Descripción del proyecto
La primera tecnología del mundo que ayuda a traer una nueva era de ecología sensorial
Los animales biosonares, como los murciélagos, emiten sonidos ultrasónicos a su entorno y las señales de retorno les ayudan a comprenderlo y moverse por él. Según los estudios, los murciélagos tienen un amplio conocimiento de sus capacidades de ecolocalización. Sin embargo, se carece de información sobre cómo los utilizan en los ecosistemas naturales. El proyecto financiado con fondos europeos BATVIEW ofrecerá una tecnología revolucionaria para estudiar la ecolocalización de ejemplares de murciélago que capturan presas empleando sus alas en la naturaleza. La labor del proyecto arrojará luz sobre la ecología sensorial y de búsqueda de alimentos en una especie modelo del principio August-Krogh: el murciélago de labios con flecos. Se esclarecerá cómo el flujo de información sensorial controla las transiciones conductuales en la naturaleza.
Objetivo
The knowledge of sensory systems is of central importance for our understanding of life. The brain commands the behaviour, but it banks on sensory input to do so. Biosonar is a particularly enticing sensory system to study. A seemingly exotic sense, it is in fact the main sensory modality of one in five mammalian species and it bears the big advantage that we can tap directly into the sensory stream. The echolocator only receives information when it emits sound, exerting full control over the information flow while allowing us to eavesdrop. From lab studies with bats, we thus have profuse knowledge of their striking biosonar capabilities, but paradoxically very little knowledge about how bats use these capabilities to play ecologically and economically critical roles in a large suite of ecosystems in the wild, under conditions for which they evolved. BATVIEW will utilize a unique, world-first solution to the problem of how to study echolocation of individual bats catching prey on the wing in the wild. BATVIEWs host lab has very recently developed a 2.6g ultrasound-recording and inertial-sensing tag for free-flying bats. Along with logging detailed information on flight and capture behaviour, the tag records not only the bat?s outgoing calls but also the weak returning echoes for an entire night of foraging. With such high-quality quantitative data in the form of echograms and synchronised accelerometer readings, I will answer fundamental questions of sensory and foraging ecology in an August-Krogh species, the fringe-lipped bat. In accomplishing BATVIEW?s objectives, I will (A) gain a clear and reliable assessment of the percept that biosonar provides, in order to determine (B) how the percept changes dependent on (C) different ambient conditions and (D) different behavioural contexts. BATVIEW will offer an unprecedented understanding of how sensory information flow governs behavioural transitions in the wild and pave the way into a new era of sensory ecology.
Ámbito científico
Programa(s)
Régimen de financiación
MSCA-IF-EF-ST - Standard EFCoordinador
8000 Aarhus C
Dinamarca