Correlation between body size and longevity: new analysis and data covering six taxonomic classes of vertebrates
Data files
May 03, 2023 version files 559.79 KB
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code_analyses_figures.R
13.25 KB
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final_data.txt
514.32 KB
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final_intercept_slope_original.txt
29.09 KB
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README.md
3.13 KB
Nov 13, 2023 version files 559.78 KB
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code_analyses_figures.R
13.25 KB
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final_data.txt
514.32 KB
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final_intercept_slope_original.txt
29.09 KB
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README.md
3.12 KB
Abstract
Large-bodied species are known to live longer than small-bodied species. However, it is less clear whether the positive correlation varies across taxa. In this short communication, we combine data entries from literature and databases on body mass and maximum life span for 3722 species covering taxonomic Classes Chondrichthyes, Teleostei, Amphibia, Reptilia, Aves, and Mammalia. We then analyze the log(maximum life span) – log(body mass) relationship using generalized linear model with nested random intercepts and slopes for Class/Order/Family. Our analyses generally demonstrate the positive longevity – body mass relationship but also reveal that slopes and intercepts differ slightly among all Classes except Reptilia and Amphibia. The highest slopes can be found in Classes Aves and Chondrichthyes. Differences between the smallest and largest Family-level slopes were more than threefold. While these preliminary analyses provide a brief overview of body size – longevity relationships across taxa, the dataset collated in the present study could serve as a starting point for in-depth phylogenetic analyses to uncover complex pathways through which body size and its correlates might have evolved.
Correlation between body size and longevity: new analysis and data covering six taxonomic classes of vertebrates
This dataset combines data entries from literature and databases on body mass and maximum life span for 3722 species covering taxonomic Classes
Chondrichthyes, Teleostei, Amphibia, Reptilia, Aves, and Mammalia.
We analyze the log(maximum life span) – log(body mass) relationship using generalized linear model with nested random intercepts and slopes
for Class/Order/Family. The analyses generally demonstrate the positive longevity – body mass relationship but also reveal that slopes and
intercepts differ slightly among almost all Classes.
Description of data and file structure
Raw data on body masses and longevities for 6 Classes, 99 Order and 420 Family: data_final.txt
Columns:
- Phylum: Taxonomic phylum of the species
- Class: Taxonomic class of the species
- Order: Taxonomic order of the species
- Family: Taxonomic family of the species
- Genus: Taxonomic genus of the species
- Species: species Latin name
- Common Name: species common name
- AdultMass: aduld body mass in g
- MaxLife: maximum life span in yr
- LMaxLife: natural log of AdultMass
- LAdultMass: natural log of MaxLife
Intercepts and slopes for the body size - longevity relationship for 420 families derived from the above described analyses: final_intercept_slope_original.txt
Columns:
- Family: Taxonomic family of the species
- Order: Taxonomic order of the species
- Class: Taxonomic class of the species
- Intercept: intercept of the log(maximum life span) – log(body mass) regression
- Slope: slope of the log(maximum life span) – log(body mass) regression
Sharing/Access information
Maximum lifespan and body mass data were extracted from the AnAge vertebrate database (de Magalhães & Costa, 2009),
with additional mass entries supplemented from Mull et al. (2019), from the Fish Base (Froese & Pauly, 2022),
Amniote (Myrhvold et al., 2015), and AmphiBio (Oliviera et al., 2017) databases, respectively.
References
- Froese, R. and Pauly, D., Eds. 2022. FishBase. World Wide Web electronic publication. www.fishbase.org
- de Magalhães, J. and Costa, J. 2009. AnAge: A database of vertebrate longevity records and their relation to other life-history traits. J. Evol. Biol. 22(8):1770-1774. doi: 10.1111/j.1420-9101.2009.01783.x.
- Mull, C., Yopak, K. and Dulvy, N. 2019. Maternal Investment, Ecological Lifestyle and Brain Evolution in Sharks and Rays. The Am. Nat. 195(6):1056-1069. doi: 10.1086/708531.
- Myrhvold, N., Baldridge, E., Chan, B., Sivam, D., Freeman, D. and Ernest, S. 2015. An amniote life-history database to perform comparative analyses with birds, mammals, and reptiles. Ecology. 96(11): 3109. https://doi.org/10.1890/15-0846R.1
- Oliviera, B., São-Pedro, V., Santos-Barrera, G., Penone, C. and Costa, G. 2017. AmphiBIO, a global database for amphibian ecological traits. Sci. Data. 4:170123. https://doi.org/10.1038/sdata.2017.123
Code/Software
R (version 4.1.2) codes for the analyses and figures in the associated article: code_analyses_figures.R
Raw data on body masses and longevities for 6 Classes, 99 Order and 420 Family: data_final.txt
intercepts and slopes for the body size - longevity relationship for 420 families: final_intercept_slope_original.txt
R codes for the analyses and figures: code_analyses_figures.R