Mathematical biologist Dr. Jamie Wood wanted to know how birds collectively negotiate man-made obstacles such as wind turbines which lie in their flight paths and that led to a research project with colleagues in the Departments of Biology and Mathematics at York and scientists at the Animal and Plant Health Agency which found that the social structure of groups of migratory birds may have a significant effect on their vulnerability to avoid collisions with obstacles, particularly wind turbines.
The researchers created a range of computer simulations to explore if social hierarchies are beneficial to navigation, and how collision risk is affected by environmental conditions and the birds’ desire to maintain an efficient direct flight path.
Lead author Wood, said, “We wanted to understand how different social behaviour of different species would affect the ability to avoid obstacles, such as wind turbines and farms, and how much disruption these obstacles cause to the group structure.”
Co-author Dr Jon Pitchford added, “We all know that birds naturally migrate in groups. It is less clear whether this is caused by leaders and followers, or by simple democratic rules. Our simulations show that social structure makes an important difference, and that groups with a single well-informed leader are more likely to avoid collisions with wind farms.”
Citation:Simon Croft, Richard Budgey, Jonathan W. Pitchford, A. Jamie Wood Obstacle avoidance in social groups: new insights from asynchronous models, Interface DOI: 10.1098/rsif.2015.0178 Published 1 April 2015
The Math Of Social Structure: How Birds Avoid A Collision Course
Comments