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Full Description
This open access book presents a multidisciplinary synthesis of research on animal navigation, integrating perspectives from behavior, neuroscience, and ecology to advance understanding of how animals orient and move within their environments.
Successful navigation is essential for survival. How animals move through complex landscapes, cross vast oceans, or traverse barren deserts has long intrigued scientists. For over a century, research has sought to uncover the mechanisms that enable such remarkable feats. The knowledge gained has far-reaching implications—from enhancing mobility and independence in aging populations to shaping the design of advanced navigational technologies.
In the past decade, rapid advances in computational methods have fueled a surge in behavioral and neural data, placing the study of navigation at the forefront of scientific progress. Yet, significant challenges persist. Fragmentation across disciplines and levels of analysis has hindered integration, and the sheer volume of findings makes synthesis difficult.
To confront these challenges, the Ernst Strüngmann Forum brought together experts from diverse fields to integrate research on biological navigation. This volume presents the outcomes of that multidisciplinary exchange, integrating perspectives across behavioral, cellular, circuit, and systems levels, and spanning species, environments, and individual differences. It delineates unifying principles and frameworks to guide future research on navigation across taxa, developmental stages, and descriptive levels, and outlines agendas to advance the field.
Contents
1.Addressing the Challenges of Navigational Research.- 2. Taking a Functional Look at Bird Navigation.- 3. How Roboticists Think about Navigation and Major Unsolved Challenges.- 4. Universal Principles of Navigation across Species and Spatial Scales.- 5. What Are the Contributions of Modeling to Bridging the Gaps between Methods and across Species?.- 6. Do Data from Intracranial Techniques Align (or Not) with What We Have Learned about Human Navigation from fMRI?.- 7. What Do We Know about Navigation Development from the Perspective of Cognitive Neuroscience in Humans?.- 8. How Can Development Inform Us about the Neural Mechanisms of Navigation in Rats?.- 9. Spatial Navigation: From Cells to Behavior.- 10. Planning and Imagination in the Navigational Domain: The Role of the Hippocampus and Prefrontal Cortex.- 11. The Role of Motivation and Emotion in the Hippocampal Navigation System.- 12. The Future of Navigation: Moving Beyond Static Representations to Dynamic Cognitive Maps.- 13. How Does Aging Impact the Structure and Function of Parallel Navigation Circuits Across Mammals?.- 14. How Do Aging and Neurodegenerative Diseases Affect Spatial Navigation at the Behavioral Level?.- 15. Designing Effective Clinical Tools for Measuring Navigation Deficits Associated with Cognitive Impairment: Insights from Human-Computer Interaction Research.- 16. From Fundamental Science to the Clinic (and Back Again): A Translational Framework for Navigation and Aging.
