3-year PhD studentship available in Lyon/St Etienne (France) about auditory perception of crocodiles. (Nicolas Grimault )


Subject: 3-year PhD studentship available in Lyon/St Etienne (France) about auditory perception of crocodiles.
From:    Nicolas Grimault  <nicolas.grimault@xxxxxxxx>
Date:    Wed, 27 Apr 2016 10:00:50 +0200
List-Archive:<http://lists.mcgill.ca/scripts/wa.exe?LIST=AUDITORY>

--------------010009060308050709010809 Content-Type: text/plain; charset="utf-8"; format=flowed Content-Transfer-Encoding: quoted-printable X-MIME-Autoconverted: from 8bit to quoted-printable by edgeum1.it.mcgill.ca id u3R810ph028394 PhD studentship available: *Between air and water: the acoustic world of=20 crocodiles.* Based at CRNL UMR 5292 Lyon and at ENES UMR 9197 St-Etienne (France) See details here: http://celya.universite-lyon.fr/offres-d-emploi/proposition-de-these-entre-= air-et-eau-le-monde-acoustique-des-crocodiles--306245.kjsp?RH=3D13076031754= 72 and here: http://celya.universite-lyon.fr/servlet/com.univ.collaboratif.utils.Lecture= Fichiergw?ID_FICHIER=3D1251709165797 *Granted by Celya* *DEADLINE FOR APPLICATIONS: Friday 15th July 2016 to START next October. * *Please send application letter and CV to nicolas.grimault@xxxxxxxx and=20 mathevon@xxxxxxxx * *Summary: * As top predators, crocodilians are very well equipped to=20 probe their environment: excellent vision at least in air, highly=20 developed smell, extraordinary abilities of mechano-reception, and an=20 acute sense of hearing in both air and water. These sensory abilities=20 are also impressively useful during their social life: individuals=20 interact visually, chemically and acoustically. Adults use acoustic=20 communication during mating and territorial defense. Sounds thus play an=20 important role in crocodilian life, both because the acoustic sensory=20 channel is used to detect prey and because vocal signaling mediates=20 social interactions in juvenile and adult lives. Crocodiles are amphibious animals that go back and forth between air and=20 water. Hence, their acoustic world is shared between these two mediums=20 that strongly differ by their physical properties. Although the number=20 of studies on crocodilian acoustic communication and hearing has=20 recently increased, most experiments and observations have focused on=20 crocodilian aerial hearing abilities and our knowledge about their=20 underwater acoustic world remains scant. How crocodiles localize sounds in both air and water appears to be a=20 central question. Previous studies have brought evidence for directional=20 hearing in crocodiles, suggesting the existence of specialized=20 adaptations. For instance, anatomical data show the presence of air=20 space in the skull providing connections between the ears resulting in a=20 pressure difference receiver. Experiments and observations suggest that=20 this may improve directional hearing but it remains unclear how this=20 anatomical particularity influences the cues that are classically used=20 by other animals and humans for sound localization (ITD, ILD and the=20 monaural cues in the HRTF). Finally, although theoretical considerations=20 predict that locating a source of water-borne sound should be even more=20 difficult than in the air, two pilot studies demonstrated that=20 crocodilians seem able to localize an underwater sound source. The few=20 experimental studies available in crocodilians thus appeals for further=20 research. The aim of the PhD project will be to investigate how crocodiles=20 navigate in their amphibious acoustic world. Using ethological=20 experiments coupled to physical measurements aimed to characterize the=20 acoustic cues available for sound location, we will mainly focus on the=20 crocodiles=E2=80=99 ability to localize and discriminate between sound sour= ces,=20 two important aspects of the auditory scene analysis. *Outcome of the project: *There is currently a great interest in=20 understanding the evolution of the archosaurian lineage. Crocodilians=20 diverged from birds more than 240 million years ago and they are of=20 primary interest in the reconstruction of ancestral archosaurian=20 biology. In this perspective, increasing our knowledge about crocodilian=20 biology is a necessary step. More broadly, the research performed during=20 this PhD project will bring new knowledge about auditory scene analysis,=20 a universal problem faced by all animal species living in complex=20 environments. *Logistics.* Experiments on captive individuals will be performed at the=20 ENES lab (Saint-Etienne) and in various zoos (e.g. La Ferme aux=20 Crocodiles, Pierrelatte). Field experiments will probably be performed=20 in Brazil (Pantanal). The focal species will mainly be the Nile=20 crocodile and the spectacled caiman. *Supervision.* Nicolas Grimault (CNRL CNRS UMR 5292) and Nicolas=20 Mathevon (Universit=C3=A9 de Saint-Etienne, ENES/Neuro-PSI CNRS UMR 9197). --------------010009060308050709010809 Content-Type: text/html; charset="utf-8" Content-Transfer-Encoding: quoted-printable X-MIME-Autoconverted: from 8bit to quoted-printable by edgeum1.it.mcgill.ca id u3R810ph028394 <html> <head> <meta http-equiv=3D"Content-Type" content=3D"text/html; charset=3Dutf-8= "> </head> <body text=3D"#000000" bgcolor=3D"#FFFFFF"> <p>PhD studentship available: <b>Between air and water: the acoustic world of crocodiles.