Vegetation of zonal patterned‐ground ecosystems along the North America Arctic bioclimate gradient

Abstract Question: How do interactions between the physical environment and biotic properties of vegetation influence the formation of small patterned‐ground features along the Arctic bioclimate gradient? Location: At 68° to 78°N: six locations along the Dalton Highway in arctic Alaska and three in...

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Published in:Applied Vegetation Science
Main Authors: Walker, Donald A., Kuss, Patrick, Epstein, Howard E., Kade, Anja N., Vonlanthen, Corinne M., Raynolds, Martha K., Daniëls, Fred J.A.
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2011
Subjects:
Banks Island
Ellef Ringnes Island
Prince Patrick Island
Alaska
Online Access:http://dx.doi.org/10.1111/j.1654-109x.2011.01149.x
https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2Fj.1654-109X.2011.01149.x
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spelling crwiley:10.1111/j.1654-109x.2011.01149.x 2024-09-15T17:57:34+00:00 Vegetation of zonal patterned‐ground ecosystems along the North America Arctic bioclimate gradient Walker, Donald A. Kuss, Patrick Epstein, Howard E. Kade, Anja N. Vonlanthen, Corinne M. Raynolds, Martha K. Daniëls, Fred J.A. 2011 http://dx.doi.org/10.1111/j.1654-109x.2011.01149.x https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2Fj.1654-109X.2011.01149.x https://onlinelibrary.wiley.com/doi/pdf/10.1111/j.1654-109X.2011.01149.x en eng Wiley http://onlinelibrary.wiley.com/termsAndConditions#vor Applied Vegetation Science volume 14, issue 4, page 440-463 ISSN 1402-2001 1654-109X journal-article 2011 crwiley https://doi.org/10.1111/j.1654-109x.2011.01149.x 2024-08-20T04:18:08Z Abstract Question: How do interactions between the physical environment and biotic properties of vegetation influence the formation of small patterned‐ground features along the Arctic bioclimate gradient? Location: At 68° to 78°N: six locations along the Dalton Highway in arctic Alaska and three in Canada (Banks Island, Prince Patrick Island and Ellef Ringnes Island). Methods: We analysed floristic and structural vegetation, biomass and abiotic data (soil chemical and physical parameters, the n ‐factor [a soil thermal index] and spectral information [NDVI, LAI]) on 147 microhabitat relevés of zonal‐patterned‐ground features. Using mapping, table analysis (JUICE) and ordination techniques (NMDS). Results: Table analysis using JUICE and the phi‐coefficient to identify diagnostic species revealed clear groups of diagnostic plant taxa in four of the five zonal vegetation complexes. Plant communities and zonal complexes were generally well separated in the NMDS ordination. The Alaska and Canada communities were spatially separated in the ordination because of different glacial histories and location in separate floristic provinces, but there was no single controlling environmental gradient. Vegetation structure, particularly that of bryophytes and total biomass, strongly affected thermal properties of the soils. Patterned‐ground complexes with the largest thermal differential between the patterned‐ground features and the surrounding vegetation exhibited the clearest patterned‐ground morphologies. Conclusions: Characterizing the composition and structure of small‐scale plant communities growing on distinctive microhabitats within patterned‐ground complexes was necessary to understand the biological and physical controls of vegetation on patterned‐ground morphology. Coarser‐scale vegetation units, referred to here as ‘zonal patterned‐ground vegetation complexes’ (groups of patterned‐ground plant communities within zonal landscapes), were useful for landscape and regional‐level comparisons and for extrapolation of ... Article in Journal/Newspaper Banks Island Ellef Ringnes Island Prince Patrick Island Alaska Wiley Online Library Applied Vegetation Science 14 4 440 463
institution Open Polar
collection Wiley Online Library
op_collection_id crwiley
language English
