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ShellChron

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The ShellChron package contains all formulae and documentation required to run the ShellChron model. The ShellChron model uses stable oxygen isotope records (d18O) from seasonal paleo-archives to create an age model for the archive.

In short, ShellChron feeds a temperature sinusoid (Figure 1; see details in “temperature_curve()” function) and a skewed growth rate sinusoid (Figure 2; see details in “growth_rate_curve()” function) to a d18O model (see details in “d18O_model()” function). The resulting modeled d18O is then compared with the user-provided d18O data and the parameters of the temperature and growth rate functions are optimized using the SCEUA algorithm (see Duan et al., 1992) to match the d18O data. As a result, the timing of each data point with reference to the seasonal cycle is exported, from which an age model for the entire record can be constructed.

Figure 1: Temperature sinusoid Figure 2: Growth rate sinusoid

The model builds on previous work by Judd et al. 2018 and expands on this previous model in several key ways:

  1. ShellChron allows SCEUA optimization to be carried out in a sliding window through the data and recognizes year transitions (see “cumulative_day()” formula) to produce seamless age models through multiple years. Overlapping windows are used to estimate the reproducibility of model results.
  2. ShellChron provides the option to take uncertainties on the input data (“D_err” and “d18Oc_err”) into account in error estimation (see “mc_err_orth()” and "export_results() functions), providing realistic errors on the age estimation which were previously unsupported.
  3. ShellChron supports different empirical formulae for converting temperature and d18O of the precipitation fluid into d18O records, providing compatibility with records consisting of various mineralogies (e.g. calcite and aragonite).
  4. ShellChron offers more dynamic input options for data on the variable that is not modeled (usually d18O of precipitation fluid), circumventing the (often false) assumption that this variable remains constant throughout the year and preventing fixed values for this variable hardcoded in the model.
  5. ShellChron achieves more efficient SCEUA modeling by pre-guessing the parameters of temperature and growth rate sinusoids using a sinusoidal regression (see “sinreg()” formula). This is an essential feature that allows ShellChron to process more optimization windows while retaining competitive processing time (see Figure 3).

Figure 3: Timing of whole model run at various data resolutions

NOTE: To run optimally, ShellChron requires sampling distance data to be provided in micrometers (see “data_import()” function). The optimal structure of the input CSV should be as follows (see description in “Virtual_shell” example):

column 1: D Sampling distance, in micrometers along the virtual record.

column 2: d18Oc stable oxygen isotope value, in permille VPDB.

column 3: YEARMARKER Vector of zeroes with “1” marking year transitions.

column 4: D_err Sampling distance uncertainty, in micrometers.

column 5: d18Oc_err stable oxygen isotope value uncertainty, in permille.

When you use ShellChron, please cite de Winter, 2022:

de Winter, N.J. (2022) “ShellChron 0.4.0: a new tool for constructing chronologies in accretionary carbonate archives from stable oxygen isotope profiles” Geoscientific Model Development 15, 1247-1267, DOI: 10.5194/gmd-15-1247-2022

Installation

You can install the released version of ShellChron from CRAN with:

install.packages("ShellChron")

And the development version from GitHub with:

# install.packages("devtools")
devtools::install_github("nielsjdewinter/ShellChron")

Example

This is a basic example which shows you how to solve a common problem:

library(ShellChron)
## Full model run
# WARNING: Running the full ShellChron model (even on small example data) always takes some time (usually in the order of 30-60 minutes)
# example <- wrap_function(path = getwd(),
#  file_name = system.file("extdata", "Virtual_shell.csv",
#  package = "ShellChron"),
#  "calcite",
#  1,
#  365,
#  d18Ow = 0,
#  t_maxtemp = 182.5,
#  MC = 1000,
#  plot = FALSE,
#  plot_export = FALSE,
#  export_raw = FALSE)"

# Quick demo on how to create an SST curve
# Set parameters
T_amp <- 20
T_per <- 365
T_pha <- 150
T_av <- 15
T_par <- c(T_amp, T_per, T_pha, T_av)
SST <- temperature_curve(T_par, 1, 1) # Run the function

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