Holocene changes in climate and vegetation in the Ammassalik area, East Greenland, recorded in lake sediments and soil profiles

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Holocene changes in climate and vegetation in the Ammassalik area, East Greenland, recorded in lake sediments and soil profiles. / Jakobsen, Bjarne Holm; Fredskild, Bent; Pedersen, Jørn Bjarke Torp.

In: Geografisk Tidsskrift, Vol. 108, No. 1, 2008, p. 21-50.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Jakobsen, BH, Fredskild, B & Pedersen, JBT 2008, 'Holocene changes in climate and vegetation in the Ammassalik area, East Greenland, recorded in lake sediments and soil profiles', Geografisk Tidsskrift, vol. 108, no. 1, pp. 21-50. <https://rdgs.dk/djg_article_details.asp?site=djg&art_id=118&pid=11>

APA

Jakobsen, B. H., Fredskild, B., & Pedersen, J. B. T. (2008). Holocene changes in climate and vegetation in the Ammassalik area, East Greenland, recorded in lake sediments and soil profiles. Geografisk Tidsskrift, 108(1), 21-50. https://rdgs.dk/djg_article_details.asp?site=djg&art_id=118&pid=11

Vancouver

Jakobsen BH, Fredskild B, Pedersen JBT. Holocene changes in climate and vegetation in the Ammassalik area, East Greenland, recorded in lake sediments and soil profiles. Geografisk Tidsskrift. 2008;108(1):21-50.

Author

Jakobsen, Bjarne Holm ; Fredskild, Bent ; Pedersen, Jørn Bjarke Torp. / Holocene changes in climate and vegetation in the Ammassalik area, East Greenland, recorded in lake sediments and soil profiles. In: Geografisk Tidsskrift. 2008 ; Vol. 108, No. 1. pp. 21-50.

Bibtex

@article{b4575b60b0c611ddb538000ea68e967b,
title = "Holocene changes in climate and vegetation in the Ammassalik area, East Greenland, recorded in lake sediments and soil profiles",
abstract = "Holocene climatic, vegetational and environmental changes on the Ammassalik Island in SE Greenland (65.5 N and 37.5 W) have been studied in lake sediments and soil profiles. Based on the stratigraphy of sediments, geobiochemical characteristics, pollen and other biological proxies, a history of the land is outlined. The overall and continued climatic cooling during the Holocene basically seems to be orbitally controlled and due to both decreasing annual and summer insolations. The very early Holocene, concurrent with and following the final postglacial melting of glaciers in the landscape, appears to have experienced the warmest Holocene summer conditions, ice-free seas and limited snow covers. The climate situation seems to have been to a considerable extent based on internal regional meteorological processes and largely without strong and regular cyclonic impacts from lower latitudes. Generally decreasing insolation, a still colder landscape and near coastal sea, potentially further cooled by the negative albedo feedback from snow and ice, generally increase a gradient driven circulation of heat and moisture northwards in the western part of the North Atlantic. Counteracting this southerly influx of heat and moisture, will be the blocking effect of a snow and ice-covered region, resulting in decreasing precipitation and probably slightly increasing net radiation in landscapes. A framework and a climatic system are created to characterize the environmental changes of the latest 4-5 millennia. There has presumably been a continuous cooling trend interrupted by both spells and somewhat longer periods of renewed and stronger southerly influxes, relatively warmer conditions, higher precipitation and less sea ice.",
keywords = "Faculty of Science, klima forandring, vegetations forandringer, Ammassalik, {\O}st Gr{\o}nland, climate change, vegetation changes, Ammassalik Island, East Greenland, lake sediments, soil profiles",
author = "Jakobsen, {Bjarne Holm} and Bent Fredskild and Pedersen, {J{\o}rn Bjarke Torp}",
year = "2008",
language = "English",
volume = "108",
pages = "21--50",
journal = "Geografisk Tidsskrift",
issn = "0016-7223",
publisher = "Routledge",
number = "1",

}

RIS

TY - JOUR

T1 - Holocene changes in climate and vegetation in the Ammassalik area, East Greenland, recorded in lake sediments and soil profiles

AU - Jakobsen, Bjarne Holm

AU - Fredskild, Bent

AU - Pedersen, Jørn Bjarke Torp

PY - 2008

Y1 - 2008

N2 - Holocene climatic, vegetational and environmental changes on the Ammassalik Island in SE Greenland (65.5 N and 37.5 W) have been studied in lake sediments and soil profiles. Based on the stratigraphy of sediments, geobiochemical characteristics, pollen and other biological proxies, a history of the land is outlined. The overall and continued climatic cooling during the Holocene basically seems to be orbitally controlled and due to both decreasing annual and summer insolations. The very early Holocene, concurrent with and following the final postglacial melting of glaciers in the landscape, appears to have experienced the warmest Holocene summer conditions, ice-free seas and limited snow covers. The climate situation seems to have been to a considerable extent based on internal regional meteorological processes and largely without strong and regular cyclonic impacts from lower latitudes. Generally decreasing insolation, a still colder landscape and near coastal sea, potentially further cooled by the negative albedo feedback from snow and ice, generally increase a gradient driven circulation of heat and moisture northwards in the western part of the North Atlantic. Counteracting this southerly influx of heat and moisture, will be the blocking effect of a snow and ice-covered region, resulting in decreasing precipitation and probably slightly increasing net radiation in landscapes. A framework and a climatic system are created to characterize the environmental changes of the latest 4-5 millennia. There has presumably been a continuous cooling trend interrupted by both spells and somewhat longer periods of renewed and stronger southerly influxes, relatively warmer conditions, higher precipitation and less sea ice.

AB - Holocene climatic, vegetational and environmental changes on the Ammassalik Island in SE Greenland (65.5 N and 37.5 W) have been studied in lake sediments and soil profiles. Based on the stratigraphy of sediments, geobiochemical characteristics, pollen and other biological proxies, a history of the land is outlined. The overall and continued climatic cooling during the Holocene basically seems to be orbitally controlled and due to both decreasing annual and summer insolations. The very early Holocene, concurrent with and following the final postglacial melting of glaciers in the landscape, appears to have experienced the warmest Holocene summer conditions, ice-free seas and limited snow covers. The climate situation seems to have been to a considerable extent based on internal regional meteorological processes and largely without strong and regular cyclonic impacts from lower latitudes. Generally decreasing insolation, a still colder landscape and near coastal sea, potentially further cooled by the negative albedo feedback from snow and ice, generally increase a gradient driven circulation of heat and moisture northwards in the western part of the North Atlantic. Counteracting this southerly influx of heat and moisture, will be the blocking effect of a snow and ice-covered region, resulting in decreasing precipitation and probably slightly increasing net radiation in landscapes. A framework and a climatic system are created to characterize the environmental changes of the latest 4-5 millennia. There has presumably been a continuous cooling trend interrupted by both spells and somewhat longer periods of renewed and stronger southerly influxes, relatively warmer conditions, higher precipitation and less sea ice.

KW - Faculty of Science

KW - klima forandring

KW - vegetations forandringer

KW - Ammassalik

KW - Øst Grønland

KW - climate change

KW - vegetation changes

KW - Ammassalik Island

KW - East Greenland

KW - lake sediments

KW - soil profiles

M3 - Journal article

VL - 108

SP - 21

EP - 50

JO - Geografisk Tidsskrift

JF - Geografisk Tidsskrift

SN - 0016-7223

IS - 1

ER -

ID: 8549228