Quantitative genetics of eggshell colouration

Published Jul 15, 2024 on Dryad. https://doi.org/10.5061/dryad.d7wm37q8s

Data files

Jul 15, 2024 version files 1.77 MB

Pedigree_2019_def.txt

185.12 KB
Quantitative_genetics_egg_coloration_repository.csv

1.58 MB
README.md
2.61 KB

Abstract

Exploring the evolutionary architecture of female sexual traits and their potential evolvability is important to understand their possible role as post-mating sexual signals. Egg colouration has been proposed to be one of these post-mating sexual signals, honestly advertising female quality in birds, especially in blue-green laying species. In this study, we used an animal model in a Bayesian framework to estimate the evolvability of multiple descriptors of blue-green egg colouration and egg size in a wild long-term monitored population of spotless starlings (Sturnus unicolor). Our results show low to moderate heritability (h²= 0.31 – 0.44) for three egg colour descriptors (blue-green chroma, chroma and lightness) and egg size. Using the coefficient of additive genetic variance (CV_A) and the evolvability (I_A) as proxies of evolutionary potential of all components of this trait, we found low values of CV_A for all these variables, suggesting a small evolutionary potential of these phenotypic traits, contrasting to previous results reported in another blue-green egg laying species. Our results indicate a modest raw genetic material of this trait on which sexual selection can act upon and, therefore, a small probability for these traits to respond easily to selection.

https://doi.org/10.5061/dryad.d7wm37q8s

This dataset represents an extensive study on the quantitative genetics of eggshell coloration in Spotless starling (Sturnus unicolor). The study was conducted over 8 years and involved the detailed recording of various attributes related to eggs, nests, and parentage among bird individuals. The primary aim was to analyse the genetic architecture of chromatic and achromatic colour components (blue-green chroma, chroma and lightness) and size (volume) of starling eggs.

The text file contains the pedigree (non-pruned) used in the animal model.

Description of the data and file structure

The dataset is contained in a single CSV file named Quantitative genetics egg coloration_repository.csv. Each row in the file represents an individual egg, capturing a range of variables related to its physical characteristics, parentage, and other relevant factors.

File Structure

CSV File Name: Quantitative genetics egg coloration_repository.csv
Number of Entries: 11,002 rows
Columns: The file contains a single column with multiple attributes separated by semicolons (;).

Columns and Variables

EVENT: Event identifier
Year: Year of data collection
Nest: Nest identifier
Clutch: Clutch number
Lay.order: Order of laying within the clutch
ID.Egg: Egg identifier
animal: Laying female identifier
dam: Mother (dam) of the female identifier
sire: Father (sire) of the female identifier
Pair: Pair identifier
Age: Age of the mother at the time of laying
Age.cat: Categorical age of the mother
Weight: Weight of the egg (in grams)
Wing: Wing length of the mother (in mm)
Tarsus: Tarsus length of the mother (in mm)
Bill: Bill length of the mother (in mm)
Capture.date: Date of capturing the egg (dd/mm/yyyy)
OBS: Observer initials
Length: Length of the egg (in mm)
Width: Width of the egg (in mm)
Volume: Volume of the egg (calculated in cubic mm)
Brightness: Brightness of the egg coloration
Chroma: Chroma (color intensity) of the egg coloration
BGC: Blue-green chroma color of the egg

Definitions and Units

Missing Data Codes: NA denotes missing data.
Units:
- Weight: grams
- Wing, Tarsus, Bill, Length, Width: millimeters
- Volume: cubic millimeters
- Brightness, Chroma: dimensionless units representing color metrics