Computational Model Library

Multilevel Group Selection I (2.0.0)

New theoretical agent-based model of population-wide adoption of prosocial common-pool behavior with four parameters (initial percent of adopters, pressure to change behavior, synergy from behavior, and population density); dynamics in behavior, movement, freeriding, and group composition and size; and emergence of multilevel group selection. Theoretical analysis of model’s dynamics identified six regions in model’s parameter space, in which pressure-synergy combinations lead to different outcomes: extinction, persistence, and full adoption. Simulation results verified the theoretical analysis and demonstrated that increases in density reduce number of pressure-synergy combinations leading to population-wide adoption; initial percent of contributors affects underlying behavior and final outcomes, but not size of regions or transition zones between them; and random movement assists adoption of prosocial common-pool behavior.

43858026_File000006_1073165953.jpg

Release Notes

A simplified version that is intended to serve as the base for future variants.

Associated Publications

https://doi.org/10.1080/0022250X.2021.2021513

Multilevel Group Selection I 2.0.0

New theoretical agent-based model of population-wide adoption of prosocial common-pool behavior with four parameters (initial percent of adopters, pressure to change behavior, synergy from behavior, and population density); dynamics in behavior, movement, freeriding, and group composition and size; and emergence of multilevel group selection. Theoretical analysis of model’s dynamics identified six regions in model’s parameter space, in which pressure-synergy combinations lead to different outcomes: extinction, persistence, and full adoption. Simulation results verified the theoretical analysis and demonstrated that increases in density reduce number of pressure-synergy combinations leading to population-wide adoption; initial percent of contributors affects underlying behavior and final outcomes, but not size of regions or transition zones between them; and random movement assists adoption of prosocial common-pool behavior.

Release Notes

A simplified version that is intended to serve as the base for future variants.

Version Submitter First published Last modified Status
2.0.0 Garry Sotnik Sat Jul 3 20:38:55 2021 Thu Dec 5 06:37:42 2024 Published Peer Reviewed DOI: 10.25937/kmmt-hz39
1.6.1 Garry Sotnik Sat Sep 26 01:41:46 2020 Thu Dec 5 06:37:10 2024 Published Peer Reviewed DOI: 10.25937/pn9j-3h90
1.0.1 Garry Sotnik Tue Apr 28 03:46:31 2020 Thu Dec 5 06:36:56 2024 Published Peer Reviewed DOI: 10.25937/fv9r-qv25
1.0.0 Garry Sotnik Tue Apr 21 18:07:27 2020 Wed Apr 22 21:48:58 2020 Published Peer Reviewed DOI: 10.25937/38tr-c992

Discussion

This website uses cookies and Google Analytics to help us track user engagement and improve our site. If you'd like to know more information about what data we collect and why, please see our data privacy policy. If you continue to use this site, you consent to our use of cookies.
Accept