Divergent Growth and Changing Climate Relationships of Boreal and Subalpine Spruce in Southern Yukon, Canada

Tree-ring data for 1942 – 2013 were used to determine if boreal and subalpine Picea albertiana S. Brown emend. Strong & Hills radial growth rates changed after 1950 in southern Yukon, northwest Canada. The latter year represented the beginning of accelerated atmospheric greenhouse gas accumulati...

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Bibliographic Details
Main Author: Strong, Wayne L
Format: Article in Journal/Newspaper
Language:English
Published: The Arctic Institute of North America 2022
Subjects:
boreal
climate
greenhouse gas
radial growth
ring width
subalpine
white spruce
Yukon
boréal
climat
gaz à effet de serre
croissance radiale
largeur de cernes
subalpin
épinette blanche
Blanche
Canada
Arctic
Online Access:https://journalhosting.ucalgary.ca/index.php/arctic/article/view/74289
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spelling ftunivcalgaryojs:oai:journalhosting.ucalgary.ca:article/74289 2023-05-15T14:19:02+02:00 Divergent Growth and Changing Climate Relationships of Boreal and Subalpine Spruce in Southern Yukon, Canada Strong, Wayne L 2022-01-18 application/pdf https://journalhosting.ucalgary.ca/index.php/arctic/article/view/74289 eng eng The Arctic Institute of North America https://journalhosting.ucalgary.ca/index.php/arctic/article/view/74289/55388 https://journalhosting.ucalgary.ca/index.php/arctic/article/view/74289 Copyright (c) 2021 ARCTIC http://creativecommons.org/licenses/by/4.0/ CC-BY ARCTIC; Vol. 74 No. 4 (2021): December 418-583; 456-468 1923-1245 0004-0843 boreal climate greenhouse gas radial growth ring width subalpine white spruce Yukon boréal climat gaz à effet de serre croissance radiale largeur de cernes subalpin épinette blanche info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion research-article 2022 ftunivcalgaryojs 2022-12-18T18:33:37Z Tree-ring data for 1942 – 2013 were used to determine if boreal and subalpine Picea albertiana S. Brown emend. Strong & Hills radial growth rates changed after 1950 in southern Yukon, northwest Canada. The latter year represented the beginning of accelerated atmospheric greenhouse gas accumulation, which has subsequently caused global climate changes. Ring-width chronologies for both boreal and subalpine trees were constructed using 80 trees. Individual ring-width sequences were crossdated, age-detrended, and converted to tree ring-width indices (RWI). In 2013, boreal and subalpine RWI were 41% and 169% greater than in 1950, respectively. In contrast, elevational treeline chronologies in the region typically decreased 20% – 70%. During 1942 – 2013, boreal and subalpine chronologies were significantly, at best modestly (r < |0.36|), and exclusively correlated with either moisture or temperature variables, respectively. Within this same time frame, RWI-climate variable correlates differed between the early and late phases of each chronology. Average pre-1969 or early-phase boreal correlations based on a 19-year moving window reached a maximum of – 0.56. Late-phase chronology correlations typically shifted towards weaker associations with climate variables (typically +0.04 to +0.30). For boreal RWI, 25 of 68 tested climate variables shifted as much as 0.40 – 0.88 correlation coefficient units between the early and late phases of the chronologies. Subalpine RWI were correlated only with July – August precipitation during the early phase of its chronology. These changes suggest responses by spruce to climate have shifted since 1970. The modest 1942 – 2013 RWI-climate variable correlations likely reflect the result of these changing ecological relationships. Les données dendrochronologiques des années 1942 à 2013 ont été utilisées pour déterminer si les taux de croissance radiale (Strong & Hills) de l’épinette boréale et subalpine Picea albertiana S. Brown emendée ont changé après les années 1950 dans le ... Article in Journal/Newspaper Arctic Yukon University of Calgary Journal Hosting Blanche ENVELOPE(140.018,140.018,-66.663,-66.663) Canada Yukon
institution Open Polar
collection University of Calgary Journal Hosting
op_collection_id ftunivcalgaryojs
language English
topic boreal
climate
greenhouse gas
radial growth
