Sea level rise and the geoid: factor analysis approach

Sea level rise and the geoid: factor analysis approach

Sea levels are rising around the world, and this is a particular concern along most of the coasts of the United States. A 1989 EPA report shows that sea levels rose 5-6 inches more than the global average along the Mid-Atlantic and Gulf Coasts in the last century. The main reason for this is coastal...

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Main Authors: Alexey Sadovski, Hongzhi Song, Gary Jeffress
Format: Article
Language:Spanish
Published: Universidad de Costa Rica 2013-08-01
Series:Revista de Matemática: Teoría y Aplicaciones
Online Access:https://revistas.ucr.ac.cr/index.php/matematica/article/view/11653
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spelling doaj-22a8baaf0ead4bbab0b0be506f6a26b92020-11-24T21:14:24ZspaUniversidad de Costa RicaRevista de Matemática: Teoría y Aplicaciones2215-33732013-08-0120216718210.15517/rmta.v20i2.1165311038Sea level rise and the geoid: factor analysis approachAlexey Sadovski0Hongzhi Song1Gary Jeffress2Texas A& M University, Department of Computing and Mathematical SciencesTexas A& M University-Corpus Christi, Department of Physical & Environmental SciencesTexas A& M University-Corpus Christi, Conrad Blucher Institute for Surveying and Science, School of Engineering and Computing SciencesSea levels are rising around the world, and this is a particular concern along most of the coasts of the United States. A 1989 EPA report shows that sea levels rose 5-6 inches more than the global average along the Mid-Atlantic and Gulf Coasts in the last century. The main reason for this is coastal land subsidence. This sea level rise is considered more as relative sea level rise than global sea level rise. Thus, instead of studying sea level rise globally, this paper describes a statistical approach by using factor analysis of regional sea level rates of change. Unlike physical models and semi-empirical models that attempt to approach how much and how fast sea levels are changing, this methodology allows for a discussion of the factor(s) that statistically affects sea level rates of change, and seeks patterns to explain spatial correlations.https://revistas.ucr.ac.cr/index.php/matematica/article/view/11653
collection DOAJ
language Spanish
format Article
sources DOAJ
author Alexey Sadovski
Hongzhi Song
Gary Jeffress
spellingShingle Alexey Sadovski
Hongzhi Song
Gary Jeffress
Sea level rise and the geoid: factor analysis approach
Revista de Matemática: Teoría y Aplicaciones
author_facet Alexey Sadovski
Hongzhi Song
Gary Jeffress
author_sort Alexey Sadovski
title Sea level rise and the geoid: factor analysis approach
title_short Sea level rise and the geoid: factor analysis approach
title_full Sea level rise and the geoid: factor analysis approach
title_fullStr Sea level rise and the geoid: factor analysis approach
title_full_unstemmed Sea level rise and the geoid: factor analysis approach
title_sort sea level rise and the geoid: factor analysis approach
publisher Universidad de Costa Rica
series Revista de Matemática: Teoría y Aplicaciones
issn 2215-3373
publishDate 2013-08-01
description Sea levels are rising around the world, and this is a particular concern along most of the coasts of the United States. A 1989 EPA report shows that sea levels rose 5-6 inches more than the global average along the Mid-Atlantic and Gulf Coasts in the last century. The main reason for this is coastal land subsidence. This sea level rise is considered more as relative sea level rise than global sea level rise. Thus, instead of studying sea level rise globally, this paper describes a statistical approach by using factor analysis of regional sea level rates of change. Unlike physical models and semi-empirical models that attempt to approach how much and how fast sea levels are changing, this methodology allows for a discussion of the factor(s) that statistically affects sea level rates of change, and seeks patterns to explain spatial correlations.
url https://revistas.ucr.ac.cr/index.php/matematica/article/view/11653
work_keys_str_mv AT alexeysadovski sealevelriseandthegeoidfactoranalysisapproach
AT hongzhisong sealevelriseandthegeoidfactoranalysisapproach
AT garyjeffress sealevelriseandthegeoidfactoranalysisapproach
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