Holocene Relative Sea-level Changes: Investigation of raised beach ridges in southwest Disko, Greenland

Priscila Emerich Souza

Holocene Relative Sea-level Changes: Investigation of raised beach ridges in southwest Disko, Greenland

Priscila Emerich Souza

Geologi

Abstract

This PhD thesis investigates relative sea-level (RSL) changes during the Holocene on southwest Disko, Greenland. The research project has two main branches that, together, provide the basis for achieving the thesis main objective: to reconstruct a high-resolution RSL curve for southwest Disko. The first branch deals with identifying meaningful RSL markers using high-resolution ground-penetrating radar and detailed topographic measurements, while the second aims at providing the chronology of such markers employing optical luminescence dating to cobbles surfaces. This study is pioneer in exploring the use of buried cobbles surfaces for optical luminescence dating in Greenland, and it demonstrates that such method is robust and advantageous over conventional dating methods. Finally, this is the first study able to provide data that depicts the RSL changes that occurred between 4 ka and 2 ka ago in Disko.

Originalsprog	Engelsk

Antal sider	116
Status	Udgivet - apr. 2019

Adgang til dokumentet

thesis PES

Citationsformater

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title = "Holocene Relative Sea-level Changes: Investigation of raised beach ridges in southwest Disko, Greenland",

abstract = "This PhD thesis investigates relative sea-level (RSL) changes during the Holocene on southwest Disko, Greenland. The research project has two main branches that, together, provide the basis for achieving the thesis main objective: to reconstruct a high-resolution RSL curve for southwest Disko. The first branch deals with identifying meaningful RSL markers using high-resolution ground-penetrating radar and detailed topographic measurements, while the second aims at providing the chronology of such markers employing optical luminescence dating to cobbles surfaces. This study is pioneer in exploring the use of buried cobbles surfaces for optical luminescence dating in Greenland, and it demonstrates that such method is robust and advantageous over conventional dating methods. Finally, this is the first study able to provide data that depicts the RSL changes that occurred between 4 ka and 2 ka ago in Disko.",

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N2 - This PhD thesis investigates relative sea-level (RSL) changes during the Holocene on southwest Disko, Greenland. The research project has two main branches that, together, provide the basis for achieving the thesis main objective: to reconstruct a high-resolution RSL curve for southwest Disko. The first branch deals with identifying meaningful RSL markers using high-resolution ground-penetrating radar and detailed topographic measurements, while the second aims at providing the chronology of such markers employing optical luminescence dating to cobbles surfaces. This study is pioneer in exploring the use of buried cobbles surfaces for optical luminescence dating in Greenland, and it demonstrates that such method is robust and advantageous over conventional dating methods. Finally, this is the first study able to provide data that depicts the RSL changes that occurred between 4 ka and 2 ka ago in Disko.

AB - This PhD thesis investigates relative sea-level (RSL) changes during the Holocene on southwest Disko, Greenland. The research project has two main branches that, together, provide the basis for achieving the thesis main objective: to reconstruct a high-resolution RSL curve for southwest Disko. The first branch deals with identifying meaningful RSL markers using high-resolution ground-penetrating radar and detailed topographic measurements, while the second aims at providing the chronology of such markers employing optical luminescence dating to cobbles surfaces. This study is pioneer in exploring the use of buried cobbles surfaces for optical luminescence dating in Greenland, and it demonstrates that such method is robust and advantageous over conventional dating methods. Finally, this is the first study able to provide data that depicts the RSL changes that occurred between 4 ka and 2 ka ago in Disko.

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