Articles de revues : « Vibrational communication »

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Virant-Doberlet, Meta, et Andrej Cokl. « Vibrational communication in insects ». Neotropical Entomology 33, n^o 2 (avril 2004) : 121–34. http://dx.doi.org/10.1590/s1519-566x2004000200001.

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Tishechkin, D. Yu. « Vibrational Communication in Insects ». Entomological Review 102, n^o 6 (septembre 2022) : 737–68. http://dx.doi.org/10.1134/s001387382206001x.

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Liao, Yi-Chang, Diana M. Percy et Man-Miao Yang. « Biotremology : Vibrational communication of Psylloidea ». Arthropod Structure & ; Development 66 (janvier 2022) : 101138. http://dx.doi.org/10.1016/j.asd.2021.101138.

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Francescoli, Gabriel, et Carlos A. Altuna. « Vibrational Communication in Subterranean Rodents ». Evolution of Communication 2, n^o 2 (31 décembre 1998) : 217–31. http://dx.doi.org/10.1075/eoc.2.2.04fra.

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Here we discuss different factors that could influence the development of vocal and/or seismic communicative channels in subterranean rodents. We suggest that: 1) Highly social subterranean rodents that do not leave their burrows use essentially vocal signals in the vibrational channel; 2) Solitary and almost permanently fossorial species use vocal signals in short range and seismic signals in long range communication; 3) Other solitary species that leave the burrow system more frequently and that retain good visual capabilities are constrained to use vocal communication only. Also we suggest that seismic communication probably derives from digging activities and, consequently, developed after the acquisition of the subterranean way of life. The first three statements are based on a previously proposed relationship between visual capabilities, hearing capabilities, time spent outside the burrows, social organization and type of vibrational signals used by the species. The fourth statement is based in the correlation found between digging and transporting tools and thumping tools, that are the same across the literature on pertinent genera. Some thumping techniques unique to subterranean animals lead us to propose an evolutionary sequence leading from digging to thumping.

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Avosani, Sabina, Thomas E. S. Sullivan, Marco Ciolli, Valerio Mazzoni et David Maxwell Suckling. « Vibrational communication and evidence for vibrational behavioural manipulation of the tomato potato psyllid, Bactericera cockerelli ». Entomologia Generalis 40, n^o 4 (17 décembre 2020) : 351–63. http://dx.doi.org/10.1127/entomologia/2020/0984.

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Anderson, Brian E., Timothy J. Ulrich et James A. Ten Cate. « Three component vibrational time reversal communication ». Journal of the Acoustical Society of America 137, n^o 4 (avril 2015) : 2437. http://dx.doi.org/10.1121/1.4920900.

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Stewart, Kenneth W. « Insect Life : Vibrational Communication in Insects ». American Entomologist 43, n^o 2 (1997) : 81–91. http://dx.doi.org/10.1093/ae/43.2.81.

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Markl, H. « Acoustic and vibrational communication in insects ». Insectes Sociaux 32, n^o 4 (décembre 1985) : 465. http://dx.doi.org/10.1007/bf02224023.

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Krausa, Kathrin, Felix A. Hager et Wolfgang H. Kirchner. « Guarding Vibrations—Axestotrigona ferruginea Produces Vibrations When Encountering Non-Nestmates ». Insects 12, n^o 5 (29 avril 2021) : 395. http://dx.doi.org/10.3390/insects12050395.

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Flower visiting stingless bees store collected pollen and nectar for times of scarcity. This stored food is of high value for the colony and should be protected against con- and heterospecifics that might rob them. There should be high selective pressure on the evolution of mechanisms to discriminate nestmates from non-nestmates and to defend the nest, i.e., resources against intruders. Multimodal communication systems, i.e., a communication system that includes more than one sensory modality and provide redundant information, should be more reliable than unimodal systems. Besides olfactory signals, vibrational signals could be used to alert nestmates. This study tests the hypothesis that the vibrational communication mode plays a role in nest defense and nestmate recognition of Axestotrigona ferruginea. Substrate vibrations induced by bees were measured at different positions of the nest. The experiments show that guarding vibrations produced in the entrance differ in their temporal structure from foraging vibrations produced inside the nest. We show that guarding vibrations are produced during non-nestmate encounters rather than nestmate encounters. This further supports the idea that guarding vibrations are a component of nest defense and alarm communication. We discuss to whom the vibrations are addressed, and what their message and meaning are.

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Shu, Chuan-Cun, et Niels E. Henriksen. « Communication : Creation of molecular vibrational motions via the rotation-vibration coupling ». Journal of Chemical Physics 142, n^o 22 (14 juin 2015) : 221101. http://dx.doi.org/10.1063/1.4922309.

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Polajnar, Jernej, Andreja Kavčič, Alenka Kosi et Andrej Čokl. « Palomena prasina (Hemiptera : Pentatomidae) vibratory signals and their tuning with plant substrates ». Open Life Sciences 8, n^o 7 (1 juillet 2013) : 670–80. http://dx.doi.org/10.2478/s11535-013-0188-z.

