Antarctic raised beaches: Insight on geochronology, relative sea level, and coastal processes
Beaches are preserved above sea level along ice-free portions of the Antarctic coastline due to post-glacial rebound associated with glacial isostatic adjustment since the Last Glacial Maximum. The ages and elevations of these beaches provide relative sea-level constraints for glacial isostatic adju...
| Main Author: | |
|---|---|
| Format: | Doctoral or Postdoctoral Thesis |
| Language: | English |
| Published: |
eScholarship, University of California
2014
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| Subjects: | |
| Online Access: | http://www.escholarship.org/uc/item/7n3090qp |
| id |
ftcdlib:qt7n3090qp |
|---|---|
| record_format |
openpolar |
| institution |
Open Polar |
| collection |
University of California: eScholarship |
| op_collection_id |
ftcdlib |
| language |
English |
| topic |
Geology Sedimentary geology Geomorphology Antarctica coastal processes glacial isostatic adjustment optically stimulated luminescence raised beaches sea level |
| spellingShingle |
Geology Sedimentary geology Geomorphology Antarctica coastal processes glacial isostatic adjustment optically stimulated luminescence raised beaches sea level Simkins, Lauren Miller Antarctic raised beaches: Insight on geochronology, relative sea level, and coastal processes |
| topic_facet |
Geology Sedimentary geology Geomorphology Antarctica coastal processes glacial isostatic adjustment optically stimulated luminescence raised beaches sea level |
| description |
Beaches are preserved above sea level along ice-free portions of the Antarctic coastline due to post-glacial rebound associated with glacial isostatic adjustment since the Last Glacial Maximum. The ages and elevations of these beaches provide relative sea-level constraints for glacial isostatic adjustment models and ice-sheet histories. Due to harsh field conditions and difficulty dating Antarctic materials, a lack of geochronological constraints on raised beaches limits our understanding of relative sea level around Antarctica. The focus of the studies discussed here is on Antarctic raised beaches with goals to improve the methods of dating cobble surfaces from raised beaches using optically stimulated luminescence and use the dated beaches to reconstruct relative sea level and better understand Antarctic coastal processes throughout the Holocene. Through a series of cleaning methods applied to sample carriers used for optically stimulated luminescence measurements of sediment, the contamination of dose-dependent, variable signals from sample carriers previously assumed to have neutral signals is eliminated through a series of cleaning methods (Chapter 2). An analysis of optically stimulated luminescence characteristics of quartz from cobble surfaces with sample petrology and cathodoluminescence provides insight on the suitability of Antarctic materials for optically stimulated luminescence dating (Chapter 3). The limited amount of quartz (<10%) found in the majority of the samples often occurs as intergrowths in feldspars characterized by irregular, anhedral crystal form. A lack of discernible relationship between optically stimulated luminescence and cathodoluminescence properties and petrology suggest that cathodoluminescence behavior and petrology are not responsible for the poor luminescence characteristics observed from quartz extracted from cobble surfaces. A relative sea-level history of Marguerite Bay, Antarctic Peninsula derived from optically stimulated luminescence-dated beach cobble surfaces further constrains post-glacial rebound since the Last Glacial Maximum (Chapter 4). New ages suggest the Holocene marine limit for Marguerite Bay is 21.7 masl with an age of ~ 5.5-7.3 ka. Our favored hypothesis for the ages of the beaches from 21.7-40.8 masl at Calmette Bay is that the beaches formed prior to the Last Glacial Maximum. The temporal distribution of circum-Antarctic raised beaches throughout the Holocene is utilized to determine the relationship between wave-energy, sea ice, and coastal evolution (Chapter 5). The distribution of raised beaches throughout the Holocene around