ring width
subalpine
white spruce
Yukon
boréal
climat
gaz à effet de serre
croissance radiale
largeur de cernes
subalpin
épinette blanche
spellingShingle boreal
climate
greenhouse gas
radial growth
ring width
subalpine
white spruce
Yukon
boréal
climat
gaz à effet de serre
croissance radiale
largeur de cernes
subalpin
épinette blanche
Strong, Wayne L
Divergent Growth and Changing Climate Relationships of Boreal and Subalpine Spruce in Southern Yukon, Canada
topic_facet boreal
climate
greenhouse gas
radial growth
ring width
subalpine
white spruce
Yukon
boréal
climat
gaz à effet de serre
croissance radiale
largeur de cernes
subalpin
épinette blanche
description Tree-ring data for 1942 – 2013 were used to determine if boreal and subalpine Picea albertiana S. Brown emend. Strong & Hills radial growth rates changed after 1950 in southern Yukon, northwest Canada. The latter year represented the beginning of accelerated atmospheric greenhouse gas accumulation, which has subsequently caused global climate changes. Ring-width chronologies for both boreal and subalpine trees were constructed using 80 trees. Individual ring-width sequences were crossdated, age-detrended, and converted to tree ring-width indices (RWI). In 2013, boreal and subalpine RWI were 41% and 169% greater than in 1950, respectively. In contrast, elevational treeline chronologies in the region typically decreased 20% – 70%. During 1942 – 2013, boreal and subalpine chronologies were significantly, at best modestly (r < |0.36|), and exclusively correlated with either moisture or temperature variables, respectively. Within this same time frame, RWI-climate variable correlates differed between the early and late phases of each chronology. Average pre-1969 or early-phase boreal correlations based on a 19-year moving window reached a maximum of – 0.56. Late-phase chronology correlations typically shifted towards weaker associations with climate variables (typically +0.04 to +0.30). For boreal RWI, 25 of 68 tested climate variables shifted as much as 0.40 – 0.88 correlation coefficient units between the early and late phases of the chronologies. Subalpine RWI were correlated only with July – August precipitation during the early phase of its chronology. These changes suggest responses by spruce to climate have shifted since 1970. The modest 1942 – 2013 RWI-climate variable correlations likely reflect the result of these changing ecological relationships. Les données dendrochronologiques des années 1942 à 2013 ont été utilisées pour déterminer si les taux de croissance radiale (Strong & Hills) de l’épinette boréale et subalpine Picea albertiana S. Brown emendée ont changé après les années 1950 dans le ...
format Article in Journal/Newspaper
author Strong, Wayne L
author_facet Strong, Wayne L
author_sort Strong, Wayne L
title Divergent Growth and Changing Climate Relationships of Boreal and Subalpine Spruce in Southern Yukon, Canada
title_short Divergent Growth and Changing Climate Relationships of Boreal and Subalpine Spruce in Southern Yukon, Canada
title_full Divergent Growth and Changing Climate Relationships of Boreal and Subalpine Spruce in Southern Yukon, Canada
title_fullStr Divergent Growth and Changing Climate Relationships of Boreal and Subalpine Spruce in Southern Yukon, Canada
title_full_unstemmed Divergent Growth and Changing Climate Relationships of Boreal and Subalpine Spruce in Southern Yukon, Canada
title_sort divergent growth and changing climate relationships of boreal and subalpine spruce in southern yukon, canada
publisher The Arctic Institute of North America
publishDate 2022
url https://journalhosting.ucalgary.ca/index.php/arctic/article/view/74289
long_lat ENVELOPE(140.018,140.018,-66.663,-66.663)
geographic Blanche
Canada
Yukon
geographic_facet Blanche
Canada
Yukon
genre Arctic
Yukon
genre_facet Arctic
Yukon
op_source ARCTIC; Vol. 74 No. 4 (2021): December 418-583; 456-468
1923-1245
0004-0843
op_relation https://journalhosting.ucalgary.ca/index.php/arctic/article/view/74289/55388
https://journalhosting.ucalgary.ca/index.php/arctic/article/view/74289
op_rights Copyright (c) 2021 ARCTIC
http://creativecommons.org/licenses/by/4.0/
op_rightsnorm CC-BY
_version_ 1766290581920677888

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