SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3173173880> ?p ?o ?g. }

Showing items 1 to 60 of 60 with 100 items per page.

W3173173880 abstract "Rapid and sustained warming of the northern high latitudes has led to increased permafrost thaw and retrogressive thaw slump (RTS) activity in some areas of the Arctic. Thaw slumps are common in the Tuktoyaktuk Coastlands (Northwest Territories, Canada) and expose relict ice wedge polygon networks that contain a long-term record of winter precipitation isotopes. Notably, the stable isotope geochemistry of ice wedges can be used as a paleotemperature proxy for the winter season, a seasonality that is largely missing from current understandings of Holocene paleoclimate change in the Arctic.&#160;In this study, we sampled lateral cross-sections of four relict ice wedges from RTS exposures at coastal sites on Hooper Island, Pelly Island, Richards Island and near Tuktoyaktuk. Ice blocks capturing the entire growth sequences of the ice wedges (i.e., ice wedge center to ice-sediment contact) were collected by chainsaw and kept frozen in field coolers, and later sub-sampled at high-resolution in a cold lab. The ice wedges were sub-sampled at 1-1.5 cm horizontal resolution, integrating ~1-3 ice veins per sample on average. We analysed the stable hydrogen- and oxygen-isotope ratios (&#948;2H and &#948;18O) of each sample (N = 803). The age of the ice was estimated by AMS-DO14C dating of 6 to 10 samples per ice wedge, evenly distributed across each wedge to capture the full range of ages. A composite &#948;18O record spanning the period 7,400-600 cal yr BP was also constructed using the dated samples only (N = 36). The all-sample co-isotope (&#948;2H-&#948;18O) data are defined by regression line that is remarkably similar to the Local Meteoric Water Line, suggesting the ice wedges reliably preserve the isotopic composition of local precipitation, which is strongly influenced by mean air temperatures. The composite record shows an increase in &#948;18O over the last 7,400 years which we interpret as a long-term warming trend of the mean winter climate. This warming trend is largely explained by increasing November-April insolation at 69&#176;N, a result that is corroborated by two independent high-resolution ice wedge records from the Siberian Arctic and is also in agreement with model-based simulations of the winter climate. This record, the first of its kind in the North American Arctic, provides a more seasonally holistic perspective on Holocene climate change and highlights the potential to use permafrost isotope records to fill paleoclimate knowledge gaps in Arctic regions were more traditional precipitation isotope archives (e.g., ice cores) do not exist." @default.
W3173173880 created "2021-07-05" @default.
W3173173880 creator A5001489939 @default.
W3173173880 creator A5009093423 @default.
W3173173880 creator A5024966932 @default.
W3173173880 creator A5045168402 @default.
W3173173880 date "2020-03-23" @default.
W3173173880 modified "2023-09-27" @default.
W3173173880 title "Long-term warming of Holocene winter temperatures in the Canadian Arctic recorded in stable water isotope ratios of ice wedges" @default.
W3173173880 doi "https://doi.org/10.5194/egusphere-egu2020-12181" @default.
W3173173880 hasPublicationYear "2020" @default.
W3173173880 type Work @default.
W3173173880 sameAs 3173173880 @default.
W3173173880 citedByCount "0" @default.
W3173173880 crossrefType "posted-content" @default.
W3173173880 hasAuthorship W3173173880A5001489939 @default.
W3173173880 hasAuthorship W3173173880A5009093423 @default.
W3173173880 hasAuthorship W3173173880A5024966932 @default.
W3173173880 hasAuthorship W3173173880A5045168402 @default.
W3173173880 hasConcept C100970517 @default.
W3173173880 hasConcept C111368507 @default.
W3173173880 hasConcept C127313418 @default.
W3173173880 hasConcept C140345934 @default.
W3173173880 hasConcept C15098985 @default.
W3173173880 hasConcept C17409809 @default.
W3173173880 hasConcept C205325660 @default.
W3173173880 hasConcept C205649164 @default.
W3173173880 hasConcept C49204034 @default.
W3173173880 hasConcept C518008717 @default.
W3173173880 hasConcept C66782727 @default.
W3173173880 hasConcept C71468253 @default.
W3173173880 hasConceptScore W3173173880C100970517 @default.
W3173173880 hasConceptScore W3173173880C111368507 @default.
W3173173880 hasConceptScore W3173173880C127313418 @default.
W3173173880 hasConceptScore W3173173880C140345934 @default.
W3173173880 hasConceptScore W3173173880C15098985 @default.
W3173173880 hasConceptScore W3173173880C17409809 @default.
W3173173880 hasConceptScore W3173173880C205325660 @default.
W3173173880 hasConceptScore W3173173880C205649164 @default.
W3173173880 hasConceptScore W3173173880C49204034 @default.
W3173173880 hasConceptScore W3173173880C518008717 @default.
W3173173880 hasConceptScore W3173173880C66782727 @default.
W3173173880 hasConceptScore W3173173880C71468253 @default.
W3173173880 hasLocation W31731738801 @default.
W3173173880 hasOpenAccess W3173173880 @default.
W3173173880 hasPrimaryLocation W31731738801 @default.
W3173173880 hasRelatedWork W11048255 @default.
W3173173880 hasRelatedWork W13748616 @default.
W3173173880 hasRelatedWork W18021272 @default.
W3173173880 hasRelatedWork W24998345 @default.
W3173173880 hasRelatedWork W27907723 @default.
W3173173880 hasRelatedWork W36253621 @default.
W3173173880 hasRelatedWork W4635067 @default.
W3173173880 hasRelatedWork W4821039 @default.
W3173173880 hasRelatedWork W6660750 @default.
W3173173880 hasRelatedWork W6851572 @default.
W3173173880 isParatext "false" @default.
W3173173880 isRetracted "false" @default.
W3173173880 magId "3173173880" @default.
W3173173880 workType "article" @default.