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AbstractPalomena prasina is interesting for the study of vibrational communication within the Pentatomid subfamily Pentatominae, because its host range is limited to woody plants, unlike the better known Nezara viridula, whose vibrational communication is commonly used as a model for the whole family. The vibrational repertoire of P. prasina was described several decades ago and is redescribed in this paper using modern methods for non-contact vibration recording. Additionally, we hypothesized that this species has retained the capacity for signal frequency variation necessary for tuning to resonance properties of various host plants of Pentatominae, but if the signals are emited in the absence of mechanical feedback, they are tuned more specifically to their native acoustic environment — woody plants. By recording live bugs signalling on different substrates and comparing spectral properties of their signals among substrates, we found that there is a match between the signals emitted on a woody branch and those emitted on a non-resonant surface, while spectral properties of signals emitted on herbaceous plants differ. Our findings provide evidence in support of the signal tuning hypothesis and shed further light on the crucial role of substrate in vibrational communication of insects.

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Avosani, Sabina, Elissa Daher, Pietro Franceschi, Marco Ciolli, Vincenzo Verrastro et Valerio Mazzoni. « Vibrational communication and mating behavior of the meadow spittlebug Philaenus spumarius ». Entomologia Generalis 40, n^o 3 (3 novembre 2020) : 307–21. http://dx.doi.org/10.1127/entomologia/2020/0983.

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Sullivan, Nicola Jayne, Sabina Avosani, Ruth C. Butler et Lloyd D. Stringer. « Vibrational Communication of Scolypopa australis (Walker, 1851) (Hemiptera : Ricaniidae)—Towards a Novel Sustainable Pest Management Tool ». Sustainability 14, n^o 1 (24 décembre 2021) : 185. http://dx.doi.org/10.3390/su14010185.

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A study was undertaken to determine whether Scolypopa australis, the passionvine hopper, communicates using substrate-borne vibrations, as its use of such signals for communication is currently unknown. This insect is a costly pest to the kiwifruit industry in New Zealand, where few pest management tools can be used during the growing season. Vibrations emitted by virgin females and males of S. australis released alone on leaves of Griselinia littoralis were recorded with a laser vibrometer to identify and characterise potential spontaneous calling signals produced by either sex. In addition to single-insect trials, preliminary tests were conducted with female–male pair trials to determine whether individuals exchanged signals. The signal repertoire of S. australis includes a male calling signal and two female calling signals. However, no evidence of duetting behaviour that is potentially necessary for pair formation has been found to date. Our outcome suggests that a deeper understanding of the role of vibrational communication employed by S. australis is needed, and by disclosing the pair formation process, a new residue-free pest management tool against this pest may be developed. In addition, this vibration-based tool could contribute to future biosecurity preparedness and response initiatives.

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Takasawa, R., et S. Nagasawa. « Vibrational communication system in ultrasonic frequency band ». Japanese Journal of Applied Physics 59, SI (6 avril 2020) : SIIL05. http://dx.doi.org/10.35848/1347-4065/ab80e0.

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COCROFT, REGINALD B., et RAFAEL L. RODRÍGUEZ. « The Behavioral Ecology of Insect Vibrational Communication ». BioScience 55, n^o 4 (2005) : 323. http://dx.doi.org/10.1641/0006-3568(2005)055[0323:tbeoiv]2.0.co;2.

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COCROFT, REGINALD B. « The public world of insect vibrational communication ». Molecular Ecology 20, n^o 10 (mai 2011) : 2041–43. http://dx.doi.org/10.1111/j.1365-294x.2011.05092.x.

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Bedoya, Carol L., Eckehard G. Brockerhoff, Michael Hayes, Tracy C. Leskey, William R. Morrison, Kevin B. Rice et Ximena J. Nelson. « Brown marmorated stink bug overwintering aggregations are not regulated through vibrational signals during autumn dispersal ». Royal Society Open Science 7, n^o 11 (novembre 2020) : 201371. http://dx.doi.org/10.1098/rsos.201371.

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The brown marmorated stink bug, Halyomorpha halys (Heteroptera: Pentatomidae), is regarded as one of the world's most pernicious invasive pest species, as it feeds on a wide range of economically important crops. During the autumn dispersal period, H. halys ultimately moves to potential overwintering sites, such as human-made structures or trees where it will alight and seek out a final overwintering location, often aggregating with other adults. The cues used during this process are unknown, but may involve vibrational signals. We evaluated whether vibrational signals regulate cluster aggregation in H. haly s in overwintering site selection. We collected acoustic data for six weeks during the autumn dispersal period and used it to quantify movement and detect vibrational communication of individuals colonizing overwintering shelters. Both movement and vibrational signal production increased after the second week, reaching their maxima in week four, before decaying again. We found that only males produced vibrations in this context, yet there was no correlation between movement and vibrational signals , which was confirmed through playback experiments. The cues regulating the formation of aggregations remain largely unknown, but vibrations may indicate group size.

