Data from: Zooid size reduction in cyclostome bryozoans from the Late Triassic to the present-day
Data files
Oct 07, 2025 version files 364.62 MB
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Berenicea_SEM_jpgs.zip
302 MB
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Code_and_Data.zip
62.61 MB
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README.md
2.99 KB
Abstract
Body size evolution is a focus of palaeobiological interest, but few studies have examined long-term changes in the size of the modular zooids of colonial animals. Here we investigate changes in zooid size from the Late Triassic to the present-day among encrusting cyclostome bryozoans of a common morphotype attributed informally to ‘Berenicea’. We begin with the naïve hypothesis that cyclostome bryozoans should demonstrate size evolution similar to cheilostome bryozoans, which have maintained a constant mean zooid size. Unexpectedly, a striking pattern of decreasing zooid size through time was found in ’Berenicea’. We then hypothesized that decreasing levels of oxygen could make smaller zooid sizes more optimal because of their greater surface area/volume, i.e., cyclostome zooid size might be tracking a changing adaptive landscape over 200 million years. Despite some evidence for a statistical correlation between ‘Berenicea' zooid size and oxygen, there is no hint of any causal relationship between them when formal timeseries analyses tools, based on linear stochastic differential equations, are applied. Furthermore, neither origination rates of cheilostomes, known to be superior spatial competitors, nor assemblage-level increases in cheilostome representation, are associated with ‘Berenicea' zooid size changes. However, there is some support for a switch in the tempo of cyclostome zooid size change at ca 165 to 160 and then again at ca 78 Ma.
https://doi.org/10.5061/dryad.x95x69pvt
Description of the data and file structure
The SEM images provided in Berenicea SEM jpgs zip folder are the bases for the measurements given in the excel file 'Berenicea' zooid width data.xlsx
Files and variables
Folder: Berenicea_SEM_jpgs.zip
Description:
Scanning electron micrographs of Berenicea. The individual file names correspond to the first column (SEM number) in the Excel file 'Berenicea' zooid width data.xlsx
The metadata for each image is available in the column "Metadata" of the Excel file 'Berenicea' zooid width data.xlsx
Folder: Code_and_Data.zip
File: 'Berenicea' zooid width data.xlsx
This is the main data file for the analyses. The following describes the columns in Sheet 1
- SEM number: corresponds to the file names in Berenicea_SEM_jpgs.zip
- stage: geologic stage
- taxon: taxonomic name given to the specimen in the SEM image
- median age: median age of the given stage in millions of years ago
- modern coordinates: modern latitude where the given specimen is collected, where N = north and S = south
- latitude/paleolatitude: paleolatitude converted from modern coordinate, given the stage assigned to the fossil (unconstrained = cannot be reliably converted)
- Zooid width (1 through 5): width of a haphazardly selected zooid with the specimen, with no repeats. microns.
- Metadata: extra information given for the specimen
File:cylcostome ms.R
R code to reproduce analyses in manuscript
File: Mills:etal_2023_AREPS_02.xlsx
oxygen data from Mills et al. 2023 for analyses (read in by the .R file)
The data in this file are downloaded from the published paper:
Mills, B. J. W., Krause, A. J., Jarvis, I. Ana Cramer, B. D. 2023. Evolution of atmospheric O2 through the Phanerozoic, revisited. Annual Review of Earth and Planetary Sciences, 51, 253–276.
archived at https://github.com/bjwmills/AREPS_2023_O2_estimate and figured in Mills et al. 2023 as Figure 6.
The first column "Time" is in millions of years ago, and go forward in time in 1 million-year intervals for the modelled data.The next columns "Mid", "Min", and "Max," are the average, minimum, and maximum values of atmospheric oxygen (% atm), please see Mills et al. 2023 for the estimation.
File: layerdata.RData extra data needed for .R file
This file is from Lidgard et al. 2021 When fossil clades ‘compete': local dominance, global diversification dynamics and causation
When read, it supplies the data required for the analyses from lines 600 onwards in the file cyclostome ms.R. This file has been previously published at https://datadryad.org/dataset/doi:10.5061/dryad.zpc866t6s associated with Lidgard et al. 2021.
Cyclostome form genus fossil 'Berenicea' were collected over different field expeditions. They were cleaned and processed then scanning electron micrographs (SEMs) were taken of these specimens. The images of these specimens were then manually measured. The SEMs are supplied with this dataset, as are the measurements of the specimens from the SEMs.