Scenario A as described in Hohmann et al. (2024), published in Hohmann et al. (2023). Contains data from a carbonate platform simulated using CarboCAT Lite (Burgess 2013, 2023)
Format
A list with 6 elements:
t_myr: numeric vector. timesteps of the simulation in Myrsl_m: numeric vector. eustatic sea level in mdist_from_shore: character vector. Distance from shore in km of locations at which the observations were made. Available distances are "2km", "4km", "6km", "8km", "10km", "12km".h_m: matrix of size length(t_myr) x length(dist_from_shore). Accumulated sediment height in m at examined locationswd_m: matrix of size length(t_myr) x length(dist_from_shore). Water depth in m at examined locationsstrat_col: list with length(dist_from shore) elements. Represents a stratigraphic column. Each element is a list with two elements:bed_thickness_m: numeric vector. Bed thickness in mfacies_code: integer vector. facies code of the bed
References
Burgess, Peter. 2013. "CarboCAT: A cellular automata model of heterogeneous carbonate strata." Computers & Geosciences. doi:10.1016/j.cageo.2011.08.026 .
Burgess, Peter. 2023. "CarboCATLite v1.0.1." Zenodo. doi:10.5281/zenodo.8402578
Hohmann, Niklas; Koelewijn, Joël R.; Burgess, Peter; Jarochowska, Emilia. 2024. "Identification of the mode of evolution in incomplete carbonate successions." BMC Ecology and Evolution 24, 113. doi:10.1186/s12862-024-02287-2 .
Hohmann, Niklas, Koelewijn, Joël R.; Burgess, Peter; Jarochowska, Emilia. 2023. “Identification of the Mode of Evolution in Incomplete Carbonate Successions - Supporting Data.” Open Science Framework. doi:10.17605/OSF.IO/ZBPWA , published under the CC-BY 4.0 license.