Inferring regional vertical crustal velocities from averaged relative sea level trends: A proof of concept

H. Bâki Iz; C. K. Shum; C. Zhang; C. Y. Kuo

doi:10.1515/jogs-2017-0007

Inferring regional vertical crustal velocities from averaged relative sea level trends: A proof of concept

H. Bâki Iz, C. K. Shum, C. Zhang, C. Y. Kuo

Department of Geomatics

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

This study demonstrates that relative sea level trends calculated from long-term tide gauge records can be used to estimate relative vertical crustal velocities in a region with high accuracy. A comparison of the weighted averages of the relative sea level trends estimated at six tide gauge stations in two clusters along the Eastern coast of United States, in Florida and in Maryland, reveals a statistically significant regional vertical crustal motion of Maryland with respect to Florida with a subsidence rate of -1.15±0.15 mm/yr identified predominantly due to the ongoing glacial isostatic adjustment process. The estimate is a consilience value to validate vertical crustal velocities calculated from GPS time series as well as towards constraining predictive GIA models in these regions.

Original language	English
Pages (from-to)	59-67
Number of pages	9
Journal	Journal of Geodetic Science
Volume	7
Issue number	1
DOIs	https://doi.org/10.1515/jogs-2017-0007
Publication status	Published - 2017 Feb 23

All Science Journal Classification (ASJC) codes

Computers in Earth Sciences
Astronomy and Astrophysics
Applied Mathematics
Geophysics
Earth and Planetary Sciences (miscellaneous)

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10.1515/jogs-2017-0007

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title = "Inferring regional vertical crustal velocities from averaged relative sea level trends: A proof of concept",

abstract = "This study demonstrates that relative sea level trends calculated from long-term tide gauge records can be used to estimate relative vertical crustal velocities in a region with high accuracy. A comparison of the weighted averages of the relative sea level trends estimated at six tide gauge stations in two clusters along the Eastern coast of United States, in Florida and in Maryland, reveals a statistically significant regional vertical crustal motion of Maryland with respect to Florida with a subsidence rate of -1.15±0.15 mm/yr identified predominantly due to the ongoing glacial isostatic adjustment process. The estimate is a consilience value to validate vertical crustal velocities calculated from GPS time series as well as towards constraining predictive GIA models in these regions.",

author = "{B{\^a}ki Iz}, H. and Shum, {C. K.} and C. Zhang and Kuo, {C. Y.}",

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T1 - Inferring regional vertical crustal velocities from averaged relative sea level trends

T2 - A proof of concept

AU - Bâki Iz, H.

AU - Shum, C. K.

AU - Zhang, C.

AU - Kuo, C. Y.

PY - 2017/2/23

Y1 - 2017/2/23

N2 - This study demonstrates that relative sea level trends calculated from long-term tide gauge records can be used to estimate relative vertical crustal velocities in a region with high accuracy. A comparison of the weighted averages of the relative sea level trends estimated at six tide gauge stations in two clusters along the Eastern coast of United States, in Florida and in Maryland, reveals a statistically significant regional vertical crustal motion of Maryland with respect to Florida with a subsidence rate of -1.15±0.15 mm/yr identified predominantly due to the ongoing glacial isostatic adjustment process. The estimate is a consilience value to validate vertical crustal velocities calculated from GPS time series as well as towards constraining predictive GIA models in these regions.

AB - This study demonstrates that relative sea level trends calculated from long-term tide gauge records can be used to estimate relative vertical crustal velocities in a region with high accuracy. A comparison of the weighted averages of the relative sea level trends estimated at six tide gauge stations in two clusters along the Eastern coast of United States, in Florida and in Maryland, reveals a statistically significant regional vertical crustal motion of Maryland with respect to Florida with a subsidence rate of -1.15±0.15 mm/yr identified predominantly due to the ongoing glacial isostatic adjustment process. The estimate is a consilience value to validate vertical crustal velocities calculated from GPS time series as well as towards constraining predictive GIA models in these regions.

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Inferring regional vertical crustal velocities from averaged relative sea level trends: A proof of concept

Abstract

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