolation anomaly throughout the Northern Hemisphere. The average insolation during the key summer months (M, J, J) was ca 11% above present across the Northern Hemisphere between 130,000 and 127,000 years ago, with a slightly greater anomaly, 13%, over the Arctic. Greater summer insolation, early penultimate deglaciation, and intensification of the North Atlantic Drift, combined to reduce Arctic Ocean sea ice, allow expansion of boreal forest to the Arctic Ocean shore across vast regions, reduce permafrost, and melt almost all glaciers in the Northern Hemisphere. Insolation, amplified by key boundary condition feedbacks, collectively produced Last Interglacial summer temperature anomalies 4-5 °C above present over most Arctic lands, significantly above the average Northern Hemisphere anomaly. The Last Interglaciation demonstrates the strength of positive feedbacks on Arctic warming and provides a potentially conservative analogue for anticipated future greenhouse warming.

AB - The warmest millennia of at least the past 250,000 years occurred during the Last Interglaciation, when global ice volumes were similar to or smaller than today and systematic variations in Earth's orbital parameters aligned to produce a strong positive summer insolation anomaly throughout the Northern Hemisphere. The average insolation during the key summer months (M, J, J) was ca 11% above present across the Northern Hemisphere between 130,000 and 127,000 years ago, with a slightly greater anomaly, 13%, over the Arctic. Greater summer insolation, early penultimate deglaciation, and intensification of the North Atlantic Drift, combined to reduce Arctic Ocean sea ice, allow expansion of boreal forest to the Arctic Ocean shore across vast regions, reduce permafrost, and melt almost all glaciers in the Northern Hemisphere. Insolation, amplified by key boundary condition feedbacks, collectively produced Last Interglacial summer temperature anomalies 4-5 °C above present over most Arctic lands, significantly above the average Northern Hemisphere anomaly. The Last Interglaciation demonstrates the strength of positive feedbacks on Arctic warming and provides a potentially conservative analogue for anticipated future greenhouse warming.

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Last Interglacial Arctic warmth confirms polar amplification of climate change

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