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Code for selected models from 'Statistical modeling of rates and trends in Holocene relative sea level' in Quaternary Science Reviews.

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AsheEtAl2019

This repository contains the MATLAB code base for select models from [Ashe et al. 2019]: 'Statistical modeling of rates and trends in Holocene relative sea level'

Ashe et al. (2019) is published in Quaternary Science Reviews.

DOI

Project abstract:

Characterizing the spatio-temporal variability of relative sea level (RSL) and estimating local, regional, and global RSL trends requires statistical analysis of RSL data. Formal statistical treatments, needed to account for the spatially and temporally sparse distribution of data and for geochronological and elevational uncertainties, have advanced considerably over the last decade. Time-series models have adopted more flexible and physically-informed specifications with more rigorous quantification of uncertainties. Spatio-temporal models have evolved from simple regional averaging to frameworks that more richly represent the correlation structure of RSL across space and time. More complex statistical approaches enable rigorous quantification of spatial and temporal variability, the combination of geographically disparate data, and the separation of the RSL field into various components associated with different driving processes.We review the range of statistical modeling and analysis choices used in the literature, reformulating them for ease of comparison in a common hierarchical statistical framework. The hierarchical framework separates each model into different levels, clearly partitioning measurement and inferential uncertainty from process variability. Placing models in a hierarchical framework enables us to highlight both the similarities and differences among modeling and analysis choices. We illustrate the implications of some modeling and analysis choices currently used in the literature by comparing the results of their application to common datasets within a hierarchical framework. In light of the complex patterns of spatial and temporal variability exhibited by RSL, we recommend non-parametric approaches for modeling temporal and spatio-temporal RSL.

If you have any questions, comments, or feedback on this work or code, please contact Erica

Dependencies

All dependencies can be found in MFILES, and all data files needed to run this code are found in IFILES.

File Descriptions

There are three main files:

  1. runET_GP_CC.m This code analyzes the continuous core data from either Northern North Carolina ('NNC_CC.csv') or New Jersey (NJ_CC.csv') with the Empirical Temporal Gaussian Process model described in sections 3.2.3, 4.3, and 5.1.
  2. runESTGP_AtlUS.m This code analyzes proxy data from the Atlantic Coast of the U.S. in the file 'US_Atlantic_Coast_for_ESTGP.csv' with the Empirical Spatio-Temporal Gaussian Process model described in sections 3.3.1, 4.3, and 5.2.
  3. runESTGP_TG.m This code analyses tide gauges along the Atlantic Coast of the U.S. These tide guages must be downloaded from https://www.psmsl.org/data/obtaining/complete.php. In this analysis we used annual RSL averages. Unzip the rlr_annual file in the IFILES directory to run this code on it.

After running the chosen model, the results can be found within a folder where you are running (or have specified within) the code.

Authors

Contributors

  • Erica Ashe, PhD - Co-author, Bayesian Statistics - GitHub

Co-authors

  • Niamh Cahill
  • Nicole S. Khan
  • Carling Hay
  • Andrew Kemp
  • Simon E. Engelhart
  • Benjamin P. Horton
  • Andrew C, Parnell
  • Robert E. Kopp

Copyright (C) 2018 by Erica L. Ashe This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. A copy of the GNU General Public License comes with this program. If not, see http://www.gnu.org/licenses/.

Acknowledgments

This work was supported by National Science Foundation grants OCE-1458904 (ELA, REK, and BPH), OCE-1458903 (SEE), OCE- 1458921 (ACK), OCE-1702587 (ELA and REK), Singapore Ministry of Education Academic Research Fund Tier 2 MOE218-T2-1-030, the National Research Foundation of Singapore, and the Singapore Ministry of Education under the Research Centres of Excellence initiative (NSK and BPH), Science Foundation Ireland Career Development Award grant number 17/CDA/4695 (ACP), and is a contribution to IGCP Project 639, INQUA Project CMP1601P “HOLSEA” and PALSEA3.

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Code for selected models from 'Statistical modeling of rates and trends in Holocene relative sea level' in Quaternary Science Reviews.

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