Antarctica show synchronous periods of beach formation in the Antarctic Peninsula and the Ross Sea centered at 2.0, 3.5, and 5.3 ky BP while East Antarctic (outside of the Ross Sea) beach formation is out-of-phase with the rest of the Antarctica at 3.2, 4.2, 5.8, and 6.5 ky BP. The distribution of beaches in the South Shetland Islands is dominated by enhanced beach formation between 0.2 and 0.7 ky BP most likely due to rapid post-glacial rebound associated with the Little Ice Age with minor peaks in beach formation from 1.3-2.2, 5.1-5.6, and 6.0-6.5 ky BP. Beach formation results from higher wave exposure during periods of reduced sea ice observed from comparison with Holocene sea-ice proxies. The anti-phasing of beach formation in the Antarctic Peninsula and Ross Sea compared to East Antarctica is markedly similar to the phasing of modern and Holocene climate forcing around Antarctica. The findings of these studies focused on Antarctic raised beaches have implications for understanding sea-level, glacial isostatic adjustment, ice-sheet histories, and coastal processes since the Last Glacial Maximum. |
| format |
Doctoral or Postdoctoral Thesis |
| author |
Simkins, Lauren Miller |
| author_facet |
Simkins, Lauren Miller |
| author_sort |
Simkins, Lauren Miller |
| title |
Antarctic raised beaches: Insight on geochronology, relative sea level, and coastal processes |
| title_short |
Antarctic raised beaches: Insight on geochronology, relative sea level, and coastal processes |
| title_full |
Antarctic raised beaches: Insight on geochronology, relative sea level, and coastal processes |
| title_fullStr |
Antarctic raised beaches: Insight on geochronology, relative sea level, and coastal processes |
| title_full_unstemmed |
Antarctic raised beaches: Insight on geochronology, relative sea level, and coastal processes |
| title_sort |
antarctic raised beaches: insight on geochronology, relative sea level, and coastal processes |
| publisher |
eScholarship, University of California |
| publishDate |
2014 |
| url |
http://www.escholarship.org/uc/item/7n3090qp |
| op_coverage |
164 |
| long_lat |
ENVELOPE(-67.150,-67.150,-68.050,-68.050) ENVELOPE(-67.167,-67.167,-68.050,-68.050) ENVELOPE(141.378,141.378,-66.787,-66.787) ENVELOPE(-68.000,-68.000,-68.500,-68.500) ENVELOPE(-56.832,-56.832,49.583,49.583) |
| geographic |
Antarctic Antarctic Peninsula Calmette Calmette Bay East Antarctica Marguerite Marguerite Bay Ross Sea South Shetland Islands The Antarctic The Beaches |
| geographic_facet |
Antarctic Antarctic Peninsula Calmette Calmette Bay East Antarctica Marguerite Marguerite Bay Ross Sea South Shetland Islands The Antarctic The Beaches |
| genre |
Antarc* Antarctic Antarctic Peninsula Antarctica East Antarctica Ice Sheet Ross Sea Sea ice South Shetland Islands |
| genre_facet |
Antarc* Antarctic Antarctic Peninsula Antarctica East Antarctica Ice Sheet Ross Sea Sea ice South Shetland Islands |
| op_source |
Simkins, Lauren Miller. (2014). Antarctic raised beaches: Insight on geochronology, relative sea level, and coastal processes. 0035: Geological Sciences. Retrieved from: http://www.escholarship.org/uc/item/7n3090qp |
| op_relation |
http://www.escholarship.org/uc/item/7n3090qp qt7n3090qp |
| op_rights |
public |
| _version_ |
1766271341058588672 |
| spelling |
ftcdlib:qt7n3090qp 2023-05-15T14:01:30+02:00 Antarctic raised beaches: Insight on geochronology, relative sea level, and coastal processes Simkins, Lauren Miller 164 2014-01-01 application/pdf http://www.escholarship.org/uc/item/7n3090qp en eng eScholarship, University of California http://www.escholarship.org/uc/item/7n3090qp qt7n3090qp public Simkins, Lauren Miller. (2014). Antarctic raised beaches: Insight on geochronology, relative sea level, and coastal processes. 