Barrier response to Holocene sea-level rise

Research output: Contribution to conferenceConference abstract for conferenceResearch

Standard

Barrier response to Holocene sea-level rise. / Pejrup, Morten; Andersen, Thorbjørn Joest; Johannessen, Peter N; Nielsen, Lars Henrik; Fruergaard, Mikkel.

2014. Abstract from Ocean Sciences Meeting, Honolulu, United States.

Research output: Contribution to conferenceConference abstract for conferenceResearch

Harvard

Pejrup, M, Andersen, TJ, Johannessen, PN, Nielsen, LH & Fruergaard, M 2014, 'Barrier response to Holocene sea-level rise', Ocean Sciences Meeting, Honolulu, United States, 21/02/2014 - 28/02/2014.

APA

Pejrup, M., Andersen, T. J., Johannessen, P. N., Nielsen, L. H., & Fruergaard, M. (2014). Barrier response to Holocene sea-level rise. Abstract from Ocean Sciences Meeting, Honolulu, United States.

Vancouver

Pejrup M, Andersen TJ, Johannessen PN, Nielsen LH, Fruergaard M. Barrier response to Holocene sea-level rise. 2014. Abstract from Ocean Sciences Meeting, Honolulu, United States.

Author

Pejrup, Morten ; Andersen, Thorbjørn Joest ; Johannessen, Peter N ; Nielsen, Lars Henrik ; Fruergaard, Mikkel. / Barrier response to Holocene sea-level rise. Abstract from Ocean Sciences Meeting, Honolulu, United States.1 p.

Bibtex

@conference{176ea98dffa1407d8b726a1a2e23d200,
title = "Barrier response to Holocene sea-level rise",
abstract = "Normally it is believed that sea-level rise causes coastal barrier retreat. However, sea-level is only one of the parameters determining the long term coastal development of barrier coasts. Sediment supply is an equally important determinant and may overshadow the effects of sea-level rise. Conceptually this has been known for a long time but for the first time we can show the relative effect of these two parameters. We have studied three neighboring barrier islands in the Wadden Sea, and described their 3D morphological evolution during the last 8000 years. It appears that the barrier islands show quite different responses to sea-level rise. The southernmost island R{\o}m{\o} has survived 17 m of sea-level rise at the same position illustrating the control from sediment supply; whereas the northernmost island Skallingen has shifted its position several times during the same period indicating a much stronger component of sea-level control. The distance between the islands is only 50 km, and therefore our study shows that prediction of barrier development during a period of rising sea level may be more complicated than formerly believed.",
author = "Morten Pejrup and Andersen, {Thorbj{\o}rn Joest} and Johannessen, {Peter N} and Nielsen, {Lars Henrik} and Mikkel Fruergaard",
year = "2014",
language = "English",
note = "Ocean Sciences Meeting, OSM ; Conference date: 21-02-2014 Through 28-02-2014",

}

RIS

TY - ABST

T1 - Barrier response to Holocene sea-level rise

AU - Pejrup, Morten

AU - Andersen, Thorbjørn Joest

AU - Johannessen, Peter N

AU - Nielsen, Lars Henrik

AU - Fruergaard, Mikkel

PY - 2014

Y1 - 2014

N2 - Normally it is believed that sea-level rise causes coastal barrier retreat. However, sea-level is only one of the parameters determining the long term coastal development of barrier coasts. Sediment supply is an equally important determinant and may overshadow the effects of sea-level rise. Conceptually this has been known for a long time but for the first time we can show the relative effect of these two parameters. We have studied three neighboring barrier islands in the Wadden Sea, and described their 3D morphological evolution during the last 8000 years. It appears that the barrier islands show quite different responses to sea-level rise. The southernmost island Rømø has survived 17 m of sea-level rise at the same position illustrating the control from sediment supply; whereas the northernmost island Skallingen has shifted its position several times during the same period indicating a much stronger component of sea-level control. The distance between the islands is only 50 km, and therefore our study shows that prediction of barrier development during a period of rising sea level may be more complicated than formerly believed.

AB - Normally it is believed that sea-level rise causes coastal barrier retreat. However, sea-level is only one of the parameters determining the long term coastal development of barrier coasts. Sediment supply is an equally important determinant and may overshadow the effects of sea-level rise. Conceptually this has been known for a long time but for the first time we can show the relative effect of these two parameters. We have studied three neighboring barrier islands in the Wadden Sea, and described their 3D morphological evolution during the last 8000 years. It appears that the barrier islands show quite different responses to sea-level rise. The southernmost island Rømø has survived 17 m of sea-level rise at the same position illustrating the control from sediment supply; whereas the northernmost island Skallingen has shifted its position several times during the same period indicating a much stronger component of sea-level control. The distance between the islands is only 50 km, and therefore our study shows that prediction of barrier development during a period of rising sea level may be more complicated than formerly believed.

M3 - Conference abstract for conference

T2 - Ocean Sciences Meeting

Y2 - 21 February 2014 through 28 February 2014

ER -

ID: 105589430