Inland dunes and cover sand in southern Sweden and Norway – evidence of late glacial and historical aeolian activity

Forskningsoutput: KonferensbidragKonferensabstract

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Inland dunes and cover sand in southern Sweden and Norway – evidence of late glacial and historical aeolian activity. / Alexanderson, Helena; Bernhardson, Martin; Henriksen, Mona; Jakobsen, Leif V; Shrestha, Rajendra.

2014. 148-148 Abstract från 31st Nordic Geological Winter Meeting, 2014, Lund, Sverige.

Forskningsoutput: KonferensbidragKonferensabstract

Harvard

APA

CBE

Alexanderson H, Bernhardson M, Henriksen M, Jakobsen LV, Shrestha R. 2014. Inland dunes and cover sand in southern Sweden and Norway – evidence of late glacial and historical aeolian activity. Abstract från 31st Nordic Geological Winter Meeting, 2014, Lund, Sverige.

MLA

Alexanderson, Helena et al. Inland dunes and cover sand in southern Sweden and Norway – evidence of late glacial and historical aeolian activity. 31st Nordic Geological Winter Meeting, 2014, 08 jan 2014, Lund, Sverige, Konferensabstract, 2014.

Vancouver

Alexanderson H, Bernhardson M, Henriksen M, Jakobsen LV, Shrestha R. Inland dunes and cover sand in southern Sweden and Norway – evidence of late glacial and historical aeolian activity. 2014. Abstract från 31st Nordic Geological Winter Meeting, 2014, Lund, Sverige.

Author

Alexanderson, Helena ; Bernhardson, Martin ; Henriksen, Mona ; Jakobsen, Leif V ; Shrestha, Rajendra. / Inland dunes and cover sand in southern Sweden and Norway – evidence of late glacial and historical aeolian activity. Abstract från 31st Nordic Geological Winter Meeting, 2014, Lund, Sverige.

RIS

TY - CONF

T1 - Inland dunes and cover sand in southern Sweden and Norway – evidence of late glacial and historical aeolian activity

AU - Alexanderson, Helena

AU - Bernhardson, Martin

AU - Henriksen, Mona

AU - Jakobsen, Leif V

AU - Shrestha, Rajendra

N1 - Conference code: 31

PY - 2014

Y1 - 2014

N2 - Aeolian deposits in Sweden and Norway are poorly explored as environmental records. Many, mainly small, occurrences of windblown sand have been mapped, but few have been investigated in any detail and even fewer have been absolutely dated. Here we present results from a project aiming to determine the timing and magnitude of wind activity in inland settings in southern Sweden and Norway and to better understand the aeolian impact on the landscape. By the end of this year, four areas will have been investigated: three inland dune fields (Bonäsheden, Brattforsheden, Starmoen) and one cover sand site (Blentarp). Our work includes geomorphological mapping, sedimentological and stratigraphic studies, ground penetrating radar investigations, and luminescence and radiocarbon dating. Aeolian sand is in most areas found on top of glaciofluvial sediments that were deposited during deglaciation. Cover sand is generally thin, but can reach 1-2 m thickness in depressions and may contain palaeosols. Most dunes are transverse, and can be used to infer palaeowind directions. Luminescence dating shows that the first aeolian deposition took place during or right after deglaciation, and that the main part of the sand was deposited within a few thousand years after deglaciation. This confirms the supposed deglaciation age of the oldest aeolian deposits based mainly on their geomorphological context. In at least two of the areas (Brattforsheden and Blentarp), aeolian sand has been reactivated at least once during historical times (<500 years ago). This is likely mainly due to human impact, such as expansion of agriculture or mining.

AB - Aeolian deposits in Sweden and Norway are poorly explored as environmental records. Many, mainly small, occurrences of windblown sand have been mapped, but few have been investigated in any detail and even fewer have been absolutely dated. Here we present results from a project aiming to determine the timing and magnitude of wind activity in inland settings in southern Sweden and Norway and to better understand the aeolian impact on the landscape. By the end of this year, four areas will have been investigated: three inland dune fields (Bonäsheden, Brattforsheden, Starmoen) and one cover sand site (Blentarp). Our work includes geomorphological mapping, sedimentological and stratigraphic studies, ground penetrating radar investigations, and luminescence and radiocarbon dating. Aeolian sand is in most areas found on top of glaciofluvial sediments that were deposited during deglaciation. Cover sand is generally thin, but can reach 1-2 m thickness in depressions and may contain palaeosols. Most dunes are transverse, and can be used to infer palaeowind directions. Luminescence dating shows that the first aeolian deposition took place during or right after deglaciation, and that the main part of the sand was deposited within a few thousand years after deglaciation. This confirms the supposed deglaciation age of the oldest aeolian deposits based mainly on their geomorphological context. In at least two of the areas (Brattforsheden and Blentarp), aeolian sand has been reactivated at least once during historical times (<500 years ago). This is likely mainly due to human impact, such as expansion of agriculture or mining.

M3 - Abstract

SP - 148

EP - 148

T2 - 31st Nordic Geological Winter Meeting, 2014

Y2 - 8 January 2014 through 10 January 2014

ER -