The evolutionary loss of paternal care is associated with shifts in female life history traits
Data files
Dec 10, 2024 version files 46.92 KB
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AdultSizes.csv
10.06 KB
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EggSizes.csv
1.11 KB
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EmbryoDevelopment.csv
26.16 KB
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EmbryoHatch.csv
1.28 KB
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Metab.csv
3.70 KB
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README.md
4.61 KB
Abstract
Parental care can increase the fitness of parents through increased offspring survival but can also reduce reproductive output by limiting time and energy allocated to additional mating opportunities. The evolutionary origin of parental care is often associated with shifts in life history traits (e.g., high investment in few, large offspring, slow offspring growth), but little is known about whether the evolutionary loss of care is associated with reciprocal shifts in the same life history traits. Here, we capitalize on the divergence of parental care between ecotypes of three-spined stickleback (Gasterosteus aculeatus) to test for associations between parental care and life history traits. While males from most stickleback populations provide care, an unusual “white” ecotype has recently lost paternal care. We found support for the hypothesis that the evolutionary loss of paternal care is associated with shifts in female life history traits; relative to females of the ecotype with paternal care, females of the white ecotype that lack paternal care produced clutches with a similar overall mass and a greater number of smaller eggs, despite their smaller body size, suggesting lower per-offspring investment. We did not detect an ecotypic difference in embryonic development rate, metabolic rate or offspring age at hatching, contrary to the ‘safe harbor hypothesis’. These results support the theory that behavioral traits such as parental care co-evolve with other life history traits and highlight opportunities for future study of the underlying causal mechanisms.
README
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Dataset “The evolutionary loss of paternal care is associated with reduced female parental investment ”
*Authors: Colby Behrens (1), Sarah Young (2), Eric Arredondo (1), Anne C. Dalziel (2), Laura K. Weir (2), Alison M. Bell (1,3,4,5)
(1) Department of Evolution, Ecology and Behavior, School of Integrative Biology, University of Illinois at Urbana-Champaign, Urbana, IL, USA
(2) Department of Biology, St. Mary’s University, Halifax, Nova Scotia, Canada
(3) Program in Ecology, Evolution and Conservation, University of Illinois Urbana?Champaign, Urbana, IL, USA\
(4) Carl R. Woese Institute for Genomic Biology, University of Illinois Urbana?Champaign, Urbana, IL, USA
(5) Program in Neuroscience, University of Illinois Urbana Champaign, Urbana, IL, USA
- README contents: -Associated manuscript -Study summary -Software information -Dataset contents
Associated manuscript:
*Title: The evolutionary loss of paternal care is associated with reduced female parental investment
- Authors: as above
Study summary:
This dataset contains data collected from three-spined stickleback (Gasterosteus aculeatus) from two Nova Scotian populations, referred to as “whites” and “commons”. Fish were collected from the wild, bred, and reared in the laboratory. Adult body size, egg and clutch sizes, embryonic development rate, and embryonic metabolic rates were measured and reported here. See associated manuscript for more information.
Software information:
The software R is required to run the analyses performed here. R version 4.0.2 was used in these analyses. The following R packages were loaded: dplyr, lme4, lmerTest, tidyr, ggplot2, gridExtra, EnvStats, cowplot.
Data and File Overview:
The dataset includes five data files in .csv format and a single R script that is used to analyze all of the data files. Individual files and column names are described in detail below.
-File 1: AdultSizes.csv - This file includes data on length and weight of adult fish.
Missing data code: NA
Variables are described below:
*ID: Name of the focal fish
*Population: Population of the fish (common or white)
*Length: Standard length of the fish in mm
*Weight: Weight of the fish in grams
*Rearing: Rearing type of the individual (lab or wild)
*Sex: Sex of the individual (M=male, F=female)
-File 2: EggSizes.csv - This file includes data on the size of the clutch, eggs from a female, as well as her weight before and after dropping the clutch of eggs. Each row represents a female, and the size of 5 eggs were measured for each female, split across 5 columns. Specific columns are described below:
*Female: Name of the focal fish
*Preweight: Weight of the fish before dropping eggs (g)
*Postweight: Weight of the fish after dropping eggs (g)
*F_length: Standard length of the fish (mm)
*Egg number: Number of eggs in the clutch
*Egg 1-Egg 5: Diameter of the egg (mm)
*Average: Average diameter of the five measured eggs from a female
*Female Pop: Population of the female (common or white)
-File 3: EmbryoDevelopment.csv - This file includes data on embryonic development. The developmental stage of each clutch was recorded until all individuals had hatched. Specific columns are described below:
*Date:date of the observation (mm/dd/yyyy)
*Time: time of observation
*Clutch: Name of the clutch of eggs
*Population: Population of the clutch
*Fert_date: date of fertilization (mm/dd/yyyy)
*Fert_time: time the clutch was fertilized
*Age_days: Age of the clutch at time of observation (days)
*Ave_stage: Average stage of the clutch at time of observation
-File 4: EmbryoHatch.csv - This file incudes data on the hatching times of stickleback clutches. The age at first hatching (at least one embryo has hatched) and the age of final hatching (all embryos have hatched) are given. Specific columns are described below:
*Clutch: Name of the clutch
*Population: population of the clutch (common or white)
*Age_first_hatch: Age (days) when at least one embryo has hatched
*Age_final_hatch: Age (days) when all embryos in a clutch have hatched.
-File 5: Metab.csv - This file includes data on metabolic rate of the embryos as measured by oxygen consumption rate.
*ecotype: type of population of the fish (common or white)
*family: name of the clutch. These are abbreviated with the population type ("c" for common or "w" for white) and a number to differentiate each clutch.
*population: specific collection location of the clutch
*mo2: oxygen consumption rate of the egg