Are there any trees in the Arctic? Reconstruction of evolutionary histories in a young biome

Reconstructing molecular phylogenies and unraveling biogeographic histories of arctic plants are needed to obtain better insights into the processes of evolution, dispersal and colonization in this young biome. Studies of dispersal into, and speciation within, the Arctic are important to obtain bett...

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Bibliographic Details
Published in:Annals of the Missouri Botanical Garden
Main Author: Carlsen, Tor
Other Authors: Reidar Elven, Christian Brochmann
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: 2007
Subjects:
VDP::480
Arctic
Svalbard
Bering Strait
Mackenzie River
Canada
Greenland
Handle The
Arctic biodiversity
Cassiope tetragona
lena river
Mackenzie river
North Atlantic
Beringia
Online Access:http://hdl.handle.net/10852/33226
http://urn.nb.no/URN:NBN:no-30103
id ftoslouniv:oai:www.duo.uio.no:10852/33226
record_format openpolar
institution Open Polar
collection Universitet i Oslo: Digitale utgivelser ved UiO (DUO)
op_collection_id ftoslouniv
language English
topic VDP::480
spellingShingle VDP::480
Carlsen, Tor
Are there any trees in the Arctic? Reconstruction of evolutionary histories in a young biome
topic_facet VDP::480
description Reconstructing molecular phylogenies and unraveling biogeographic histories of arctic plants are needed to obtain better insights into the processes of evolution, dispersal and colonization in this young biome. Studies of dispersal into, and speciation within, the Arctic are important to obtain better knowledge of the source areas for arctic biodiversity. Unraveling the history of recently diverged lineages such as those typical for the young arctic biome is challenging, because it is difficult to find molecular markers with sufficient variation and to handle the problem of incomplete lineage sorting and hybridization. Thus several different molecular marker systems for many potentially suitable model groups were tested and developed. Three genera which are represented in Beringia (the Asian and American land masses surrounding the Bering Strait from Lena River to Mackenzie River) and which have assumed phylogenetic connections to plants living in East Asia and North America were selected. Two of these genera are also good candidates for studying polyploidization as a mode of speciation in the Arctic, as they show large variation in chromosome number within and among the species. This study was also intended to contribute to the PanArctic Flora project by providing data to help resolving the taxonomy of some challenging species complexes. - The history of the genus Smelowskia was reconstructed based on microsatellite loci combined with sequences of nuclear and plastid regions. An Asian origin of the genus and two independent dispersal events into the Beringian and North American regions were inferred. We also found evidence for merging the Beringian S. porsildii, S. spathulatifolia, and S. jurtzevii into one species; S. porsildii. - The biogeography and phylogeny of the large genus Cardamine were inferred based on nuclear and plastid sequences. The phylogenetic trees showed limited resolutions, supporting a hypothesis of recent and rapid speciation in the genus. We found evidence for several extremely long-distant dispersal events. Dispersal into the Southern Hemisphere and the Arctic has occurred repeatedly, and we identified at least three phylogenetically distinct arctic lineages. Polyploidization has occurred independently many times during the evolution of Cardamine. Rapid divergence combined with widespread polyploidization offer an explanation for the complex evolutionary history of the genus. Two species complexes within this genus were selected for more detailed studies. - Six microsatellite loci originally developed for the Arabidopsis genome, were used to identify evolutionary and taxonomic units within the Beringian Cardamine digitata aggregate. Molecular groups corresponding to morphological differences suggested recognition of four species in this complex; C. blaisdellii, C. digitata, C. microphylla, and C. purpurea. Each species included at least two ploidy levels, indicating recurrent polyploidizations. - As a first step towards addressing the origin of the circumarctic Cardamine bellidifolia,we conducted a study with main focus on its two putatively most closely related European alpine species (C. alpina and C. resedifolia) using AFLPs. Surprisingly, the arctic species C. bellidifolia was distinctly differentiated from its putative alpine ancestral lineages. Contrasting phylogeographies were inferred between the two alpine species C. alpina and C. resedifolia. A high degree of genetic distinction was found between the Alpine and Pyreneean populations of C. alpina. In addition, a high level of diversity was found within Pyreneean populations compared to Alpine populations. In contrast, C. resedifolia showed more genetic variation among populations in the Alps than between the Alps and distant areas such as Corsica, the Carpatians and the Pyrenees. These results show that the two species have very different histories of glacial survival and recolonization. - To facilitate these and future studies of recently diverged taxa, we developed 72 new microsatellite loci and tested 15 previously published loci for the Brassicaceae. We found them to provide variation among and within three distantly related genera: Cardamine, Smelowskia, and Draba. Of these 87 loci, 18 were variable within Cardamine, while ten were variable within Smelowskia. Seventy-one of these primers were variable within Draba, and 50 were variable within Draba nivalis. The markers amplifying across these genera are potentially suitable for studying other genera in Brassicaceae as well. - A phylogeographic analysis of Cassiope tetragona including both Central Asian and Beringian relatives revealed that the circumpolar ssp. tetragona was well separated from the North American ssp. saximontana. A Beringian origin of C. tetragona ssp. tetragona was inferred, and the levels and geographical patterns of differentiation and gene diversity suggested that the latest expansion from Beringia into the Circumarctic was recent, possibly during the current interglacial. The results were in accordance with a recent leading-edge mode of colonization, particularly towards the east throughout Canada/Greenland and across the North Atlantic into Scandinavia and Svalbard.
