Alkenone-based reconstructions reveal four-phase Holocene temperature evolution for High Arctic Svalbard

WGM van der Bilt, WJ D'Andrea, J Bakke… - Quaternary Science …, 2018 - Elsevier
Quaternary Science Reviews, 2018Elsevier
Situated at the crossroads of major oceanic and atmospheric circulation patterns, the Arctic
is a key component of Earth's climate system. Compounded by sea-ice feedbacks, even
modest shifts in the region's heat budget drive large climate responses. This is highlighted
by the observed amplified response of the Arctic to global warming. Assessing the imprint
and signature of underlying forcing mechanisms require paleoclimate records, allowing us
to expand our knowledge beyond the short instrumental period and contextualize ongoing …
Situated at the crossroads of major oceanic and atmospheric circulation patterns, the Arctic is a key component of Earth's climate system. Compounded by sea-ice feedbacks, even modest shifts in the region's heat budget drive large climate responses. This is highlighted by the observed amplified response of the Arctic to global warming. Assessing the imprint and signature of underlying forcing mechanisms require paleoclimate records, allowing us to expand our knowledge beyond the short instrumental period and contextualize ongoing warming. However, such datasets are scarce and sparse in the Arctic, limiting our ability to address these issues. Here, we present two quantitative Holocene-length paleotemperature records from the High Arctic Svalbard archipelago, situated in the climatically sensitive Arctic North Atlantic. Temperature estimates are based on U 37 K unsaturation ratios from sediment cores of two lakes. Our data reveal a dynamic Holocene temperature evolution, with reconstructed summer lake water temperatures spanning a range of∼ 6–8° C, and characterized by four phases. The Early Holocene was marked by an early onset (∼ 10.5 ka cal. BP) of insolation-driven Hypsithermal conditions, likely compounded by strengthening oceanic heat transport. This warm interval was interrupted by cooling between∼ 10.5–8.3 ka cal. BP that we attribute to cooling effects from the melting Northern Hemisphere ice sheets. Temperatures declined throughout the Middle Holocene, following a gradual trend that was accentuated by two cooling steps between∼ 7.8–7 ka cal. BP and around∼ 4.4–4.3 ka cal. BP. These transitions coincide with a strengthening influence of Arctic water and sea-ice in the adjacent Fram Strait. During the Late Holocene (past 4 ka), temperature change decoupled from the still-declining insolation, and fluctuated around comparatively cold mean conditions. By showing that Holocene Svalbard temperatures were governed by an alternation of forcings, this study improves our understanding of Arctic climate dynamics.
Elsevier
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