Abstract
Multicellular organisms and superorganisms (e.g., ant colonies) are both products of major evolutionary transitions in individuality, and they share many analogous traits. Theory developed to explain the evolution of one such trait, anisogamy, has recently been adapted to explain its superorganismal analogue: large egg-like queens and small sperm-like males. To test this theory with comparative data, we first extended it to incorporate variation in how colonies with multiple queens arise. We then used data from 732 ant species to investigate the effects of colony size, worker caste number, and queen number on queen size (thorax volume) and queen-male dimorphism. Queen size and queen-male size dimorphism both increased with colony size and number of worker castes, consistent with predictions. Contrary to predictions, queen size and queen-male size dimorphism were not associated with queen number. To further understand the commonalities and idiosyncrasies of evolution at different hierarchical levels, future work should consider the adaptive and non-adaptive causes for correlated evolution between queen and male, and egg and sperm sizes.
Full text
2,039 characters
· extracted from
oa-doi-fallback
· click to expand
This is a Preprint and has not been peer reviewed. This is version 1 of this Preprint.
You must log in to post a comment.
There are no comments or no comments have been made public for this article.
This is a Preprint and has not been peer reviewed. This is version 1 of this Preprint.
Add a Comment
You must log in to post a comment.
Comments
There are no comments or no comments have been made public for this article.
Multicellular organisms and superorganisms (e.g., ant colonies) are both products of major evolutionary transitions in individuality, and they share many analogous traits. Theory developed to explain the evolution of one such trait, anisogamy, has recently been adapted to explain its superorganismal analogue: large egg-like queens and small sperm-like males. To test this theory with comparative data, we first extended it to incorporate variation in how colonies with multiple queens arise. We then used data from 732 ant species to investigate the effects of colony size, worker caste number, and queen number on queen size (thorax volume) and queen-male dimorphism. Queen size and queen-male size dimorphism both increased with colony size and number of worker castes, consistent with predictions. Contrary to predictions, queen size and queen-male size dimorphism were not associated with queen number. To further understand the commonalities and idiosyncrasies of evolution at different hierarchical levels, future work should consider the adaptive and non-adaptive causes for correlated evolution between queen and male, and egg and sperm sizes.
https://doi.org/10.32942/X23M2H
Ecology and Evolutionary Biology, Entomology, Evolution, Life Sciences
Eusociality, gamete competition, castes, Polygyny, sexual size dimorphism, mixed model
Published: 2026-02-04 21:05
Last Updated: 2026-02-04 21:05
CC BY Attribution 4.0 International
Data and Code Availability Statement:
Data, code, and supplementary information currently available here: https://github.com/pipdowning/SuperOrganismal_Anisogamy
Language:
English
Text is read by the "Ask this paper" AI Q&A widget below.
Extraction quality varies by source — PMC NXML preserves structure
cleanly, OA-HTML may include some navigation residue, and OA-PDF can
have broken hyphenation. The publisher copy
(via DOI)
is the canonical version.