Historical bathymetric charts and the evolution of Santorini submarine volcano, Greece
Historical bathymetric charts are a potential resource for better understanding the dynamics of the seafloor and the role of active processes, such as submarine volcanism. The British Admiralty, for example, have been involved in lead line measurements of seafloor depth since the early 1790s. Here,...
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sg-ntu-dr.10356-862802020-09-26T21:29:33Z Historical bathymetric charts and the evolution of Santorini submarine volcano, Greece Watts, A. B. Nomikou, P. Moore, J. D. P. Parks, M. M. Alexandri, M. Earth Observatory of Singapore Marine Geology Marine Geophysics Historical bathymetric charts are a potential resource for better understanding the dynamics of the seafloor and the role of active processes, such as submarine volcanism. The British Admiralty, for example, have been involved in lead line measurements of seafloor depth since the early 1790s. Here, we report on an analysis of historical charts in the region of Santorini volcano, Greece. Repeat lead line surveys in 1848, late 1866, and 1925–1928 as well as multibeam swath bathymetry surveys in 2001 and 2006 have been used to document changes in seafloor depth. These data reveal that the flanks of the Kameni Islands, a dacitic dome complex in the caldera center, have shallowed by up to ∼175 m and deepened by up to ∼80 m since 1848. The largest shallowing occurred between the late 1866 and 1925–1928 surveys and the largest deepening occurred during the 1925–1928 and 2001 and 2006 surveys. The shallowing is attributed to the emplacement of lavas during effusive eruptions in both 1866–1870 and 1925–1928 at rates of up to 0.18 and 0.05 km3 a−1, respectively. The deepening is attributed to a load-induced viscoelastic stress relaxation following the 1866–1870 and 1925–1928 lava eruptions. The elastic thickness and viscosity that best fits the observed deepening are 1.0 km and ∼1016 Pa s, respectively. This parameter pair, which is consistent with the predictions of a shallow magma chamber thermal model, explains both the amplitude and wavelength of the historical bathymetric data and the present day rate of subsidence inferred from InSAR analysis. Published version 2017-10-31T08:53:41Z 2019-12-06T16:19:32Z 2017-10-31T08:53:41Z 2019-12-06T16:19:32Z 2015 Journal Article Watts, A. B., Nomikou, P., Moore, J. D. P., Parks, M. M., & Alexandri, M. (2015). Historical bathymetric charts and the evolution of Santorini submarine volcano, Greece. Geochemistry, Geophysics, Geosystems, 16(3), 847-869. 1525-2027 https://hdl.handle.net/10356/86280 http://hdl.handle.net/10220/43964 10.1002/2014GC005679 en Geochemistry, Geophysics, Geosystems © 2015 The Authors. This is an open access article under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non-commercial and no modifications or adaptations are made. 23 p. application/pdf |
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Marine Geology Marine Geophysics |
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Marine Geology Marine Geophysics Watts, A. B. Nomikou, P. Moore, J. D. P. Parks, M. M. Alexandri, M. Historical bathymetric charts and the evolution of Santorini submarine volcano, Greece |
| description |
Historical bathymetric charts are a potential resource for better understanding the dynamics of the seafloor and the role of active processes, such as submarine volcanism. The British Admiralty, for example, have been involved in lead line measurements of seafloor depth since the early 1790s. Here, we report on an analysis of historical charts in the region of Santorini volcano, Greece. Repeat lead line surveys in 1848, late 1866, and 1925–1928 as well as multibeam swath bathymetry surveys in 2001 and 2006 have been used to document changes in seafloor depth. These data reveal that the flanks of the Kameni Islands, a dacitic dome complex in the caldera center, have shallowed by up to ∼175 m and deepened by up to ∼80 m since 1848. The largest shallowing occurred between the late 1866 and 1925–1928 surveys and the largest deepening occurred during the 1925–1928 and 2001 and 2006 surveys. The shallowing is attributed to the emplacement of lavas during effusive eruptions in both 1866–1870 and 1925–1928 at rates of up to 0.18 and 0.05 km3 a−1, respectively. The deepening is attributed to a load-induced viscoelastic stress relaxation following the 1866–1870 and 1925–1928 lava eruptions. The elastic thickness and viscosity that best fits the observed deepening are 1.0 km and ∼1016 Pa s, respectively. This parameter pair, which is consistent with the predictions of a shallow magma chamber thermal model, explains both the amplitude and wavelength of the historical bathymetric data and the present day rate of subsidence inferred from InSAR analysis. |
| author2 |
Earth Observatory of Singapore |
| author_facet |
Earth Observatory of Singapore Watts, A. B. Nomikou, P. Moore, J. D. P. Parks, M. M. Alexandri, M. |
| format |
Article |
| author |
Watts, A. B. Nomikou, P. Moore, J. D. P. Parks, M. M. Alexandri, M. |
| author_sort |
Watts, A. B. |
| title |
Historical bathymetric charts and the evolution of Santorini submarine volcano, Greece |
| title_short |
Historical bathymetric charts and the evolution of Santorini submarine volcano, Greece |
| title_full |
Historical bathymetric charts and the evolution of Santorini submarine volcano, Greece |
| title_fullStr |
Historical bathymetric charts and the evolution of Santorini submarine volcano, Greece |
| title_full_unstemmed |
Historical bathymetric charts and the evolution of Santorini submarine volcano, Greece |
| title_sort |
historical bathymetric charts and the evolution of santorini submarine volcano, greece |
| publishDate |
2017 |
| url |
https://hdl.handle.net/10356/86280 http://hdl.handle.net/10220/43964 |
| _version_ |
1681057465881329664 |