Lake sediment multi-taxon DNA from North Greenland records early post-glacial appearance of vascular plants and accurately tracks environmental changes

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Lake sediment multi-taxon DNA from North Greenland records early post-glacial appearance of vascular plants and accurately tracks environmental changes. / Epp, L. S.; Gussarova, G.; Boessenkool, S.; Olsen, J.; Haile, James Seymour; Schrøder-Nielsen, A.; Ludikova, A.; Hassel, K.; Stenøien, H. K.; Funder, Svend Visby; Willerslev, Eske; Kjær, Kurt H.; Brochmann, C.

I: Quaternary Science Reviews, Bind 117, 2015, s. 152-163.

Publikation: Bidrag til tidsskriftTidsskriftartikelfagfællebedømt

Harvard

Epp, LS, Gussarova, G, Boessenkool, S, Olsen, J, Haile, JS, Schrøder-Nielsen, A, Ludikova, A, Hassel, K, Stenøien, HK, Funder, SV, Willerslev, E, Kjær, KH & Brochmann, C 2015, 'Lake sediment multi-taxon DNA from North Greenland records early post-glacial appearance of vascular plants and accurately tracks environmental changes', Quaternary Science Reviews, bind 117, s. 152-163. https://doi.org/10.1016/j.quascirev.2015.03.027

APA

Epp, L. S., Gussarova, G., Boessenkool, S., Olsen, J., Haile, J. S., Schrøder-Nielsen, A., Ludikova, A., Hassel, K., Stenøien, H. K., Funder, S. V., Willerslev, E., Kjær, K. H., & Brochmann, C. (2015). Lake sediment multi-taxon DNA from North Greenland records early post-glacial appearance of vascular plants and accurately tracks environmental changes. Quaternary Science Reviews, 117, 152-163. https://doi.org/10.1016/j.quascirev.2015.03.027

Vancouver

Epp LS, Gussarova G, Boessenkool S, Olsen J, Haile JS, Schrøder-Nielsen A o.a. Lake sediment multi-taxon DNA from North Greenland records early post-glacial appearance of vascular plants and accurately tracks environmental changes. Quaternary Science Reviews. 2015;117:152-163. https://doi.org/10.1016/j.quascirev.2015.03.027

Author

Epp, L. S. ; Gussarova, G. ; Boessenkool, S. ; Olsen, J. ; Haile, James Seymour ; Schrøder-Nielsen, A. ; Ludikova, A. ; Hassel, K. ; Stenøien, H. K. ; Funder, Svend Visby ; Willerslev, Eske ; Kjær, Kurt H. ; Brochmann, C. / Lake sediment multi-taxon DNA from North Greenland records early post-glacial appearance of vascular plants and accurately tracks environmental changes. I: Quaternary Science Reviews. 2015 ; Bind 117. s. 152-163.

Bibtex

@article{4ea4a71beb614f11bbb0ff4e544b5e3f,
title = "Lake sediment multi-taxon DNA from North Greenland records early post-glacial appearance of vascular plants and accurately tracks environmental changes",
abstract = "High Arctic environments are particularly sensitive to climate changes, but retrieval of paleoecological data is challenging due to low productivity and biomass. At the same time, Arctic soils and sediments have proven exceptional for long-term DNA preservation due to their constantly low temperatures. Lake sediments contain DNA paleorecords of the surrounding ecosystems and can be used to retrieve a variety of organismal groups from a single sample. In this study, we analyzed vascular plant, bryophyte, algal (in particular diatom) and copepod DNA retrieved from a sediment core spanning the Holocene, taken from Bliss Lake on the northernmost coast of Greenland. A previous multi-proxy study including microscopic diatom analyses showed that this lake experienced changes between marine and lacustrine conditions. We inferred the same environmental changes from algal DNA preserved in the sediment core. Our DNA record was stratigraphically coherent, with no indication of leaching between layers, and our cross-taxon comparisons were in accordance with previously inferred local ecosystem changes. Authentic ancient plant DNA was retrieved from nearly all layers, both from the marine and the limnic phases, and distinct temporal changes in plant presence were recovered. The plant DNA was mostly in agreement with expected vegetation history, but very early occurrences of vascular plants, including the woody Empetrum nigrum, document terrestrial vegetation very shortly after glacial retreat. Our study shows that multi-taxon metabarcoding of sedimentary ancient DNA from lake cores is a valuable tool both for terrestrial and aquatic paleoecology, even in low-productivity ecosystems such as the High Arctic.",
keywords = "Bryophytes, Copepods, Diatoms, Greenland, Metabarcoding, Sedimentary DNA, Vegetation history",
author = "Epp, {L. S.} and G. Gussarova and S. Boessenkool and J. Olsen and Haile, {James Seymour} and A. Schr{\o}der-Nielsen and A. Ludikova and K. Hassel and Sten{\o}ien, {H. K.} and Funder, {Svend Visby} and Eske Willerslev and Kj{\ae}r, {Kurt H.} and C. Brochmann",
year = "2015",
doi = "10.1016/j.quascirev.2015.03.027",
language = "English",
volume = "117",
pages = "152--163",
journal = "Quaternary Science Reviews",
issn = "0277-3791",
publisher = "Pergamon Press",

