Dendro-provenancing of Arctic driftwood

Arctic driftwood may represent a cross-disciplinary proxy archive at the interface of marine and terrestrial environments, which will likely gain in importance under future global climate change. Circumpolar network analyses that systematically consider species-specific boreal origin areas, transpor...

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Published in:Quaternary Science Reviews
Main Authors: Hellmann, L., Tegel, W., Geyer, J., Kirdyanov, A. V., Nikolaev, A. N., Eggertsson, O., Altman, J., Reinig, F., Morganti, S., Wacker, L., Büntgen, U.
Other Authors: Институт экологии и географии, Лаборатория биогеохимии экосистем
Format: Article in Journal/Newspaper
Language:unknown
Published: 2017
Subjects:
Driftwood
Arctic ocean
Boreal forest
Dendro-provenancing
Larix sp
39.19.25
Arctic
Arctic Ocean
Faroe Islands
Greenland
Svalbard
Climate change
Iceland
lena delta
lena river
Sea ice
Siberia
Online Access:https://doi.org/10.1016/j.quascirev.2017.02.025
https://openrepository.ru/article?id=453742
id ftneicon:oai:rour.neicon.ru:rour/453742
record_format openpolar
spelling ftneicon:oai:rour.neicon.ru:rour/453742 2023-05-15T14:26:59+02:00 Dendro-provenancing of Arctic driftwood Hellmann, L. Tegel, W. Geyer, J. Kirdyanov, A. V. Nikolaev, A. N. Eggertsson, O. Altman, J. Reinig, F. Morganti, S. Wacker, L. Büntgen, U. Институт экологии и географии Лаборатория биогеохимии экосистем 2017-04 https://doi.org/10.1016/j.quascirev.2017.02.025 https://openrepository.ru/article?id=453742 unknown Quaternary Science Reviews Q1 http://rour.neicon.ru:80/xmlui/bitstream/rour/453742/1/nora.pdf Hellmann, L. Dendro-provenancing of Arctic driftwood [Текст] / L. Hellmann, W. Tegel, J. Geyer, A. V. Kirdyanov, A. N. Nikolaev, O. Eggertsson, J. Altman, F. Reinig, S. Morganti, L. Wacker, U. Büntgen // Quaternary Science Reviews. — 2017. — Т. 162. — С. 1-11 02773791 doi:10.1016/j.quascirev.2017.02.025 https://openrepository.ru/article?id=453742 Driftwood Arctic ocean Boreal forest Dendro-provenancing Larix sp 39.19.25 Journal Article Journal Article Preprint 2017 ftneicon https://doi.org/10.1016/j.quascirev.2017.02.025 2020-07-21T13:05:24Z Arctic driftwood may represent a cross-disciplinary proxy archive at the interface of marine and terrestrial environments, which will likely gain in importance under future global climate change. Circumpolar network analyses that systematically consider species-specific boreal origin areas, transport routes and deposition characteristics of Arctic driftwood, are, however, missing. Here, we present tree-ring width (TRW) measurements of 2412 pine, larch and spruce driftwood samples from Greenland, Iceland, Svalbard, the Faroe Islands, and the Lena Delta in northeastern Siberia. Representing the largest Arctic driftwood TRW compilation, these data are compared against 495 TRW reference chronologies from the boreal forests of Eurasia and North America. The southern Yenisei region is the main source for recent pine driftwood at all Arctic sampling sites, whereas spruce mainly originates in western Russia and central Siberia, as well as in northern North America. Larch driftwood is, for the first time, dendro-provenanced to central and eastern Siberia. A new larch driftwood chronology extends the middle Lena River reference chronology back to 1203 CE. Annually resolved radiocarbon measurements further date six larch driftwood chronologies between 1294 and 2013 CE. Although being highly replicated, our study emphasizes the importance of interdisciplinary research efforts including radiocarbon dating, isotopic tracing and aDNA processing for improving Arctic driftwood provenancing in space and time. If successful, Arctic driftwood studies will contribute to the reconstruction of past boreal summer temperature variations and ocean current dynamics, as well as changes in sea ice extent and relative sea level over the last centuries to millennia. Article in Journal/Newspaper Arctic Arctic Arctic Ocean Climate change Faroe Islands Greenland Iceland lena delta lena river Sea ice Svalbard Siberia NORA (National aggregator of open repositories of Russian universities) Arctic Arctic Ocean Faroe Islands Greenland Svalbard Quaternary Science Reviews 162 1 11
institution Open Polar
collection NORA (National aggregator of open repositories of Russian universities)
op_collection_id ftneicon
language unknown
topic Driftwood
Arctic ocean
Boreal forest
Dendro-provenancing
Larix sp
39.19.25
spellingShingle Driftwood
Arctic ocean
Boreal forest
Dendro-provenancing
Larix sp
39.19.25
Hellmann, L.
