A millennial summer temperature reconstruction for northeastern Canada using oxygen isotopes in subfossil trees

A millennial summer temperature reconstruction for northeastern Canada using oxygen isotopes in subfossil trees

Climatic reconstructions for northeastern Canada are scarce such that this area is under-represented in global temperature reconstructions. To fill this lack of knowledge and identify the most important processes influencing climate variability, this study presents the first summer temperature recon...

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Main Authors: M. Naulier, M. M. Savard, C. Bégin, F. Gennaretti, D. Arseneault, J. Marion, A. Nicault, Y. Bégin
Format: Article
Language:English
Published: Copernicus Publications 2015-09-01
Series:Climate of the Past
Online Access:http://www.clim-past.net/11/1153/2015/cp-11-1153-2015.pdf
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spelling doaj-b0e916c9576d411cb7fe4b5c552a68432020-11-24T22:12:49ZengCopernicus PublicationsClimate of the Past1814-93241814-93322015-09-011191153116410.5194/cp-11-1153-2015A millennial summer temperature reconstruction for northeastern Canada using oxygen isotopes in subfossil treesM. Naulier0M. M. Savard1C. Bégin2F. Gennaretti3D. Arseneault4J. Marion5A. Nicault6Y. Bégin7Institut national de la recherche scientifique-ETE, 490 rue de la Couronne, QC, G1K9A9, CanadaGeological Survey of Canada, Natural Resources Canada, 490 rue de la Couronne, QC, G1K9A9, CanadaGeological Survey of Canada, Natural Resources Canada, 490 rue de la Couronne, QC, G1K9A9, CanadaUniversité du Québec à Rimouski, 300 allée des Ursulines, Rimouski, G5L3A1, CanadaUniversité du Québec à Rimouski, 300 allée des Ursulines, Rimouski, G5L3A1, CanadaGeological Survey of Canada, Natural Resources Canada, 490 rue de la Couronne, QC, G1K9A9, CanadaAix-Marseille University, ECCOREV (3098), Europôle Méditerranéen de l'Arbois, BP 80, 13545 Aix-en-Provence cedex 4, FranceInstitut national de la recherche scientifique-ETE, 490 rue de la Couronne, QC, G1K9A9, CanadaClimatic reconstructions for northeastern Canada are scarce such that this area is under-represented in global temperature reconstructions. To fill this lack of knowledge and identify the most important processes influencing climate variability, this study presents the first summer temperature reconstruction for eastern Canada based on a millennial oxygen isotopic series (δ<sup>18</sup>O) from tree rings. For this purpose, we selected 230 well-preserved subfossil stems from the bottom of a boreal lake and five living trees on the lakeshore. The sampling method permitted an annually resolved δ<sup>18</sup>O series with a replication of five trees per year. The June to August maximal temperature of the last millennium has been reconstructed using the statistical relation between Climatic Research Unit (CRU TS3.1) and δ<sup>18</sup>O data. The resulting millennial series is marked by the well-defined Medieval Climate Anomaly (MCA; AD 1000–1250), the Little Ice Age (AD 1450–1880) and the modern period (AD 1950–2010), and an overall average cooling trend of −0.6 °C millennium<sup>−1</sup>. These climatic periods and climatic low-frequency trends are in agreement with the only reconstruction available for northeastern Canada and others from nearby regions (Arctic, Baffin Bay) as well as some remote regions like the Canadian Rockies or Fennoscandia. Our temperature reconstruction indicates that the Medieval Climate Anomaly was characterized by a temperature range similar to the one of the modern period in the study region. However, the temperature increase during the last 3 decades is one of the fastest warming observed over the last millennium (+1.9 °C between 1970–2000). An additional key finding of this research is that the coldest episodes mainly coincide with low solar activities and the extremely cold period of the early 19th century has occurred when a solar minimum was in phase with successive intense volcanic eruptions. Our study provides a new perspective unraveling key mechanisms that controlled the past climate shifts in northeastern Canada.http://www.clim-past.net/11/1153/2015/cp-11-1153-2015.pdf
collection DOAJ
language English
format Article
sources DOAJ
author M. Naulier
M. M. Savard
C. Bégin
F. Gennaretti
D. Arseneault
J. Marion
A. Nicault
Y. Bégin
spellingShingle M. Naulier
M. M. Savard
C. Bégin
F. Gennaretti
D. Arseneault
J. Marion
A. Nicault
Y. Bégin
A millennial summer temperature reconstruction for northeastern Canada using oxygen isotopes in subfossil trees
Climate of the Past
author_facet M. Naulier
M. M. Savard
C. Bégin
F. Gennaretti
D. Arseneault
J. Marion
A. Nicault
Y. Bégin
author_sort M. Naulier
title A millennial summer temperature reconstruction for northeastern Canada using oxygen isotopes in subfossil trees
title_short A millennial summer temperature reconstruction for northeastern Canada using oxygen isotopes in subfossil trees
title_full A millennial summer temperature reconstruction for northeastern Canada using oxygen isotopes in subfossil trees
title_fullStr A millennial summer temperature reconstruction for northeastern Canada using oxygen isotopes in subfossil trees
title_full_unstemmed A millennial summer temperature reconstruction for northeastern Canada using oxygen isotopes in subfossil trees
title_sort millennial summer temperature reconstruction for northeastern canada using oxygen isotopes in subfossil trees
publisher Copernicus Publications
series Climate of the Past
issn 1814-9324
1814-9332
publishDate 2015-09-01
description Climatic reconstructions for northeastern Canada are scarce such that this area is under-represented in global temperature reconstructions. To fill this lack of knowledge and identify the most important processes influencing climate variability, this study presents the first summer temperature reconstruction for eastern Canada based on a millennial oxygen isotopic series (δ<sup>18</sup>O) from tree rings. For this purpose, we selected 230 well-preserved subfossil stems from the bottom of a boreal lake and five living trees on the lakeshore. The sampling method permitted an annually resolved δ<sup>18</sup>O series with a replication of five trees per year. The June to August maximal temperature of the last millennium has been reconstructed using the statistical relation between Climatic Research Unit (CRU TS3.1) and δ<sup>18</sup>O data. The resulting millennial series is marked by the well-defined Medieval Climate Anomaly (MCA; AD 1000–1250), the Little Ice Age (AD 1450–1880) and the modern period (AD 1950–2010), and an overall average cooling trend of −0.6 °C millennium<sup>−1</sup>. These climatic periods and climatic low-frequency trends are in agreement with the only reconstruction available for northeastern Canada and others from nearby regions (Arctic, Baffin Bay) as well as some remote regions like the Canadian Rockies or Fennoscandia. Our temperature reconstruction indicates that the Medieval Climate Anomaly was characterized by a temperature range similar to the one of the modern period in the study region. However, the temperature increase during the last 3 decades is one of the fastest warming observed over the last millennium (+1.9 °C between 1970–2000). An additional key finding of this research is that the coldest episodes mainly coincide with low solar activities and the extremely cold period of the early 19th century has occurred when a solar minimum was in phase with successive intense volcanic eruptions. Our study provides a new perspective unraveling key mechanisms that controlled the past climate shifts in northeastern Canada.
url http://www.clim-past.net/11/1153/2015/cp-11-1153-2015.pdf
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