SEARCH

SEARCH BY CITATION

References

  • Baker, A.J., Pereira, S.L., Haddrath, O.P. & Edge, K.-A. (2006) Multiple gene evidence for expansion of extant penguins out of Antarctica due to global cooling. Proceedings of the Royal Society B: Biological Sciences, 273, 1117.
  • Bannasch, R., Wilson, R. & Culik, B. (1994) Hydrodynamic aspects of design and attachment of a back-mounted device in penguins. Journal of Experimental Biology, 194, 8396.
  • Barron, D.G., Brawn, J.D. & Weatherhead, P.J. (2010) Meta-analysis of transmitter effects on avian behaviour and ecology. Methods in Ecology and Evolution, 1, 180187.
  • Benson, S.R., Eguchi, T., Foley, D.G., Forney, K.A., Bailey, H., Hitipeuw, C. et al. (2011) Large-scale movements and high-use areas of western Pacific leatherback turtles, Dermochelys coriacea. Ecosphere, 2, 127.
  • Bilo, D. & Nachtigall, W. (1980) A simple method to determine drag coefficients in aquatic animals. The Journal of Experimental Biology, 87, 357359.
  • Bowlin, M.S., Henningsson, P., Muijres, F.T., Vleugels, R.H.E., Liechti, F. & Hedenström, A. (2010) The effects of geolocator drag and weight on the flight ranges of small migrants. Methods in Ecology and Evolution, 1, 398402.
  • Burgerhout, E., Manabe, R., Brittijn, S., Aoyama, J., Tsukamoto, K. & Thillart, G.E.J.M. (2011) Dramatic effect of pop-up satellite tags on eel swimming. Naturwissenschaften, 98, 631634.
  • Byrne, R., Fish, J., Doyle, T.K. & Houghton, J.D.R. (2009) Tracking leatherback turtles (Dermochelys coriacea) during consecutive inter-nesting intervals: further support for direct transmitter attachment. Journal of Experimental Marine Biology and Ecology, 377, 6875.
  • Carr, A. (1986) Rips, FADS, and little loggerheads. BioScience, 36, 92100.
  • Casper, R.M. (2009) Guidelines for the instrumentation of wild birds and mammals. Animal Behaviour, 78, 14771483.
  • Cochran, W.W. (1980) Wildlife telemetry. Wildlife Management Techniques Manual (ed. S.D. Schemnitz), pp. 507520. The Wildlife Society, Washington D.C.
  • Cooke, S.J., Hinch, S.G., Wikelski, M., Andrews, R.D., Kuchel, L.J., Wolcott, T.G. & Butler, P.J. (2004) Biotelemetry: a mechanistic approach to ecology. Trends in Ecology & Evolution, 19, 334343.
  • Culik, B.M., Wilson, R.P. & Bannasch, R. (1993) Flipper-bands on penguins: what is the cost of a life-long commitment? Marine Ecology Progress Series., 98, 209214.
  • Fossette, S., Corbel, H., Gaspar, P., Le Maho, Y. & Georges, J.Y. (2008) An alternative technique for the long-term satellite tracking of leatherback turtles. Endangered Species Research, 4, 3341.
  • Godley, B.J., Blumenthal, J.M., Broderick, A.C., Coyne, M.S., Godfrey, M.H., Hawkes, L.A. & Witt, M.J. (2008) Satellite tracking of sea turtles: where have we been and where do we go next? Endangered Species Research, 4, 322.
  • Hanson, M. (2001) An Evaluation of the Relationship Between Small Cetacean Tag Design and Attachment Durations: A Bioengineering Approach. Doctor of Philosophy, University of Washington, Seattle,WA.
  • Hayashi, R. & Tsuji, K. (2008) Spatial distribution of turtle barnacles on the green sea turtle, Chelonia mydas. Ecological Research, 23, 121125.
  • Hays, G.C., Metcalfe, J.D. & Walne, A.W. (2004) The implications of lung-regulated buoyancy control for dive depth and duration. Ecology, 85, 11371145.
  • Hays, G.C. & Scott, R. (2013) Global patterns for upper ceilings on migration distance in sea turtles and comparisons with fish, birds and mammals. Functional Ecology, 27, 748756.
  • Hazekamp, A.A., Mayer, R. & Osinga, N. (2010) Flow simulation along a seal: the impact of an external device. European Journal of Wildlife Research, 56, 131140.
  • Hoerner, S.F. (1965) Fluid-Dynamic Drag: Practical Information on Aerodynamic Drag and Hydrodynamic Resistance. Hoerner Fluid Dynamics, Midland Park, NJ.