Tegel, W.
Geyer, J.
Kirdyanov, A. V.
Nikolaev, A. N.
Eggertsson, O.
Altman, J.
Reinig, F.
Morganti, S.
Wacker, L.
Büntgen, U.
Dendro-provenancing of Arctic driftwood
topic_facet Driftwood
Arctic ocean
Boreal forest
Dendro-provenancing
Larix sp
39.19.25
description Arctic driftwood may represent a cross-disciplinary proxy archive at the interface of marine and terrestrial environments, which will likely gain in importance under future global climate change. Circumpolar network analyses that systematically consider species-specific boreal origin areas, transport routes and deposition characteristics of Arctic driftwood, are, however, missing. Here, we present tree-ring width (TRW) measurements of 2412 pine, larch and spruce driftwood samples from Greenland, Iceland, Svalbard, the Faroe Islands, and the Lena Delta in northeastern Siberia. Representing the largest Arctic driftwood TRW compilation, these data are compared against 495 TRW reference chronologies from the boreal forests of Eurasia and North America. The southern Yenisei region is the main source for recent pine driftwood at all Arctic sampling sites, whereas spruce mainly originates in western Russia and central Siberia, as well as in northern North America. Larch driftwood is, for the first time, dendro-provenanced to central and eastern Siberia. A new larch driftwood chronology extends the middle Lena River reference chronology back to 1203 CE. Annually resolved radiocarbon measurements further date six larch driftwood chronologies between 1294 and 2013 CE. Although being highly replicated, our study emphasizes the importance of interdisciplinary research efforts including radiocarbon dating, isotopic tracing and aDNA processing for improving Arctic driftwood provenancing in space and time. If successful, Arctic driftwood studies will contribute to the reconstruction of past boreal summer temperature variations and ocean current dynamics, as well as changes in sea ice extent and relative sea level over the last centuries to millennia.
author2 Институт экологии и географии
Лаборатория биогеохимии экосистем
format Article in Journal/Newspaper
author Hellmann, L.
Tegel, W.
Geyer, J.
Kirdyanov, A. V.
Nikolaev, A. N.
Eggertsson, O.
Altman, J.
Reinig, F.
Morganti, S.
Wacker, L.
Büntgen, U.
author_facet Hellmann, L.
Tegel, W.
Geyer, J.
Kirdyanov, A. V.
Nikolaev, A. N.
Eggertsson, O.
Altman, J.
Reinig, F.
Morganti, S.
Wacker, L.
Büntgen, U.
author_sort Hellmann, L.
title Dendro-provenancing of Arctic driftwood
title_short Dendro-provenancing of Arctic driftwood
title_full Dendro-provenancing of Arctic driftwood
title_fullStr Dendro-provenancing of Arctic driftwood
title_full_unstemmed Dendro-provenancing of Arctic driftwood
title_sort dendro-provenancing of arctic driftwood
publishDate 2017
url https://doi.org/10.1016/j.quascirev.2017.02.025
https://openrepository.ru/article?id=453742
geographic Arctic
Arctic Ocean
Faroe Islands
Greenland
Svalbard
geographic_facet Arctic
Arctic Ocean
Faroe Islands
Greenland
Svalbard
genre Arctic
Arctic
Arctic Ocean
Climate change
Faroe Islands
Greenland
Iceland
lena delta
lena river
Sea ice
Svalbard
Siberia
genre_facet Arctic
Arctic
Arctic Ocean
Climate change
Faroe Islands
Greenland
Iceland
lena delta
lena river
Sea ice
Svalbard
Siberia
op_relation Quaternary Science Reviews
Q1
http://rour.neicon.ru:80/xmlui/bitstream/rour/453742/1/nora.pdf
Hellmann, L. Dendro-provenancing of Arctic driftwood [Текст] / L. Hellmann, W. Tegel, J. Geyer, A. V. Kirdyanov, A. N. Nikolaev, O. Eggertsson, J. Altman, F. Reinig, S. Morganti, L. Wacker, U. Büntgen // Quaternary Science Reviews. — 2017. — Т. 162. — С. 1-11
02773791
doi:10.1016/j.quascirev.2017.02.025
https://openrepository.ru/article?id=453742
op_doi https://doi.org/10.1016/j.quascirev.2017.02.025
container_title Quaternary Science Reviews
container_volume 162
container_start_page 1
op_container_end_page 11
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