description Abstract Question: How do interactions between the physical environment and biotic properties of vegetation influence the formation of small patterned‐ground features along the Arctic bioclimate gradient? Location: At 68° to 78°N: six locations along the Dalton Highway in arctic Alaska and three in Canada (Banks Island, Prince Patrick Island and Ellef Ringnes Island). Methods: We analysed floristic and structural vegetation, biomass and abiotic data (soil chemical and physical parameters, the n ‐factor [a soil thermal index] and spectral information [NDVI, LAI]) on 147 microhabitat relevés of zonal‐patterned‐ground features. Using mapping, table analysis (JUICE) and ordination techniques (NMDS). Results: Table analysis using JUICE and the phi‐coefficient to identify diagnostic species revealed clear groups of diagnostic plant taxa in four of the five zonal vegetation complexes. Plant communities and zonal complexes were generally well separated in the NMDS ordination. The Alaska and Canada communities were spatially separated in the ordination because of different glacial histories and location in separate floristic provinces, but there was no single controlling environmental gradient. Vegetation structure, particularly that of bryophytes and total biomass, strongly affected thermal properties of the soils. Patterned‐ground complexes with the largest thermal differential between the patterned‐ground features and the surrounding vegetation exhibited the clearest patterned‐ground morphologies. Conclusions: Characterizing the composition and structure of small‐scale plant communities growing on distinctive microhabitats within patterned‐ground complexes was necessary to understand the biological and physical controls of vegetation on patterned‐ground morphology. Coarser‐scale vegetation units, referred to here as ‘zonal patterned‐ground vegetation complexes’ (groups of patterned‐ground plant communities within zonal landscapes), were useful for landscape and regional‐level comparisons and for extrapolation of ...
format Article in Journal/Newspaper
author Walker, Donald A.
Kuss, Patrick
Epstein, Howard E.
Kade, Anja N.
Vonlanthen, Corinne M.
Raynolds, Martha K.
Daniëls, Fred J.A.
spellingShingle Walker, Donald A.
Kuss, Patrick
Epstein, Howard E.
Kade, Anja N.
Vonlanthen, Corinne M.
Raynolds, Martha K.
Daniëls, Fred J.A.
Vegetation of zonal patterned‐ground ecosystems along the North America Arctic bioclimate gradient
author_facet Walker, Donald A.
Kuss, Patrick
Epstein, Howard E.
Kade, Anja N.
Vonlanthen, Corinne M.
Raynolds, Martha K.
Daniëls, Fred J.A.
author_sort Walker, Donald A.
title Vegetation of zonal patterned‐ground ecosystems along the North America Arctic bioclimate gradient
title_short Vegetation of zonal patterned‐ground ecosystems along the North America Arctic bioclimate gradient
title_full Vegetation of zonal patterned‐ground ecosystems along the North America Arctic bioclimate gradient
title_fullStr Vegetation of zonal patterned‐ground ecosystems along the North America Arctic bioclimate gradient
title_full_unstemmed Vegetation of zonal patterned‐ground ecosystems along the North America Arctic bioclimate gradient
title_sort vegetation of zonal patterned‐ground ecosystems along the north america arctic bioclimate gradient
publisher Wiley
publishDate 2011
url http://dx.doi.org/10.1111/j.1654-109x.2011.01149.x
https://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2Fj.1654-109X.2011.01149.x
https://onlinelibrary.wiley.com/doi/pdf/10.1111/j.1654-109X.2011.01149.x
genre Banks Island
Ellef Ringnes Island
Prince Patrick Island
Alaska
genre_facet Banks Island
Ellef Ringnes Island
Prince Patrick Island
Alaska
op_source Applied Vegetation Science
volume 14, issue 4, page 440-463
ISSN 1402-2001 1654-109X
op_rights http://onlinelibrary.wiley.com/termsAndConditions#vor
op_doi https://doi.org/10.1111/j.1654-109x.2011.01149.x
container_title Applied Vegetation Science
container_volume 14
container_issue 4
container_start_page 440
op_container_end_page 463
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