author2 Reidar Elven, Christian Brochmann
format Doctoral or Postdoctoral Thesis
author Carlsen, Tor
author_facet Carlsen, Tor
author_sort Carlsen, Tor
title Are there any trees in the Arctic? Reconstruction of evolutionary histories in a young biome
title_short Are there any trees in the Arctic? Reconstruction of evolutionary histories in a young biome
title_full Are there any trees in the Arctic? Reconstruction of evolutionary histories in a young biome
title_fullStr Are there any trees in the Arctic? Reconstruction of evolutionary histories in a young biome
title_full_unstemmed Are there any trees in the Arctic? Reconstruction of evolutionary histories in a young biome
title_sort are there any trees in the arctic? reconstruction of evolutionary histories in a young biome
publishDate 2007
url http://hdl.handle.net/10852/33226
http://urn.nb.no/URN:NBN:no-30103
long_lat ENVELOPE(161.983,161.983,-78.000,-78.000)
geographic Arctic
Svalbard
Bering Strait
Mackenzie River
Canada
Greenland
Handle The
geographic_facet Arctic
Svalbard
Bering Strait
Mackenzie River
Canada
Greenland
Handle The
genre Arctic
Arctic biodiversity
Arctic
Bering Strait
Cassiope tetragona
Greenland
lena river
Mackenzie river
North Atlantic
Svalbard
Beringia
genre_facet Arctic
Arctic biodiversity
Arctic
Bering Strait
Cassiope tetragona
Greenland
lena river
Mackenzie river
North Atlantic
Svalbard
Beringia
op_relation I - Carlsen T., Elven R., and Brochmann C. Combined data from microsatellites and DNA sequences resolves the evolutionary history of Beringian Smelowskia (Brassicaceae). Manuscript. Published as The evolutionary history of Beringian Smelowskia (Brassicaceae) inferred from combined microsatellite and DNA sequence data. Taxon 59 (2), 427-438 (2010)
II - Carlsen T., Bleeker W., Hurka H., Elven R., and Brochmann C. Biogeography and phylogeny of Cardamine (Brassicaceae). Submitted. Annals of the Missouri Botanical Garden 96(2), 215-236 (2009). The published version of this paper is available at: https://doi.org/10.3417/2007047
III - Jørgensen M.H., Carlsen T., Skrede I., and Elven R. Microsatellites resolve the taxonomy of the polyploid Cardamine digitata aggregate (Brassicaceae). Submitted. Taxon 57(3), 882-892 (2008)
IV – Lihova J.C., Carlsen T., Marhold, K. Contrasting phylogeographies inferred for two alpine sister species, Cardamine resedifolia and C. alpina. Manuscript. Journal of biogeography 36(1) 104-120 (2009). The published version of this paper is available at: https://doi.org/10.1111/j.1365-2699.2008.01998.x
V - Skrede I., Carlsen T., Rieseberg L.H., and Brochmann C. Microsatellites for three distantly related genera in the Brassicaceae. Submitted. Conservation Genetics 10(3), 643-648 (2009). The published version of this paper is available at: https://doi.org/10.1007/s10592-008-9598-x
VI - Eidesen P.B., Carlsen T., Molau U., and Brochmann C. (2007) Repeatedly out of Beringia: Cassiope tetragona embraces the Arctic. Journal of Biogeography, 34, 1559–1574. The paper is removed from the thesis in DUO due to publisher restrictions. The published version is available at: https://doi.org/10.1111/j.1365-2699.2007.01719.x
https://doi.org/10.3417/2007047
https://doi.org/10.1111/j.1365-2699.2008.01998.x
https://doi.org/10.1007/s10592-008-9598-x
https://doi.org/10.1111/j.1365-2699.2007.01719.x
http://urn.nb.no/URN:NBN:no-30103
Carlsen, Tor. Are there any trees in the Arctic? Reconstruction of evolutionary histories in a young biome. Doktoravhandling, University of Oslo, 2007
http://hdl.handle.net/10852/33226
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URN:NBN:no-30103
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Fulltext https://www.duo.uio.no/bitstream/handle/10852/33226/2/thesis-TorCarlsen.pdf