  • Hull, C.L. (1997) The effect of carrying devices on breeding royal penguins. Condor, 99, 530534.
  • Jones, T.T., Bostrom, B.L., Carey, M., Imlach, B., Mikkelsen, J., Ostafichuk, P. et al. (2011) Determining transmitter drag and best practice attachment procedures for sea turtle biotelemetry studies. NOAA Technical Memorandum NMFS-SWFSC-480.
  • Jones, T.T., Van Houtan, K.S., Bostrom, B.L., Ostafichuk, P., Mikkelsen, J., Tezcan, E., Carey, M., Imlach, B. & Seminoff, J.A. (2013) Data from: calculating the ecological impacts of animal-borne instruments on aquatic organisms. Dryad Digital Repository, doi:10.5061/dryad.921k0.
  • Logan, P. & Morreale, S.J. (1993) Hydrodynamic drag characteristics of juvenile L. kempii, C. mydas, and C. caretta. Proceedings of the Thirteenth Annual Symposium on Sea Turtle Biology and Conservation (eds B.A. Schroeder & B.E. Witherington). NOAA Technical Memorandum NMFS-SEFSC-341, Jekyll Island, Georgia.
  • Lovvorn, J., Liggins, G.A., Borstad, M.H., Calisal, S.M. & Mikkelsen, J. (2001) Hydrodynamic drag of diving birds: effects of body size, body shape and feathers at steady speeds. Journal of Experimental Biology, 204, 15471557.
  • McMahon, C.R., Hindell, M.A. & Harcourt, R.G. (2012) Publish or perish: why it's important to publicise how, and if, research activities affect animals. Wildlife Research, 39, 375377.
  • Methling, C., Tudorache, C., Skov, P.V. & Steffensen, J.F. (2011) Pop Up Satellite Tags Impair Swimming Performance and Energetics of the European Eel (Anguilla anguilla). PLoS ONE, 6, e20797.
  • Monzón-Argüello, C., Dell'Amico, F., Morinière, P., Marco, A., López-Jurado, L., Hays, G.C., Scott, R., Marsh, R. & Lee, P.L. (2012) Lost at sea: genetic, oceanographic and meteorological evidence for storm-forced dispersal. Journal of The Royal Society Interface, 9, 17251732.
  • Obrecht, H.H. III, Pennycuick, C.J. & Fuller, M.R. (1988) Wind tunnel experiments to assess the effect of back-mounted radio transmitters on bird body drag. Journal of Experimental Biology, 135, 265273.
  • Pavlov, V.V. & Rashad, A.M. (2012) A non-invasive dolphin telemetry tag: computer design and numerical flow simulation. Marine Mammal Science, 28, E16E27.
  • Perrin, W.F., Würsig, B.G. & Thewissen, J. (2009) Encyclopedia of Marine Mammals. Academic Press.
  • Poh, A.C.K., Yuan, C.S., Yamin, A.K.M., Jalaluddin, A.J., Ishak, I.S., Mansor, S., Melaka, U.T.M. & Jaya, H.T. (2008) Effect of surface roughness on drag of loggerhead carapace. Jurnal Mekanikal, 26, 3748.
  • Pritchard, P.C.H. (1997) Evolution, phylogeny and current status. The Biology of Sea Turtles (eds P. Lutz & J. Musick), pp. 128. CRC Press, Boca Raton.
  • Scott, R., Marsh, R. & Hays, G.C. (2012) A little movement orientated to the geomagnetic field makes a big difference in strong flows. Marine biology, 159, 481488.
  • Stelle, L.L., Blake, R.W. & Trites, A.W. (2000) Hydrodynamic drag in Steller sea lions (Eumetopias jubatus). Journal of Experimental Biology, 203, 19151923.
  • Tritton, D.J. (1988) Physical Fluid Dynamics. Oxford, Clarendon Press, Oxford. 536 p., 1.
  • Vogel, S. (1996) Life in Moving Fluids: the Physical Biology of Flow. Princeton University Press, Princeton, NJ.
  • Watson, K.P. & Granger, R.A. (1998) Hydrodynamic effect of a satellite transmitter on a juvenile green turtle (Chelonia mydas). Journal of Experimental Biology, 201, 24972505.
  • Wilson, R.P., Grant, W.S. & Duffy, D.C. (1986) Recording devices on free-ranging marine animals: does measurement affect foraging performance? Ecology, 67, 10911093.
  • Wilson, R.P. & McMahon, C.R. (2006) Measuring devices on wild animals: what constitutes acceptable practice? Frontiers in Ecology and the Environment, 4, 147154.
  • Wilson, R.P., Kreye, J.M., Lucke, K. & Urquhart, H. (2004) Antennae on transmitters on penguins: balancing energy budgets on the high wire. Journal of Experimental Biology, 207, 26492662.