INVESTIGADORES
GOMEZ LAICH Agustina Marta
artículos
Título:
Bouyed up and slowed down: speed limits for diving birds in shallow water
Autor/es:
SHEPARD, E.L.C.; WILSON, R.P.; GÓMEZ LAICH, A.; QUINTANA, F.
Revista:
AQUATIC BIOLOGY
Editorial:
INTER-RESEARCH
Referencias:
Año: 2010 vol. 8 p. 259 - 267
ISSN:
1864-7790
Resumen:
In air-breathing animals, the time and energy costs of each dive are primarily determinedby depth-related upthrust, swim speed and temperature. While studies have previouslyinvestigated how animals should optimise their behaviour in relation to either upthrust or speedthey have rarely been examined in tandem. We took overall dynamic body acceleration (ODBA)as a proxy for the mechanical power used during the bottom phases of dives of imperial shagsPhalacrocorax atriceps, as these birds forage benthically, in order to define: (1) the minimumpower required for swimming at depth and (2) how the use of power above this threshold variedwith dive depth. Results showed that ODBA declined with increasing dive depth in a manner correlated with the reduction in upthrust, and that the use of power above that required for preysearching increased with increasing dive depth. This may constitute a response to depth-relatedpatterns in prey availability. We present a model to investigate an alternative hypothesis that theability of birds to produce burst speeds is also inversely related to the power required to counterbuoyancy. Under the model assumptions, achievable burst speeds vary up to 0.7 m s–1 across dive depths from 5 to 60 m. Ultimately, prey preferences cannot be separated from prey fields, but we suggest that this model may provide insight into the ability of air-breathing divers to pursue various prey types according to dive depth.