0035: Geological Sciences. Retrieved from: http://www.escholarship.org/uc/item/7n3090qp Geology Sedimentary geology Geomorphology Antarctica coastal processes glacial isostatic adjustment optically stimulated luminescence raised beaches sea level dissertation 2014 ftcdlib 2019-05-17T22:52:17Z Beaches are preserved above sea level along ice-free portions of the Antarctic coastline due to post-glacial rebound associated with glacial isostatic adjustment since the Last Glacial Maximum. The ages and elevations of these beaches provide relative sea-level constraints for glacial isostatic adjustment models and ice-sheet histories. Due to harsh field conditions and difficulty dating Antarctic materials, a lack of geochronological constraints on raised beaches limits our understanding of relative sea level around Antarctica. The focus of the studies discussed here is on Antarctic raised beaches with goals to improve the methods of dating cobble surfaces from raised beaches using optically stimulated luminescence and use the dated beaches to reconstruct relative sea level and better understand Antarctic coastal processes throughout the Holocene. Through a series of cleaning methods applied to sample carriers used for optically stimulated luminescence measurements of sediment, the contamination of dose-dependent, variable signals from sample carriers previously assumed to have neutral signals is eliminated through a series of cleaning methods (Chapter 2). An analysis of optically stimulated luminescence characteristics of quartz from cobble surfaces with sample petrology and cathodoluminescence provides insight on the suitability of Antarctic materials for optically stimulated luminescence dating (Chapter 3). The limited amount of quartz (<10%) found in the majority of the samples often occurs as intergrowths in feldspars characterized by irregular, anhedral crystal form. A lack of discernible relationship between optically stimulated luminescence and cathodoluminescence properties and petrology suggest that cathodoluminescence behavior and petrology are not responsible for the poor luminescence characteristics observed from quartz extracted from cobble surfaces. A relative sea-level history of Marguerite Bay, Antarctic Peninsula derived from optically stimulated luminescence-dated beach cobble surfaces further constrains post-glacial rebound since the Last Glacial Maximum (Chapter 4). New ages suggest the Holocene marine limit for Marguerite Bay is 21.7 masl with an age of ~ 5.5-7.3 ka. Our favored hypothesis for the ages of the beaches from 21.7-40.8 masl at Calmette Bay is that the beaches formed prior to the Last Glacial Maximum. The temporal distribution of circum-Antarctic raised beaches throughout the Holocene is utilized to determine the relationship between wave-energy, sea ice, and coastal evolution (Chapter 5). The distribution of raised beaches throughout the Holocene around Antarctica show synchronous periods of beach formation in the Antarctic Peninsula and the Ross Sea centered at 2.0, 3.5, and 5.3 ky BP while East Antarctic (outside of the Ross Sea) beach formation is out-of-phase with the rest of the Antarctica at 3.2, 4.2, 5.8, and 6.5 ky BP. The distribution of beaches in the South Shetland Islands is dominated by enhanced beach formation between 0.2 and 0.7 ky BP most likely due to rapid post-glacial rebound associated with the Little Ice Age with minor peaks in beach formation from 1.3-2.2, 5.1-5.6, and 6.0-6.5 ky BP. Beach formation results from higher wave exposure during periods of reduced sea ice observed from comparison with Holocene sea-ice proxies. The anti-phasing of beach formation in the Antarctic Peninsula and Ross Sea compared to East Antarctica is markedly similar to the phasing of modern and Holocene climate forcing around Antarctica. The findings of these studies focused on Antarctic raised beaches have implications for understanding sea-level, glacial isostatic adjustment, ice-sheet histories, and coastal processes since the Last Glacial Maximum. Doctoral or Postdoctoral Thesis Antarc* Antarctic Antarctic Peninsula Antarctica East Antarctica Ice Sheet Ross Sea Sea ice South Shetland Islands University of California: eScholarship Antarctic Antarctic Peninsula Calmette ENVELOPE(-67.150,-67.150,-68.050,-68.050) Calmette Bay ENVELOPE(-67.167,-67.167,-68.050,-68.050) East Antarctica Marguerite ENVELOPE(141.378,141.378,-66.787,-66.787) Marguerite Bay ENVELOPE(-68.000,-68.000,-68.500,-68.500) Ross Sea South Shetland Islands The Antarctic The Beaches ENVELOPE(-56.832,-56.832,49.583,49.583) |