</b><br> <br> Based at CRNL UMR 5292 Lyon and at ENES UMR 9197 St-Etienne (France)<br> </p> <p>See details here:<br> </p> <p><!-- <a class=3D"moz-txt-link-freetext" href=3D"http://www.ucl.ac.uk/pals/research/shaps"> -->http://celya.= universite-lyon.fr/offres-d-emploi/proposition-de-these-entre-air-et-eau-le= -monde-acoustique-des-crocodiles--306245.kjsp?RH=3D1307603175472<!-- </a> -= -><br> </p> <p>and here:<br> </p> <p><a class=3D"moz-txt-link-freetext" href=3D"http://celya.universite-lyon.fr/servlet/com.univ.collaboratif.utils= .LectureFichiergw?ID_FICHIER=3D1251709165797">http://celya.universite-lyon.= fr/servlet/com.univ.collaboratif.utils.LectureFichiergw?ID_FICHIER=3D125170= 9165797</a><br> </p> <p><b>Granted by Celya</b></p> <p> <b>DEADLINE FOR APPLICATIONS: Friday 15th July 2016 to START next October.<br> </b></p> <p><b>Please send application letter and CV to <a class=3D"moz-txt-link= -abbreviated" href=3D"mailto:nicolas.grimault@xxxxxxxx">nicolas.grimault@xxxxxxxx= s.fr</a></a> and <a class=3D"moz-txt-link-abbreviated" href=3D"mailto:mathevon@xxxxxxxx">mathevon@xxxxxxxx= nne.fr</a><br> </b></p> <b>Summary:=C2=A0</b> As top predators, crocodilians are very well equipped to probe their environment: excellent vision at least in air, highly developed smell, extraordinary abilities of mechano-reception, and an acute sense of hearing in both air and water. These sensory abilities are also impressively useful during their social life: individuals interact visually, chemically and acoustically. Adults use acoustic communication during mating and territorial defense. Sounds thus play an important role in crocodilian life, both because the acoustic sensory channel is used to detect prey and because vocal signaling mediates social interactions in juvenile and adult lives. <br> Crocodiles are amphibious animals that go back and forth between air and water. Hence, their acoustic world is shared between these two mediums that strongly differ by their physical properties. Although the number of studies on crocodilian acoustic communication and hearing has recently increased, most experiments and observations have focused on crocodilian aerial hearing abilities and our knowledge about their underwater acoustic world remains scant.<br> How crocodiles localize sounds in both air and water appears to be a central question. Previous studies have brought evidence for directional hearing in crocodiles, suggesting the existence of specialized adaptations. For instance, anatomical data show the presence of air space in the skull providing connections between the ears resulting in a pressure difference receiver. Experiments and observations suggest that this may improve directional hearing but it remains unclear how this anatomical particularity influences the cues that are classically used by other animals and humans for sound localization (ITD, ILD and the monaural cues in the HRTF). Finally, although theoretical considerations predict that locating a source of water-borne sound should be even more difficult than in the air, two pilot studies demonstrated that crocodilians seem able to localize an underwater sound source. The few experimental studies available in crocodilians thus appeals for further research.<br> The aim of the PhD project will be to investigate how crocodiles navigate in their amphibious acoustic world. Using ethological experiments coupled to physical measurements aimed to characterize the acoustic cues available for sound location, we will mainly focus on the crocodiles=E2=80=99 ability to localize and discriminate between sound sources, two important aspects of the auditory scene analysis.<br> <br> <b>Outcome of the project: </b>There is currently a great interest in understanding the evolution of the archosaurian lineage. Crocodilians diverged from birds more than 240 million years ago and they are of primary interest in the reconstruction of ancestral archosaurian biology. In this perspective, increasing our knowledge about crocodilian biology is a necessary step. More broadly, the research performed during this PhD project will bring new knowledge about auditory scene analysis, a universal problem faced by all animal species living in complex environments.<br> <br> <b>Logistics.</b> Experiments on captive individuals will be performed at the ENES lab (Saint-Etienne) and in various zoos (e.g. La Ferme aux Crocodiles, Pierrelatte). Field experiments will probably be performed in Brazil (Pantanal). The focal species will mainly be the Nile crocodile and the spectacled caiman. <br> <br> <b>Supervision.</b> Nicolas Grimault (CNRL CNRS UMR 5292) and Nicolas Mathevon (Universit=C3=A9 de Saint-Etienne, ENES/Neuro-PSI CNRS UMR 9197).<br> </body> </html> --------------010009060308050709010809--


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