BTO: Building Higher Wind Turbines Reduces Number of Bird Collisions

Building offshore turbines higher above the sea surface, or installing fewer large turbines instead of several smaller turbines, could reduce the number of bird collisions, a new research has shown. 

The research, led by researchers at the British Trust for Ornithology (BTO), examined the importance of flight heights in determining the risk posed to seabirds from collision with offshore wind turbines. The results presented in this study show that if turbines are located higher above the sea surface, more birds will naturally fly underneath the turbine blades. The authors also suggest that seabird collision risk could be reduced by installing fewer but larger turbines, which produce the same energy output as a greater number of smaller turbines.

Innovative statistical techniques were used to combine data from over 30 sites and a detailed description of the proportion of birds that fly at different altitudes were produced for each species. Results show that many species, including Puffins and Arctic Terns, spend most of their time within 5 m of the sea surface, while gulls flew more regularly at 20 m above the sea surface.

These findings are particularly critical, in the light of the high number of offshore wind farms which are currently proposed in UK waters. Estimates of the proportion of birds flying at different heights are fed into an assessment of the potential impact on wildlife for each wind farm, and can influence the likelihood that proposed renewable developments will go ahead.

Dr Alison Johnston who led the work said: “These results demonstrate that turbines need not always be in conflict with wildlife. With careful planning of turbine design, offshore wind farms can be installed which minimise the impacts on bird populations. Solutions as simple as building turbines higher above the sea surface can reduce the number of birds colliding with the structures.”

[mappress]

Press release, November 11, 2013