How do Birds Find Their Way?

1. How do Birds Find Their Way? What we learned in the last 20 years

2. Introduction • Given the power of flight, birds are highly mobile. • Some species migrate and travel great distances. • Arctic Tern - 12,000 mile journey. • Manx Shearwater – Boston to Wales

3. Previous Studies • Matthew’s Sun-Arc Theory • Birds look at the movement of the sun and compares angles and the noon azimuth to extrapolate latitude and longitude coordinates. • Kramer’s Map and Compass Hypothesis • Birds establish a “Map” (direction to the goal) with the help of an external reference, a compass.

4. Current Studies • Landmarks • Stars • Ultraviolet Light • Infrasounds • Sun • Magnetic Fields • Olfaction

5. Landmarks • Pigeons tested using frosted contact lenses. • There is some indication that birds use landmarks, at least sometimes. • Not effective at night.

6. Stars • Many birds migrate at night. • “Cluster N” – Mouritsen et al. 2005 • Indigo Buntings seem to use the northern sky within about 35 degrees of the north star. • Problematic in cloudy conditions and in Southern hemisphere.

7. Ultraviolet Light • Study by Parrish et al. demonstrated birds can detect ultraviolet light. • Effective even during cloudy days. • Not readily studied.

8. Infrasounds • Low Frequency Sounds (<10 Hz) • Generated by wind, ocean waves, storms, mechanical devices, etc. • Conditioned Cardiac Response • Pigeons hear less than 2 Hz. • Not readily studied

9. Sun • Sun acts as a compass (angles of light/shadow) • Birds possess internal circadian clock. • On cloudy days, Blue-winged Teal would circle until they got above the clouds at which time they started to move in the appropriate direction.

10. Magnetic Field • Birds have magnetodetection senses (Mouritsen and Ritz 2005). • Birds have magnetite near the beak. • Cryptochromes in the eyes. • Exact mechanism still unclear. • Possible problems

11. Smells • Intact sense of smell is necessary for goal-oriented homing of pigeons. • Olfactory-based mechanism linked to piriform cortex. • Trace gases/ratio of hydrocarbons at the home site distributed via winds may serve as a navigational cue (Wallraff 2005)

12. Which one(s) do they actually use? •   Most early studies on navigation tried to explain it by one mechanism. • Orientation and navigation may be due to a variety of cues • Path determined primarily by the sun. The magnetic field assists as a guide (Wikelski et al. 2004)

13. Does this apply to all birds? • Wikelski seems to think so. • “It's such a simple and elegant mechanism that I would say it is widespread.” • Species vary in their navigational ability. • i.e. Pigeons. • Studies largely consist of a few species and are lab oriented.

14. Conclusion • Despite all the theories and experiments dealing with navigation, there is much that is still not understood about how birds determine their position in relation to a fixed goal.

15. Future Research • Is the sun used to calibrate the magnetic compass? – Cochran et al. 2004 • Extend analyses beyond homing pigeons and laboratory analyses. • See how findings compare with other species (Salmon, Turtles, Sharks, etc).

16. Questions?