Using next-generation sequencing for molecular reconstruction of past Arctic vegetation and climate

J. H. Sønstebø; L. Gielly; A. K. Brysting; R. Elven; M. Edwards; James Seymour Haile; Eske Willerslev; E. Coissac; D. Rioux; J. Sannier; P. Taberlet; C. Brochmann

doi:10.1111/j.1755-0998.2010.02855.x

Using next-generation sequencing for molecular reconstruction of past Arctic vegetation and climate

J. H. Sønstebø, L. Gielly, A. K. Brysting, R. Elven, M. Edwards, James Seymour Haile, Eske Willerslev, E. Coissac, D. Rioux, J. Sannier, P. Taberlet, C. Brochmann

120 Citations (Scopus)

Abstract

Palaeoenvironments and former climates are typically inferred from pollen and macrofossil records. This approach is time-consuming and suffers from low taxonomic resolution and biased taxon sampling. Here, we test an alternative DNA-based approach utilizing the P6 loop in the chloroplast trnL (UAA) intron; a short (13-158 bp) and variable region with highly conserved flanking sequences. For taxonomic reference, a whole trnL intron sequence database was constructed from recently collected material of 842 species, representing all widespread and/or ecologically important taxa of the species-poor arctic flora. The P6 loop alone allowed identification of all families, most genera (>75%) and one-third of the species, thus providing much higher taxonomic resolution than pollen records. The suitability of the P6 loop for analysis of samples containing degraded ancient DNA from a mixture of species is demonstrated by high-throughput parallel pyrosequencing of permafrost-preserved DNA and reconstruction of two plant communities from the last glacial period. Our approach opens new possibilities for DNA-based assessment of ancient as well as modern biodiversity of many groups of organisms using environmental samples.

Original language	English
Journal	Molecular Ecology Resources
Volume	10
Issue number	6
Pages (from-to)	1009-1018
Number of pages	10
ISSN	1755-098X
DOIs	https://doi.org/10.1111/j.1755-0998.2010.02855.x
Publication status	Published - Nov 2010

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Sønstebø, J. H., Gielly, L., Brysting, A. K., Elven, R., Edwards, M., Haile, J. S., Willerslev, E., Coissac, E., Rioux, D., Sannier, J., Taberlet, P., & Brochmann, C. (2010). Using next-generation sequencing for molecular reconstruction of past Arctic vegetation and climate. Molecular Ecology Resources, 10(6), 1009-1018. https://doi.org/10.1111/j.1755-0998.2010.02855.x

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title = "Using next-generation sequencing for molecular reconstruction of past Arctic vegetation and climate",

abstract = "Palaeoenvironments and former climates are typically inferred from pollen and macrofossil records. This approach is time-consuming and suffers from low taxonomic resolution and biased taxon sampling. Here, we test an alternative DNA-based approach utilizing the P6 loop in the chloroplast trnL (UAA) intron; a short (13-158 bp) and variable region with highly conserved flanking sequences. For taxonomic reference, a whole trnL intron sequence database was constructed from recently collected material of 842 species, representing all widespread and/or ecologically important taxa of the species-poor arctic flora. The P6 loop alone allowed identification of all families, most genera (>75%) and one-third of the species, thus providing much higher taxonomic resolution than pollen records. The suitability of the P6 loop for analysis of samples containing degraded ancient DNA from a mixture of species is demonstrated by high-throughput parallel pyrosequencing of permafrost-preserved DNA and reconstruction of two plant communities from the last glacial period. Our approach opens new possibilities for DNA-based assessment of ancient as well as modern biodiversity of many groups of organisms using environmental samples.",

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AU - Sønstebø, J. H.

AU - Gielly, L.

AU - Brysting, A. K.

AU - Elven, R.

AU - Edwards, M.

AU - Haile, James Seymour

AU - Willerslev, Eske

AU - Coissac, E.

AU - Rioux, D.

AU - Sannier, J.

AU - Taberlet, P.

AU - Brochmann, C.

PY - 2010/11

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N2 - Palaeoenvironments and former climates are typically inferred from pollen and macrofossil records. This approach is time-consuming and suffers from low taxonomic resolution and biased taxon sampling. Here, we test an alternative DNA-based approach utilizing the P6 loop in the chloroplast trnL (UAA) intron; a short (13-158 bp) and variable region with highly conserved flanking sequences. For taxonomic reference, a whole trnL intron sequence database was constructed from recently collected material of 842 species, representing all widespread and/or ecologically important taxa of the species-poor arctic flora. The P6 loop alone allowed identification of all families, most genera (>75%) and one-third of the species, thus providing much higher taxonomic resolution than pollen records. The suitability of the P6 loop for analysis of samples containing degraded ancient DNA from a mixture of species is demonstrated by high-throughput parallel pyrosequencing of permafrost-preserved DNA and reconstruction of two plant communities from the last glacial period. Our approach opens new possibilities for DNA-based assessment of ancient as well as modern biodiversity of many groups of organisms using environmental samples.

AB - Palaeoenvironments and former climates are typically inferred from pollen and macrofossil records. This approach is time-consuming and suffers from low taxonomic resolution and biased taxon sampling. Here, we test an alternative DNA-based approach utilizing the P6 loop in the chloroplast trnL (UAA) intron; a short (13-158 bp) and variable region with highly conserved flanking sequences. For taxonomic reference, a whole trnL intron sequence database was constructed from recently collected material of 842 species, representing all widespread and/or ecologically important taxa of the species-poor arctic flora. The P6 loop alone allowed identification of all families, most genera (>75%) and one-third of the species, thus providing much higher taxonomic resolution than pollen records. The suitability of the P6 loop for analysis of samples containing degraded ancient DNA from a mixture of species is demonstrated by high-throughput parallel pyrosequencing of permafrost-preserved DNA and reconstruction of two plant communities from the last glacial period. Our approach opens new possibilities for DNA-based assessment of ancient as well as modern biodiversity of many groups of organisms using environmental samples.

U2 - 10.1111/j.1755-0998.2010.02855.x

DO - 10.1111/j.1755-0998.2010.02855.x

M3 - Journal article

C2 - 21565110

SN - 0962-1083

VL - 10

SP - 1009

EP - 1018

JO - Molecular Ecology

JF - Molecular Ecology

IS - 6

ER -

Using next-generation sequencing for molecular reconstruction of past Arctic vegetation and climate

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