}

RIS

TY - JOUR

T1 - Lake sediment multi-taxon DNA from North Greenland records early post-glacial appearance of vascular plants and accurately tracks environmental changes

AU - Epp, L. S.

AU - Gussarova, G.

AU - Boessenkool, S.

AU - Olsen, J.

AU - Haile, James Seymour

AU - Schrøder-Nielsen, A.

AU - Ludikova, A.

AU - Hassel, K.

AU - Stenøien, H. K.

AU - Funder, Svend Visby

AU - Willerslev, Eske

AU - Kjær, Kurt H.

AU - Brochmann, C.

PY - 2015

Y1 - 2015

N2 - High Arctic environments are particularly sensitive to climate changes, but retrieval of paleoecological data is challenging due to low productivity and biomass. At the same time, Arctic soils and sediments have proven exceptional for long-term DNA preservation due to their constantly low temperatures. Lake sediments contain DNA paleorecords of the surrounding ecosystems and can be used to retrieve a variety of organismal groups from a single sample. In this study, we analyzed vascular plant, bryophyte, algal (in particular diatom) and copepod DNA retrieved from a sediment core spanning the Holocene, taken from Bliss Lake on the northernmost coast of Greenland. A previous multi-proxy study including microscopic diatom analyses showed that this lake experienced changes between marine and lacustrine conditions. We inferred the same environmental changes from algal DNA preserved in the sediment core. Our DNA record was stratigraphically coherent, with no indication of leaching between layers, and our cross-taxon comparisons were in accordance with previously inferred local ecosystem changes. Authentic ancient plant DNA was retrieved from nearly all layers, both from the marine and the limnic phases, and distinct temporal changes in plant presence were recovered. The plant DNA was mostly in agreement with expected vegetation history, but very early occurrences of vascular plants, including the woody Empetrum nigrum, document terrestrial vegetation very shortly after glacial retreat. Our study shows that multi-taxon metabarcoding of sedimentary ancient DNA from lake cores is a valuable tool both for terrestrial and aquatic paleoecology, even in low-productivity ecosystems such as the High Arctic.

AB - High Arctic environments are particularly sensitive to climate changes, but retrieval of paleoecological data is challenging due to low productivity and biomass. At the same time, Arctic soils and sediments have proven exceptional for long-term DNA preservation due to their constantly low temperatures. Lake sediments contain DNA paleorecords of the surrounding ecosystems and can be used to retrieve a variety of organismal groups from a single sample. In this study, we analyzed vascular plant, bryophyte, algal (in particular diatom) and copepod DNA retrieved from a sediment core spanning the Holocene, taken from Bliss Lake on the northernmost coast of Greenland. A previous multi-proxy study including microscopic diatom analyses showed that this lake experienced changes between marine and lacustrine conditions. We inferred the same environmental changes from algal DNA preserved in the sediment core. Our DNA record was stratigraphically coherent, with no indication of leaching between layers, and our cross-taxon comparisons were in accordance with previously inferred local ecosystem changes. Authentic ancient plant DNA was retrieved from nearly all layers, both from the marine and the limnic phases, and distinct temporal changes in plant presence were recovered. The plant DNA was mostly in agreement with expected vegetation history, but very early occurrences of vascular plants, including the woody Empetrum nigrum, document terrestrial vegetation very shortly after glacial retreat. Our study shows that multi-taxon metabarcoding of sedimentary ancient DNA from lake cores is a valuable tool both for terrestrial and aquatic paleoecology, even in low-productivity ecosystems such as the High Arctic.

KW - Bryophytes

KW - Copepods

KW - Diatoms

KW - Greenland

KW - Metabarcoding

KW - Sedimentary DNA

KW - Vegetation history

U2 - 10.1016/j.quascirev.2015.03.027

DO - 10.1016/j.quascirev.2015.03.027

M3 - Journal article

AN - SCOPUS:84928692736

VL - 117

SP - 152

EP - 163

JO - Quaternary Science Reviews

JF - Quaternary Science Reviews

SN - 0277-3791

ER -

ID: 154482651