The Decentralized Self
The human brain is the seat of human agency, and yet this agency is caused by cellular agents unaware of our larger human goals.
The Decentralized Self Read More »
The human brain is the seat of human agency, and yet this agency is caused by cellular agents unaware of our larger human goals.
The Decentralized Self Read More »
This model lets us explore how the appearance of certain social behaviors can affect evolutionary population dynamics.
NetLogo: Evolution of resource use and social behavior (monitoring and punishment) Read More »
In this lesson, students analyze a select real-world social-ecological system by looking at factors of the resource(s) and ecosystem, resource user behaviors, and governance, to develop recommendations for improving the sustainable management of the resource.
Analyzing social-ecological systems Read More »
Our interdisciplinary teacher’s guide outlines our educational design concept. It provides introductory readings around core concepts of human sciences and ideas for exploring them in the classroom.
A Teacher’s Guide to Evolution, Behavior, and Sustainability Science Read More »
Tinbergen’s Questions can help organize complex causality of behaviors and other phenomena across time.
Tinbergen’s Questions Read More »
What can we learn from computer models about human evolution, behavior, and sustainability? Computer models allow us to observe and investigate the influence of environmental conditions and behaviors on the evolutionary development of social-ecological systems.
Students compare the stories of three Mexican fishing villages to understand the factors that enabled some villages to sustainably manage their fishing resources, while others failed.
Three Mexican fisheries Read More »
This model introduces the concept of resource use efficiency into the evolution of resource use behavior.
NetLogo: Evolution of resource use with harvest efficiency Read More »
This NetLogo model lets students explore how competition for resources can affect the evolution of a population and can result in resource overuse. This model is similar to the Evolution and competition for forest resources model, but more abstract.
NetLogo Model: Evolution and competition for resources (abstract) Read More »