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spelling ftoslouniv:oai:www.duo.uio.no:10852/33226 2023-05-15T14:28:00+02:00 Are there any trees in the Arctic? Reconstruction of evolutionary histories in a young biome Carlsen, Tor Reidar Elven, Christian Brochmann 2007 http://hdl.handle.net/10852/33226 http://urn.nb.no/URN:NBN:no-30103 eng eng I - Carlsen T., Elven R., and Brochmann C. Combined data from microsatellites and DNA sequences resolves the evolutionary history of Beringian Smelowskia (Brassicaceae). Manuscript. Published as The evolutionary history of Beringian Smelowskia (Brassicaceae) inferred from combined microsatellite and DNA sequence data. Taxon 59 (2), 427-438 (2010) II - Carlsen T., Bleeker W., Hurka H., Elven R., and Brochmann C. Biogeography and phylogeny of Cardamine (Brassicaceae). Submitted. Annals of the Missouri Botanical Garden 96(2), 215-236 (2009). The published version of this paper is available at: https://doi.org/10.3417/2007047 III - Jørgensen M.H., Carlsen T., Skrede I., and Elven R. Microsatellites resolve the taxonomy of the polyploid Cardamine digitata aggregate (Brassicaceae). Submitted. Taxon 57(3), 882-892 (2008) IV – Lihova J.C., Carlsen T., Marhold, K. Contrasting phylogeographies inferred for two alpine sister species, Cardamine resedifolia and C. alpina. Manuscript. Journal of biogeography 36(1) 104-120 (2009). The published version of this paper is available at: https://doi.org/10.1111/j.1365-2699.2008.01998.x V - Skrede I., Carlsen T., Rieseberg L.H., and Brochmann C. Microsatellites for three distantly related genera in the Brassicaceae. Submitted. Conservation Genetics 10(3), 643-648 (2009). The published version of this paper is available at: https://doi.org/10.1007/s10592-008-9598-x VI - Eidesen P.B., Carlsen T., Molau U., and Brochmann C. (2007) Repeatedly out of Beringia: Cassiope tetragona embraces the Arctic. Journal of Biogeography, 34, 1559–1574. The paper is removed from the thesis in DUO due to publisher restrictions. The published version is available at: https://doi.org/10.1111/j.1365-2699.2007.01719.x https://doi.org/10.3417/2007047 https://doi.org/10.1111/j.1365-2699.2008.01998.x https://doi.org/10.1007/s10592-008-9598-x https://doi.org/10.1111/j.1365-2699.2007.01719.x http://urn.nb.no/URN:NBN:no-30103 Carlsen, Tor. Are there any trees in the Arctic? Reconstruction of evolutionary histories in a young biome. Doktoravhandling, University of Oslo, 2007 http://hdl.handle.net/10852/33226 info:ofi/fmt:kev:mtx:ctx&ctx_ver=Z39.88-2004&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&rft.au=Carlsen, Tor&rft.title=Are there any trees in the Arctic? Reconstruction of evolutionary histories in a young biome&rft.inst=University of Oslo&rft.date=2007&rft.degree=Doktoravhandling URN:NBN:no-30103 148495 120388987 Fulltext https://www.duo.uio.no/bitstream/handle/10852/33226/2/thesis-TorCarlsen.pdf VDP::480 Doctoral thesis Doktoravhandling 2007 ftoslouniv https://doi.org/10.3417/2007047 https://doi.org/10.1111/j.1365-2699.2008.01998.x https://doi.org/10.1007/s10592-008-9598-x https://doi.org/10.1111/j.1365-2699.2007.01719.x 2020-06-21T08:46:21Z Reconstructing molecular phylogenies and unraveling biogeographic histories of arctic plants are needed to obtain better insights into the processes of evolution, dispersal and colonization in this young biome. Studies of dispersal into, and speciation within, the Arctic are important to obtain better knowledge of the source areas for arctic biodiversity. Unraveling the history of recently diverged lineages such as those typical for the young arctic biome is challenging, because it is difficult to find molecular markers with sufficient variation and to handle the problem of incomplete lineage sorting and hybridization. Thus several different molecular marker systems for many potentially suitable model groups were tested and developed. Three genera which are represented in Beringia (the Asian and American land masses surrounding the Bering Strait from Lena River to Mackenzie River) and which have assumed phylogenetic connections to plants living in East Asia and North America were selected. Two of these genera are also good candidates for studying polyploidization as a mode of speciation in the Arctic, as they show large variation in chromosome number within and among the species. This study was also intended to contribute to the PanArctic Flora project by providing data to help resolving the taxonomy of some challenging species complexes. - The history of the genus Smelowskia was reconstructed based on microsatellite loci combined with sequences of