Spatial Variability of the Dominant Climate Signal in Cassiope tetragona from Sites in Arctic Canada
Our study investigates the nature of the climate signal in three populations of the Arctic dwarf-shrub Cassiope tetragona using dendrochronological and stable isotope analysis techniques. We present 15 new C. tetragona chronologies from three sites (Axel Heiberg, Bathurst, and Devon islands) in the...
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crarcticinstna:10.14430/arctic4083 2024-06-09T07:42:06+00:00 Spatial Variability of the Dominant Climate Signal in Cassiope tetragona from Sites in Arctic Canada Rayback, Shelly A. Lini, Andrea Henry, Gregory H.R. 2011 http://dx.doi.org/10.14430/arctic4083 http://arctic.journalhosting.ucalgary.ca/arctic/index.php/arctic/article/viewFile/4083/4056 unknown The Arctic Institute of North America ARCTIC volume 64, issue 1, page 98 ISSN 1923-1245 0004-0843 journal-article 2011 crarcticinstna https://doi.org/10.14430/arctic4083 2024-05-14T12:53:42Z Our study investigates the nature of the climate signal in three populations of the Arctic dwarf-shrub Cassiope tetragona using dendrochronological and stable isotope analysis techniques. We present 15 new C. tetragona chronologies from three sites (Axel Heiberg, Bathurst, and Devon islands) in the eastern Canadian Arctic, of which three are the first continuous stable carbon isotope ratio (δ¹³C) time series developed for Arctic shrubs. Correlation and multivariate regression analyses revealed that multiple and different climate factors influenced the chronologies within and between the three sites. At the Axel Heiberg Island site, the dominant climatic influences over annual stem elongation were previous year (t-1) and current year (t) summer precipitation, while annual production of flower buds was influenced by (t) winter precipitation and spring temperature. At Bathurst Island, annual production of flower buds responded to (t-1) growing season sunshine hours and winter precipitation and to (t) late growing season temperature and moisture availability. Our analysis of the Axel H eiberg and Bathurst Island models revealed the positive influence on δ 13 C values of (t-1) winter temperature—and on B athurst Island only, of (t-1) spring sunshine hours. The combined influence of these parameters on spring moisture availability suggests that the δ 13 C ratios varied in response to stomatal conductance. At Devon Island, the δ 13 C values varied in response to (t) and (t-1) spring and summer temperature and spring and fall solar radiation, which in turn influence the rate of photosynthesis. Our study supports the emerging hypothesis that Arctic shrubs are sensitive to climate. H owever, strong spatial variation in plant-climate response characterized our sampling sites. T his variation may be linked to site sensitivity, or regional climate variability due to geographic and topographic differences, or both. Article in Journal/Newspaper Arctic Arctic Axel Heiberg Island Bathurst Island Cassiope tetragona Devon Island Arctic Institute of North America Arctic Axel Heiberg Island ENVELOPE(-91.001,-91.001,79.752,79.752) Bathurst Island ENVELOPE(-100.002,-100.002,75.752,75.752) Canada Devon Island ENVELOPE(-88.000,-88.000,75.252,75.252) Heiberg ENVELOPE(13.964,13.964,66.424,66.424) ARCTIC 64 1 98 |
institution |
Open Polar |
collection |
Arctic Institute of North America |
op_collection_id |
crarcticinstna |
language |
unknown |
description |
Our study investigates the nature of the climate signal in three populations of the Arctic dwarf-shrub Cassiope tetragona using dendrochronological and stable isotope analysis techniques. We present 15 new C. tetragona chronologies from three sites (Axel Heiberg, Bathurst, and Devon islands) in the eastern Canadian Arctic, of which three are the first continuous stable carbon isotope ratio (δ¹³C) time series developed for Arctic shrubs. Correlation and multivariate regression analyses revealed that multiple and different climate factors influenced the chronologies within and between the three sites. At the Axel Heiberg Island site, the dominant climatic influences over annual stem elongation were previous year (t-1) and current year (t) summer precipitation, while annual production of flower buds was influenced by (t) winter precipitation and spring temperature. At Bathurst Island, annual production of flower buds responded to (t-1) growing season sunshine hours and winter precipitation and to (t) late growing season temperature and moisture availability. Our analysis of the Axel H eiberg and Bathurst Island models revealed the positive influence on δ 13 C values of (t-1) winter temperature—and on B athurst Island only, of (t-1) spring sunshine hours. The combined influence of these parameters on spring moisture availability suggests that the δ 13 C ratios varied in response to stomatal conductance. At Devon Island, the δ 13 C values varied in response to (t) and (t-1) spring and summer temperature and spring and fall solar radiation, which in turn influence the rate of photosynthesis. Our study supports the emerging hypothesis that Arctic shrubs are sensitive to climate. H owever, strong spatial variation in plant-climate response characterized our sampling sites. T his variation may be linked to site sensitivity, or regional climate variability due to geographic and topographic differences, or both. |
format |
Article in Journal/Newspaper |
author |
Rayback, Shelly A. Lini, Andrea Henry, Gregory H.R. |
spellingShingle |
Rayback, Shelly A. Lini, Andrea Henry, Gregory H.R. Spatial Variability of the Dominant Climate Signal in Cassiope tetragona from Sites in Arctic Canada |
author_facet |
Rayback, Shelly A. Lini, Andrea Henry, Gregory H.R. |
author_sort |
Rayback, Shelly A. |
title |
Spatial Variability of the Dominant Climate Signal in Cassiope tetragona from Sites in Arctic Canada |
title_short |
Spatial Variability of the Dominant Climate Signal in Cassiope tetragona from Sites in Arctic Canada |
title_full |
Spatial Variability of the Dominant Climate Signal in Cassiope tetragona from Sites in Arctic Canada |
title_fullStr |
Spatial Variability of the Dominant Climate Signal in Cassiope tetragona from Sites in Arctic Canada |
title_full_unstemmed |
Spatial Variability of the Dominant Climate Signal in Cassiope tetragona from Sites in Arctic Canada |
title_sort |
spatial variability of the dominant climate signal in cassiope tetragona from sites in arctic canada |
publisher |
The Arctic Institute of North America |
publishDate |
2011 |
url |
http://dx.doi.org/10.14430/arctic4083 http://arctic.journalhosting.ucalgary.ca/arctic/index.php/arctic/article/viewFile/4083/4056 |
long_lat |
ENVELOPE(-91.001,-91.001,79.752,79.752) ENVELOPE(-100.002,-100.002,75.752,75.752) ENVELOPE(-88.000,-88.000,75.252,75.252) ENVELOPE(13.964,13.964,66.424,66.424) |
geographic |
Arctic Axel Heiberg Island Bathurst Island Canada Devon Island Heiberg |
geographic_facet |
Arctic Axel Heiberg Island Bathurst Island Canada Devon Island Heiberg |
genre |
Arctic Arctic Axel Heiberg Island Bathurst Island Cassiope tetragona Devon Island |
genre_facet |
Arctic Arctic Axel Heiberg Island Bathurst Island Cassiope tetragona Devon Island |
op_source |
ARCTIC volume 64, issue 1, page 98 ISSN 1923-1245 0004-0843 |
op_doi |
https://doi.org/10.14430/arctic4083 |
container_title |
ARCTIC |
container_volume |
64 |
container_issue |
1 |
container_start_page |
98 |
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1801371010101936128 |