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Efficacy of a radar-activated on-demand system for deterring waterfowl from oil sands tailings ponds

  1. ROBERT A. RONCONI,
  2. COLLEEN CASSADY ST. CLAIR

Article first published online: 20 DEC 2005

DOI: 10.1111/j.1365-2664.2005.01121.x

Issue

Journal of Applied Ecology

Journal of Applied Ecology

Volume 43, Issue 1, pages 111–119, February 2006

Additional Information

How to Cite

RONCONI, R. A. and CASSADY ST. CLAIR, C. (2006), Efficacy of a radar-activated on-demand system for deterring waterfowl from oil sands tailings ponds. Journal of Applied Ecology, 43: 111–119. doi: 10.1111/j.1365-2664.2005.01121.x

Author Information

  1. Department of Biological Sciences, University of Alberta, Edmonton, Canada AB T6G 2E9

* Robert A. Ronconi, Department of Biology, University of Victoria, PO Box 3020, Stn CSC, Victoria, BC, Canada V8W 3 N5 (fax +250 721 7120; e-mail rronconi@uvic.ca).

Publication History

  1. Issue published online: 20 DEC 2005
  2. Article first published online: 20 DEC 2005
  3. Received 3 January 2005; final copy received 15 August 2005 Editor: Paul Giller

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Keywords:

  • deterrent system;
  • hazing;
  • shorebirds;
  • waterfowl;
  • wildlife management

Summary

  • 1
    Oil sands mining is one of several industrial activities that produces effluent that is dangerous to waterfowl. Such industries require effective systems to deter birds, but current deterrents are not always successful, presumably because wildlife ignore or habituate to them.
  • 2
    We tested a new radar-activated on-demand system of deterrence in the oil sands region of Alberta, Canada, by comparing the proportion of birds that landed on a tailings pond while it was activated with the proportion that landed during two other treatments: a continuous, randomly activated, deterrent system, and control periods with no deterrents. We also assessed the efficacy of different stimuli types within the on-demand system.
  • 3
    Across several bird guilds, only the on-demand deterrent system significantly reduced the probability of birds landing in comparison with the control treatment. In addition to treatment effects, birds were more likely to land earlier in the spring and when they flew at lower altitudes, and shorebirds were more likely to land than ducks, geese and gulls.
  • 4
    The comparison of stimuli revealed that cannons elicited significantly more response by birds in flight than mechanized peregrine falcon effigies with speakers broadcasting peregrine sounds.
  • 5
    Synthesis and applications. Our results promote the use of on-demand systems for waterfowl deterrence at tailings ponds and recommend cannons over effigies as stimuli. We suggest that oil sands deterrence efforts should (i) be operational in the early spring, when tailings ponds appear to be most attractive to migrating waterfowl, (ii) target low-flying waterfowl and shorebirds and (iii) be effective during both day and night. These results and recommendations have potential application for problems of bird deterrence at several other industrial sites.
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