High-Flying Geese take low profile over Himalayas
Bar-headed geese are star fliers of the bird world. As well as being striking looking creatures, they have become famous for making incredible annual migrations over the world鈥檚 highest mountain peaks, the Himalayas. This spectacular migration seems even more arduous when you consider that oxygen levels at such high altitudes plummet to less than half their value at sea-level and temperatures are far below freezing. Humans that scale the world鈥檚 highest mountains without oxygen can usually only take a few steps at a time before needing to recover, while the bar-headed goose was famed to fly on past, honking as it went.
鈥淚t all didn鈥檛 quite add up though鈥 said Dr Charles Bishop, of the , who is the principal investigator of research into the birds鈥 migration. 鈥淏ird flight uses huge quantities of oxygen and would need even more at the top of the Himalayas than at sea-level, but much less is available at such high altitudes. Why not just follow the valleys that skirt around the highest peaks?鈥 Indeed this 鈥榩aradox鈥 has troubled biologists for more than 30 years.
A study published this week (31 October 2012) in has tackled this long-standing problem using state of the art satellite tracking technology. Scientists from 香港六合彩挂牌资料 and an international team of collaborators recorded highly accurate GPS (Global Positioning System) locations from 42 individual geese as they migrated. 鈥淲e know that in general, animals don鈥檛 expend any more energy than they have to鈥 said Dr Lucy Hawkes, the lead author of the study 鈥渟o we would predict that geese should choose to fly as low as possible over the Tibetan Plateau and should make use of any tailwinds in the area for a little boost of speed鈥. And that鈥檚 almost exactly what the study authors found. The geese chose to fly relatively close to the undulating terrain but they generally got on with it regardless of what the wind was doing.
While this means that extremely high altitude flight in this species may be rarer than previously thought, these large birds regularly fly between 4,500m and 5,500 metres above sea level, with maximum recorded heights of 6,540m and 7,290m, an incredible feat that still marks it out as one of the wonders of the natural world.
This work was carried out with funding support from the Biotechnology and Biological Sciences Research Council and the Max Planck Institute for Ornithology. The project is partnered with Birmingham University, the Bombay Natural History Society, the Chinese Academy of Sciences, the Mongolian Academy of Sciences, McMaster University, the Qinghai Lake Nature Reserve, the United Nations Food and Agriculture Program, the United States Geological Survey, the University of British Columbia, the University of Tasmania and the University of Exeter, UK.
Publication date: 31 October 2012