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Holocene climate changes in eastern Beringia (NW North America) – A systematic review of multi-proxy evidence

Lookup NU author(s): Professor Andrew HendersonORCiD, Hannah Bailey

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Abstract

Reconstructing climates of the past relies on a variety of evidence from a large number of sites to capture the varied features of climate and the spatial heterogeneity of climate change. This review summarizes available information from diverse Holocene paleoenvironmental records across eastern Beringia (Alaska, westernmost Canada and adjacent seas), and it quantifies the primary trends of temperature- and moisture-sensitive records based in part on midges, pollen, and biogeochemical indicators (compiled in the recently published Arctic Holocene database, and updated here to v2.1). The composite time series from these proxy records are compared with new summaries of mountain-glacier and lake-level fluctuations, terrestrial water-isotope records, sea-ice and sea-surface-temperature analyses, and peatland and thaw-lake initiation frequencies to clarify multi-centennial- to millennial-scale trends in Holocene climate change. To focus the synthesis, the paleo data are used to frame specific questions that can be addressed with simulations by Earth system models to investigate the causes and dynamics of past and future climate change. This systematic review shows that, during the early Holocene (11.5-8.0 ka), rather than a prominent thermal maximum as suggested previously, temperatures were highly variable, at times both higher and lower than present (approximate mid-20th-century average), with no clear spatial pattern to the variability. Composited pollen, midge and other proxy records average out the variability and show the lowest average summer and mean-annual temperatures overall across the study region during the earliest Holocene, followed by warming over the early Holocene. The sparse data available on early Holocene glaciation show that glaciers in southern Alaska were as extensive then as they were during the late Holocene. Early Holocene lake levels were low in interior Alaska, but moisture indicators show pronounced differences across the region. The highest frequency of both peatland and thaw-lake initiation ages also occurred during the early Holocene. During the middle Holocene (8-4 ka), glaciers retreated as the regional average temperature increased to a maximum between 7 and 5 ka, as reflected in most proxy types. Following the middle Holocene thermal maximum, temperatures decreased starting between 4 and 3 ka, signaling the onset of Neoglacial cooling. Glaciers in the Brooks and Alaska Ranges advanced to their maximum Holocene extent as lakes generally rose to modern levels. Temperature differences for averaged 500-year time steps typically ranged by 1-2°C for individual records in the Arctic Holocene database, with a transition to a cooler late Holocene that was neither abrupt nor spatially coherent. The longest and highest-resolution terrestrial water isotope records previously interpreted to represent changes in the Aleutian low-pressure system around this time are here shown to be largely contradictory. Furthermore, there are too few records with sufficient resolution to identify sub-centennial-scale climate anomalies, such as the 8.2 ka event. The review concludes by suggesting some priorities for future paleoclimate research in the region.


Publication metadata

Author(s): Kaufman DS, Axford YL, Henderson ACG, McKay NP, Oswald WW, Saenger C, Anderson RS, Bailey HL, Clegg B, Gajewski K, Hu FS, Jones MC, Massa C, Routson CC, Werner A, Wooller MJ, Yu ZC

Publication type: Article

Publication status: Published

Journal: Quaternary Science Reviews

Year: 2015

Volume: 147

Pages: 312-339

Print publication date: 01/09/2016

Online publication date: 19/01/2016

Acceptance date: 05/10/2015

ISSN (print): 0277-3791

ISSN (electronic): 1873-457X

Publisher: Elsevier

URL: https://doi.org/10.1016/j.quascirev.2015.10.021

DOI: 10.1016/j.quascirev.2015.10.021


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