Events

KLI Colloquia are invited research talks of about an hour followed by 30 min discussion. The talks are held in English, open to the public, and offered in hybrid format. 

 

Fall-Winter 2025-2026 KLI Colloquium Series

Join Zoom Meeting
https://us02web.zoom.us/j/5881861923?omn=85945744831
Meeting ID: 588 186 1923

 

25 Sept 2025 (Thurs) 3-4:30 PM CET

A Dynamic Canvas Model of Butterfly and Moth Color Patterns

Richard Gawne (Nevada State Museum)

 

14 Oct 2025 (Tues) 3-4:30 PM CET

Vienna, the Laboratory of Modernity

Richard Cockett (The Economist)

 

23 Oct 2025 (Thurs) 3-4:30 PM CET

How Darwinian is Darwinian Enough? The Case of Evolution and the Origins of Life

Ludo Schoenmakers (KLI)

 

6 Nov (Thurs) 3-4:30 PM CET

Common Knowledge Considered as Cause and Effect of Behavioral Modernity

Ronald Planer (University of Wollongong)

 

20 Nov (Thurs) 3-4:30 PM CET

Rates of Evolution, Time Scaling, and the Decoupling of Micro- and Macroevolution

Thomas Hansen (University of Oslo)

 

4 Dec (Thurs) 3-4:30 PM CET

Chance, Necessity, and the Evolution of Evolvability

Cristina Villegas (KLI)

 

8 Jan 2026 (Thurs) 3-4:30 PM CET

Embodied Rationality: Normative and Evolutionary Foundations

Enrico Petracca (KLI)

 

15 Jan 2026 (Thurs) 3-4:30 PM CET

On Experimental Models of Developmental Plasticity and Evolutionary Novelty

Patricia Beldade (Lisbon University)

 

29 Jan 2026 (Thurs) 3-4:30 PM CET

O Theory Where Art Thou? The Changing Role of Theory in Theoretical Biology in the 20th Century and Beyond

Jan Baedke (Ruhr University Bochum)

Event Details

Fred Keijzer
KLI Colloquia
Early Nervous Systems and the Origins of the Animal Sensorimotor Organization
Fred KEIJZER (University of Groningen & KLI)
2014-05-26 17:15 - 2014-05-26 17:15
KLI
Organized by KLI

Topic description:
Nervous systems are standardly thought to operate as input-output devices that transmit information received by sensors, process it in some way, and use the result to regulate effectors. I will argue that the input-output interpretation is primarily fitted to describe relatively complex centralized nervous systems. It does less well as a characterization of the most primitive nervous systems—diffusely connected nerve nets—or as an account of the evolutionary origins of these nerve nets. Evidence and theoretical work from biology suggest that a through-conducting set-up may not a primitive feature of these early nervous systems. As a result, through-conduction—where and to the extent it is an accurate description of some nervous system activity—would be a later evolutionary development. Here, I present a proposal, the Skin Brain Thesis (SBT), which stresses the fundamental coordination problems faced by multicellular animals that first developed movement by muscle contraction. This form of motility required the patterned activation of extended muscle sheets dispersed over the body. The fundamental problem here was not so much to act intelligently, but to act as a single multicellular unit. In this proposal, nervous systems did not evolve initially to provide a more efficient information processing device. Nervous systems arose as a source and coordinator of patterned activity across extensive areas of contractile tissue in a way that was only loosely constrained by sensor activity. While this evolutionary possibility is important in itself, it also offers a way to reinterpret the basic animal sensorimotor organization as a specific form of embodiment that can and should be differentiated from input-output configurations as exemplified by current robots.

 

Biographical note:
Fred Keijzer is Associate Professor and Director of the Graduate School of Philosophy at the University of Groningen, and currently a Visiting Fellow at the KLI. He studied psychology and philosophy at Utrecht University, and received his PhD from Leiden University. His research is within cognitive science, in particular on embodied and biological issues, and with a main focus on minimal forms of cognition and the accompanying conceptual issues. He published, among other things, on representational explanations of behavior, behaviorism, and minimal cognition in bacteria and plants.