PARALLEL EVOLUTIONARY PATTERNS IN MULTIPLE LINEAGES OF ARCTIC ARTEMISIA L. (ASTERACEAE)

Early observers of plant evolution in the Arctic have noted a floristic similarity with temperate alpine regions and a predominance of high ploidy levels. The aim of our study was to survey these and other traits in multiple closely related but independently evolved lineages of Artemisia. Our phylog...

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Published in:Evolution
Main Authors: Natalia V. Tkach, Matthias Heinrich Hoffmann, Martin Röser, Alexander Alexandrovich Korobkov, Klaus Bernhard von Hagen
Format: Text
Language:English
Published: The Society for the Study of Evolution 2008
Subjects:
Arctic
Online Access:https://doi.org/10.1111/j.1558-5646.2007.00270.x
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spelling ftbioone:10.1111/j.1558-5646.2007.00270.x 2024-06-02T08:00:18+00:00 PARALLEL EVOLUTIONARY PATTERNS IN MULTIPLE LINEAGES OF ARCTIC ARTEMISIA L. (ASTERACEAE) Natalia V. Tkach Matthias Heinrich Hoffmann Martin Röser Alexander Alexandrovich Korobkov Klaus Bernhard von Hagen Natalia V. Tkach Matthias Heinrich Hoffmann Martin Röser Alexander Alexandrovich Korobkov Klaus Bernhard von Hagen world 2008-01-01 text/HTML https://doi.org/10.1111/j.1558-5646.2007.00270.x en eng The Society for the Study of Evolution doi:10.1111/j.1558-5646.2007.00270.x All rights reserved. https://doi.org/10.1111/j.1558-5646.2007.00270.x Text 2008 ftbioone https://doi.org/10.1111/j.1558-5646.2007.00270.x 2024-05-07T00:59:41Z Early observers of plant evolution in the Arctic have noted a floristic similarity with temperate alpine regions and a predominance of high ploidy levels. The aim of our study was to survey these and other traits in multiple closely related but independently evolved lineages of Artemisia. Our phylogenetic study was based on 133 taxa using 3′-ETS and ITS, and on data on morphology, karyology, distribution, and ecological preferences. We compared Arctic lineages with sister groups and tested whether patterns were significantly different. We found: (1) Artemisia has independently adapted to Arctic habitats 13–18 times; (2) There were no ecological preferences of putative progenitors that might determine the colonization success in the Arctic, although most sister groups were centered in steppe habitats; (3) Plant height was distinctly reduced in Arctic lineages; (4) Arctic lineages contained no more polyploids than their respective sister groups or taxa from other habitats; (5) Enlarged flower heads have evolved repeatedly, probably for better pollinator attraction. This strategy could be a substitute for polyploidy, which is typical in other Arctic taxa. Stronger pollinator attraction should result in better outcrossing and higher heterozygosity in the offspring, which is among the main effects of polyploidy. Text Arctic BioOne Online Journals Arctic Evolution 0 0 071101082849002 ???
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description Early observers of plant evolution in the Arctic have noted a floristic similarity with temperate alpine regions and a predominance of high ploidy levels. The aim of our study was to survey these and other traits in multiple closely related but independently evolved lineages of Artemisia. Our phylogenetic study was based on 133 taxa using 3′-ETS and ITS, and on data on morphology, karyology, distribution, and ecological preferences. We compared Arctic lineages with sister groups and tested whether patterns were significantly different. We found: (1) Artemisia has independently adapted to Arctic habitats 13–18 times; (2) There were no ecological preferences of putative progenitors that might determine the colonization success in the Arctic, although most sister groups were centered in steppe habitats; (3) Plant height was distinctly reduced in Arctic lineages; (4) Arctic lineages contained no more polyploids than their respective sister groups or taxa from other habitats; (5) Enlarged flower heads have evolved repeatedly, probably for better pollinator attraction. This strategy could be a substitute for polyploidy, which is typical in other Arctic taxa. Stronger pollinator attraction should result in better outcrossing and higher heterozygosity in the offspring, which is among the main effects of polyploidy.
author2 Natalia V. Tkach
Matthias Heinrich Hoffmann
Martin Röser
Alexander Alexandrovich Korobkov
Klaus Bernhard von Hagen
format Text
author Natalia V. Tkach
Matthias Heinrich Hoffmann
Martin Röser
Alexander Alexandrovich Korobkov
Klaus Bernhard von Hagen
spellingShingle Natalia V. Tkach
Matthias Heinrich Hoffmann
Martin Röser
Alexander Alexandrovich Korobkov
Klaus Bernhard von Hagen
PARALLEL EVOLUTIONARY PATTERNS IN MULTIPLE LINEAGES OF ARCTIC ARTEMISIA L. (ASTERACEAE)
author_facet Natalia V. Tkach
Matthias Heinrich Hoffmann
Martin Röser
Alexander Alexandrovich Korobkov
Klaus Bernhard von Hagen
author_sort Natalia V. Tkach
title PARALLEL EVOLUTIONARY PATTERNS IN MULTIPLE LINEAGES OF ARCTIC ARTEMISIA L. (ASTERACEAE)
title_short PARALLEL EVOLUTIONARY PATTERNS IN MULTIPLE LINEAGES OF ARCTIC ARTEMISIA L. (ASTERACEAE)
title_full PARALLEL EVOLUTIONARY PATTERNS IN MULTIPLE LINEAGES OF ARCTIC ARTEMISIA L. (ASTERACEAE)
title_fullStr PARALLEL EVOLUTIONARY PATTERNS IN MULTIPLE LINEAGES OF ARCTIC ARTEMISIA L. (ASTERACEAE)
title_full_unstemmed PARALLEL EVOLUTIONARY PATTERNS IN MULTIPLE LINEAGES OF ARCTIC ARTEMISIA L. (ASTERACEAE)
title_sort parallel evolutionary patterns in multiple lineages of arctic artemisia l. (asteraceae)
publisher The Society for the Study of Evolution
publishDate 2008
url https://doi.org/10.1111/j.1558-5646.2007.00270.x
op_coverage world
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source https://doi.org/10.1111/j.1558-5646.2007.00270.x
op_relation doi:10.1111/j.1558-5646.2007.00270.x
op_rights All rights reserved.
op_doi https://doi.org/10.1111/j.1558-5646.2007.00270.x
container_title Evolution
container_volume 0
container_issue 0
container_start_page 071101082849002
op_container_end_page ???
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