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dc.contributor.author Meyer, Hanno
dc.contributor.author Opel, Thomas
dc.contributor.author Laepple, Thomas
dc.contributor.author Dereviagin, Alexander Yu
dc.contributor.author Hoffmann, Kirstin
dc.contributor.author Werner, Martin
dc.coverage.spatial LATITUDE: 72.376480 * LONGITUDE: 126.489230 * MINIMUM ORDINAL NUMBER: 1 * MAXIMUM ORDINAL NUMBER: 42
dc.date.accessioned 2019-11-26T02:55:09Z
dc.date.available 2019-11-26T02:55:09Z
dc.date.issued 2015-01-30
dc.identifier https://doi.pangaea.de/10.1594/PANGAEA.842166
dc.identifier https://doi.org/10.1594/PANGAEA.842166
dc.identifier.citation Meyer, Hanno; Opel, Thomas; Laepple, Thomas; Dereviagin, Alexander Yu; Hoffmann, Kirstin; Werner, Martin (2015): Long-term winter warming trend in the Siberian Arctic during the mid- to late Holocene. Nature Geoscience, 8(2), 122-125, https://doi.org/10.1038/ngeo2349
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/7953
dc.description.abstract Relative to the past 2,000 years, the Arctic region has warmed significantly over the past few decades. However, the evolution of Arctic temperatures during the rest of the Holocene is less clear. Proxy reconstructions, suggest a long-term cooling trend throughout the mid- to late Holocene, whereas climate model simulations show only minor changes or even warming. Here we present a record of the oxygen isotope composition of permafrost ice wedges from the Lena River Delta in the Siberian Arctic. The isotope values, which reflect winter season temperatures, became progressively more enriched over the past 7,000 years, reaching unprecedented levels in the past five decades. This warming trend during the mid- to late Holocene is in opposition to the cooling seen in other proxy records. However, most of these existing proxy records are biased towards summer temperatures. We argue that the opposing trends are related to the seasonally different orbital forcing over this interval. Furthermore, our reconstructed trend as well as the recent maximum are consistent with the greenhouse gas forcing and climate model simulations, thus reconciling differing estimates of Arctic and northern high-latitude temperature evolution during the Holocene.
dc.format text/tab-separated-values, 460 data points
dc.language.iso en
dc.publisher PANGAEA
dc.rights CC-BY-3.0: Creative Commons Attribution 3.0 Unported
dc.rights Access constraints: unrestricted
dc.source Supplement to: Meyer, Hanno; Opel, Thomas; Laepple, Thomas; Dereviagin, Alexander Yu; Hoffmann, Kirstin; Werner, Martin (2015): Long-term winter warming trend in the Siberian Arctic during the mid- to late Holocene. Nature Geoscience, 8(2), 122-125, https://doi.org/10.1038/ngeo2349
dc.subject Age, 14C AMS
dc.subject Age, 14C calibrated, IntCal13 (Reimer et al., 2013)
dc.subject Age, dated
dc.subject Age, dated material
dc.subject Age, dated standard deviation
dc.subject AWI_PerDyn
dc.subject Lithologic unit/sequence
dc.subject Mass spectrometer Finnigan Delta-S
dc.subject MULT
dc.subject ORDINAL NUMBER
dc.subject Permafrost Research (Periglacial Dynamics) @ AWI
dc.subject Probability
dc.subject Samoylov_Island
dc.subject Samoylov Island, Lena Delta, Siberia
dc.subject Sample code/label
dc.subject Sample ID
dc.subject Site
dc.subject δ18O
dc.title Long-term winter warming trend in the Siberian Arctic during the mid- to late Holocene.
dc.title.alternative (Table S1) Radiocarbon dates of organic matter from Lena Delta ice wedges
dc.type Dataset


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