Bimodal signal requisite for agonistic behavior in a dart-poison frog,<i>Epipedobates</i><i>femoralis</i>

Narins, Peter M.; Hödl, Walter; Grabul, Daniela S.

doi:10.1073/pnas.0237165100

Cited by 230 publications

(207 citation statements)

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“…As long as the speciesspecific advertisement call is broadcast at a level Ͼ68 dB sound pressure level measured at the position of the focal male (12) and the vocal-sac pulsations are synchronous with the acoustic stimulus, fighting behavior ensues (7). Thus, a protocol has been established in which simultaneous and colocalized bimodal cues evoke aggressive behavior in territorial male E. femoralis (7). Taking advantage of this robust aggressive response to simulated intruders into their territory, we tested two new related hypotheses concerning aggressive behavior in this species.…”

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confidence: 99%

“…Increasing the spatial disparity between a voice's actual source and its apparent source by Ͼ30°or delaying the auditory cue relative to the visual cue by Ͼ200 ms reduces the realism of the illusion (6) Many anuran amphibians also produce simultaneous bimodal advertisement signals in which the call is accompanied by a conspicuous visual cue: vocal-sac inflation. ** For example, it has been shown that fighting behavior in the diurnal dart-poison frog Epipedobates femoralis can be experimentally evoked with an electromechanical model frog (EMF) broadcasting bimodal cues consisting of the synthetic advertisement call coupled with simultaneous vocal-sac pulsations (7). As long as the speciesspecific advertisement call is broadcast at a level Ͼ68 dB sound pressure level measured at the position of the focal male (12) and the vocal-sac pulsations are synchronous with the acoustic stimulus, fighting behavior ensues (7).…”

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confidence: 99%

“…** For example, it has been shown that fighting behavior in the diurnal dart-poison frog Epipedobates femoralis can be experimentally evoked with an electromechanical model frog (EMF) broadcasting bimodal cues consisting of the synthetic advertisement call coupled with simultaneous vocal-sac pulsations (7). As long as the speciesspecific advertisement call is broadcast at a level Ͼ68 dB sound pressure level measured at the position of the focal male (12) and the vocal-sac pulsations are synchronous with the acoustic stimulus, fighting behavior ensues (7). Thus, a protocol has been established in which simultaneous and colocalized bimodal cues evoke aggressive behavior in territorial male E. femoralis (7).…”

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confidence: 99%

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Cross-modal integration in a dart-poison frog

Narins

Grabul²,

Soma³

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

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132

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The mechanisms by which the brain binds together inputs from separate sensory modalities to effect a unified percept of events are poorly understood. This phenomenon was studied in males of the dart-poison frog Epipedobates femoralis. These animals physically and vigorously defend their territories against conspecific calling intruders. In prior field studies with an electromechanical model frog, we were able to experimentally evoke this aggressive behavior only when an auditory cue (advertisement call) was presented simultaneously with a visual cue (vocal-sac pulsations). In the present field experiments, we used a modified version of the electromechanical model frog to present territorial males with visual and auditory cues separated by experimentally introduced temporal delays or spatial disparities to probe temporal and spatial integration in this animal. In temporal integration experiments, bimodal stimuli with temporal overlap during calling bouts consistently evoked aggressive behavior; stimuli lacking bimodal temporal overlap were relatively ineffective at the same task. In spatial integration studies, despite presenting the components of the bimodal stimulus with an initial spatial disparity of up to 12 cm, fighting behavior persisted. These results demonstrate that temporal and spatial integration may be reliably estimated in a freely behaving animal in its natural habitat and that we can use aggressive behavior in this species as an index of cross-modal integration in the field.animal communication ͉ territorial defense ͉ anuran ͉ amphibian ͉ Dendrobatidae

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confidence: 99%

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Cross-modal integration in a dart-poison frog

Narins

Grabul²,

Soma³

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

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132

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“…However, not all tested males responded aggressively to those differentiated calls, hinting at a complex scenario of conspecific acoustic signal recognition. Previous studies using A. femoralis synthetic calls found that extreme variations in their temporal (note duration and inter-note silent intervals) and spectral (frequency) properties influence male-to-male intraspecific recognition and aggressive territorial responses (Amézquita et al, 2005;Göd et al, 2007), which can be also modulated by intra and interspecific visual stimuli (Narins et al, 2003;Luna et al, 2010). However, the species has a wide acoustic recognition space when compared to evolutionarily related species (Amézquita et al, 2011).…”

Section: Discussionmentioning

confidence: 98%

On the distinctive call of a threatened phenotype of Allobates femoralis (Anura: Aromobatidae) and its recognition by allopatric conspecific males

Pontes-da-Silva

Lima

Simões

2017

Iheringia, Sér. Zool.

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ABSTRACT. The brilliant-thighed frog [Allobates femoralis (Boulenger, 1884)] is distributed across the Amazon basin and aggregates several allopatric evolutionary lineages, some of which present variation in their advertisement calls. In 2009, an unregistered call phenotype was discovered in the region of Altamira and Vitória do Xingu, State of Pará, Brazil, where males emit advertisement calls formed by six notes, diff ering from the typical four-note calls described for other A. femoralis populations. In this study, we describe in detail these untypical calls. Additionally, we test whether the aggressive responses of males of a 4-note reference population (Reserva Ducke -RFAD, in Manaus, States of Amazonas) is diff erential towards the 6-note calls of males recorded in Altamira (Pará State), and towards 4-note calls recorded in one location at the Tapajós-Xingu interfl uve (Belterra, Pará State), and in RFAD. Playback experiments were conducted between 2011-2012, and used standardized stimuli produced from natural call recordings. A total of 30 independent experiments were conducted, 10 for each stimuli class. We measured the phonotaxis of focal males in relation to the loudspeaker, considering the time to orientation and the time to approach the loudspeaker. We found that not all A. femoralis males at RFAD promptly recognize calls from males recorded in Altamira. However, when considering only males who approached the loudspeaker, diff erences in aggressive reactions were not seen between stimuli classes. Our fi ndings show that the ability to recognize calls from Altamira as belonging to co-specifi c males is not universal among males at RFAD. The new A. femoralis phenotype occurs in areas potentially impacted by the Belo Monte hydroelectric complex and complementary studies indicate that no gene fl ow exists between this group and A. femoralis from adjacent regions. Hence, developments in Altamira may put this incipient speciation process at risk.

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“…Although many animals respond to video images, some researchers have elected to capitalize on recent technological advances in robotics to develop realistic models that can be deployed to study multimodal communication (16).…”

Section: Multimodal Communicationmentioning

confidence: 99%

Feeling the heat: Ground squirrels heat their tails to discourage rattlesnake attack

Blumstein

2007

Proc. Natl. Acad. Sci. U.S.A.

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Bimodal signal requisite for agonistic behavior in a dart-poison frog,Epipedobatesfemoralis

Cited by 230 publications

References 25 publications

Cross-modal integration in a dart-poison frog

Cross-modal integration in a dart-poison frog

On the distinctive call of a threatened phenotype of Allobates femoralis (Anura: Aromobatidae) and its recognition by allopatric conspecific males

Feeling the heat: Ground squirrels heat their tails to discourage rattlesnake attack

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