Micro-CT phenotype-genotype association in Platygyra daedelea corals
Data files
Apr 02, 2026 version files 84.82 GB
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Code_Script.tar
34.30 KB
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Micro-CT_Coral_Scans_1.tar.gz
19.57 GB
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Micro-CT_Coral_Scans_2.tar.gz
24.35 GB
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Micro-CT_Coral_Scans_3.tar.gz
19.23 GB
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Micro-CT_Coral_Scans_4.tar.gz
21.67 GB
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Platygyra_daedelea_Micro-CT_Skeletal_Measurements.csv
8.17 KB
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README.md
2.04 KB
Abstract
Environmental factors have long been recognized as the primary drivers of corals' intraspecific morphological variation, as demonstrated in numerous species. However, coral calcification is a process that depends on both environmental and biological factors. Understanding the extent to which genetics contributes to morphological variation in corals remains lacking, particularly in corals like Platygyra daedalea, a species with complex morphological variation that has been found to be neither induced environmentally nor driven by genetic divergence. To address this gap, we conducted a pilot genome-wide association study using single-nucleotide polymorphism and phenotype data of eight skeletal traits, obtained through restriction enzyme site-associated DNA sequencing and micro-computed tomography, respectively. Here, we demonstrate that genetics contributes to the variation of specific Platygyra daedalea skeletal traits, particularly porosity ratio, interseptal distance, and septal thickness. Associated variants were located near genes involved in cell cycle regulation, ciliary function, cytoskeletal rearrangement, and skeletal protein formation. We also found some of these traits to correlate significantly with larger-scale morphological features such as valley width and valley depth, suggesting a potential influence of genetically shaped traits on broader skeletal structure.
Dataset DOI: 10.5061/dryad.9s4mw6mvv
Platygyra_daedelea_Micro-CT_Skeletal_Measurements.csv
A comma-separated file, which includes 8 skeletal traits of 82 Platygyra daedelea coral fragments. The skeletal traits are as follows: valley width (VW), columella width (CW), theca thickness (TT), septal thickness (ST), septal distance (SS), valley depth (VD), porosity ratio (volume_fraction), and septa teeth count. All traits had 10 measurements per coral, which were then averaged per coral, except for the porosity ratio. Additionally, all measurements are in mm, with the exception of the septa teeth count and porosity ratio.
Code_Script.tar
- Analysis of PDAE phenotypes: an R file with a script analyzing the skeletal measurements CSV file using analysis of variance between the coral collection sites groups, and correlation between the skeletal traits.
- Population genetics and association analysis for PDAE: R file with script for plotting PCA results from bash code. Also, a script for population genetics and association analysis using the package LEA.
- Variant_Calling: a shell script for processing fastq files to then call variants, filtering, linkage pruning, and running a PCA.
Micro-CT Scan Files:
Files: Micro-CT_Coral_Scans_1.tar.gz,Micro-CT_Coral_Scans_3.tar.gz, Micro-CT_Coral_Scans_2.tar.gz, and Micro-CT_Coral_Scans_4.tar.gz
The following includes micro-CT scans in 2D TIFF for each coral sample in separate files. There are 82 samples, and each have their respective file. The files were compressed into four groups for ease of use. With each TIFF stack, there is an .info file, which contains metadata written by and for the software Avizo 3D (Thermo Fisher Scientific) to stack the scans into 3D. If another software is used, then the scan's voxel size should be set to 60 um x 60 um x 60 um in the software settings. (Please note the large file size and their need for high computational power to analyze and operate)