nuclear and plastid regions. An Asian origin of the genus and two independent dispersal events into the Beringian and North American regions were inferred. We also found evidence for merging the Beringian S. porsildii, S. spathulatifolia, and S. jurtzevii into one species; S. porsildii. - The biogeography and phylogeny of the large genus Cardamine were inferred based on nuclear and plastid sequences. The phylogenetic trees showed limited resolutions, supporting a hypothesis of recent and rapid speciation in the genus. We found evidence for several extremely long-distant dispersal events. Dispersal into the Southern Hemisphere and the Arctic has occurred repeatedly, and we identified at least three phylogenetically distinct arctic lineages. Polyploidization has occurred independently many times during the evolution of Cardamine. Rapid divergence combined with widespread polyploidization offer an explanation for the complex evolutionary history of the genus. Two species complexes within this genus were selected for more detailed studies. - Six microsatellite loci originally developed for the Arabidopsis genome, were used to identify evolutionary and taxonomic units within the Beringian Cardamine digitata aggregate. Molecular groups corresponding to morphological differences suggested recognition of four species in this complex; C. blaisdellii, C. digitata, C. microphylla, and C. purpurea. Each species included at least two ploidy levels, indicating recurrent polyploidizations. - As a first step towards addressing the origin of the circumarctic Cardamine bellidifolia,we conducted a study with main focus on its two putatively most closely related European alpine species (C. alpina and C. resedifolia) using AFLPs. Surprisingly, the arctic species C. bellidifolia was distinctly differentiated from its putative alpine ancestral lineages. Contrasting phylogeographies were inferred between the two alpine species C. alpina and C. resedifolia. A high degree of genetic distinction was found between the Alpine and Pyreneean populations of C. alpina. In addition, a high level of diversity was found within Pyreneean populations compared to Alpine populations. In contrast, C. resedifolia showed more genetic variation among populations in the Alps than between the Alps and distant areas such as Corsica, the Carpatians and the Pyrenees. These results show that the two species have very different histories of glacial survival and recolonization. - To facilitate these and future studies of recently diverged taxa, we developed 72 new microsatellite loci and tested 15 previously published loci for the Brassicaceae. We found them to provide variation among and within three distantly related genera: Cardamine, Smelowskia, and Draba. Of these 87 loci, 18 were variable within Cardamine, while ten were variable within Smelowskia. Seventy-one of these primers were variable within Draba, and 50 were variable within Draba nivalis. The markers amplifying across these genera are potentially suitable for studying other genera in Brassicaceae as well. - A phylogeographic analysis of Cassiope tetragona including both Central Asian and Beringian relatives revealed that the circumpolar ssp. tetragona was well separated from the North American ssp. saximontana. A Beringian origin of C. tetragona ssp. tetragona was inferred, and the levels and geographical patterns of differentiation and gene diversity suggested that the latest expansion from Beringia into the Circumarctic was recent, possibly during the current interglacial. The results were in accordance with a recent leading-edge mode of colonization, particularly towards the east throughout Canada/Greenland and across the North Atlantic into Scandinavia and Svalbard. Doctoral or Postdoctoral Thesis Arctic Arctic biodiversity Arctic Bering Strait Cassiope tetragona Greenland lena river Mackenzie river North Atlantic Svalbard Beringia Universitet i Oslo: Digitale utgivelser ved UiO (DUO) Arctic Svalbard Bering Strait Mackenzie River Canada Greenland Handle The ENVELOPE(161.983,161.983,-78.000,-78.000) Annals of the Missouri Botanical Garden 96 2 215 236

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