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Bryndin, Evgeniy. « Creating humanoid intelligent digital twin on spectral and holographic approaches ». Research on Intelligent Manufacturing and Assembly 1, n^o 1 (6 décembre 2022) : 28–34. http://dx.doi.org/10.25082/rima.2022.01.004.

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A person perceives his environment through the influence of various complexes of conjugated vibrations on the eyes, ears and other sensitive components of the body. The psyche and neural systems of a person form the impression of vibration impact. The mind creates a language equivalent and connects it with the impression that has formed. Communication links are formed between impressions and language equivalents. Live vibrational information involves a person in a communicative creative process. In the creative communicative process, human intelligence develops. The combination of modern interdisciplinary technologies can contribute to the creation of an intelligent digital twin, similar to humans on spectral and holographic principles, relying on achievements in the field of artificial intelligence. The digital twin fixes the effects of the environment in the form of a spectrogram, and stores the effect result in the form of a hologram. Multilayer neural network systems with additional training work with spectra and holograms and their communications. Language communications are associated with spectra, holograms and their communications. A humanoid digital twin with an ensemble of intellectual agents will be able to form and develop intelligence in interaction with similar digital twins and people.

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Eriksson, Anna, Gianfranco Anfora, Andrea Lucchi, Meta Virant-Doberlet et Valerio Mazzoni. « Inter-Plant Vibrational Communication in a Leafhopper Insect ». PLoS ONE 6, n^o 5 (5 mai 2011) : e19692. http://dx.doi.org/10.1371/journal.pone.0019692.

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Sandberg, John B. « Vibrational Communication of Nine California Stonefly (Plecoptera) Species ». Western North American Naturalist 71, n^o 3 (novembre 2011) : 285–301. http://dx.doi.org/10.3398/064.071.0313.

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Heth, Giora, Eliezer Frankenberg, Aviad Raz et Eviatar Nevo. « Vibrational communication in subterranean mole rats (Spalax ehrenbergi) ». Behavioral Ecology and Sociobiology 21, n^o 1 (juillet 1987) : 31–33. http://dx.doi.org/10.1007/bf00324432.

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Sandberg, John B. « Vibrational communication of seven California stoneflies (Plecoptera : Perlodidae) ». Pan-Pacific Entomologist 87, n^o 2 (avril 2011) : 71–85. http://dx.doi.org/10.3956/2010-20.1.

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Hershberger, Wilbur L. « Substrate-borne vibrations used during acoustic communication and the existence of courtship songs in some species of the genus Anaxipha (Saussure) (Orthoptera : Trigonidiidae : Trigonidiinae) ». Journal of Orthoptera Research 30, n^o 2 (14 décembre 2021) : 185–91. http://dx.doi.org/10.3897/jor.30.70990.

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Anaxipha (Saussure, 1874) are small, swordtail crickets found in much of eastern North America. Many species within the genus Anaxipha were only recently described and their calling songs characterized. However, little is known about their courtship songs or use of substrate-borne communication (drumming). This study is the first documentation of the existence of courtship songs and substrate-borne vibrational communication in the genus. Courtship songs and substrate-borne vibrational communication were first detected in the following species: Anaxipha exigua (Say, 1825), A. tinnulacita Walker & Funk, 2014, A. tinnulenta Walker & Funk, 2014, and A. thomasi Walker & Funk, 2014. When in the presence of a conspecific female, males of all four species perform courtship songs that are distinctly different in pattern of echeme delivery and syllable details compared to their respective calling songs. Additionally, males of all four species exhibited drumming behavior during courtship singing and variably during calling songs. Examination of video recordings of males drumming during courtship singing showed that they are apparently using the sclerotized portion of their mandibles to impact the substrate on which they are perched to create vibrations. Courtship song and drumming bout characteristics were statistically different among the four species studied here, although A. tinnulacita and A. tinnulenta were similar in some measurements. Drumming during calling songs was common only in A. tinnulacita, where drumming occurs predominately during the first forty percent and last twenty percent of the long echemes of calling songs. Additional study is needed to further explore the use of substrate-borne vibrational communication in this genus.

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Oppedisano, Tiziana, Jernej Polajnar, Rok Kostanjšek, Antonio De Cristofaro, Claudio Ioriatti, Meta Virant-Doberlet et Valerio Mazzoni. « Substrate-Borne Vibrational Communication in the Vector of Apple Proliferation Disease Cacopsylla picta (Hemiptera : Psyllidae) ». Journal of Economic Entomology 113, n^o 2 (10 décembre 2019) : 596–603. http://dx.doi.org/10.1093/jee/toz328.

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Abstract Cacopsylla picta (Förster, 1848) (Hemiptera: Pysllidae) is the main vector of apple proliferation, a phytoplasma-caused disease. It represents one of the most severe problems in apple orchards, and therefore, there is a mandatory requirement to chemically treat against this pest in the European Union. Sexual communication using substrate-borne vibrations was demonstrated in several psyllid species. Here, we report the characteristics of the vibrational signals emitted by C. picta during courtship behavior. The pair formation process can be divided into two main phases: identification and courtship. Females initiate the communication on the host plant by emitting trains of vibrational pulses and, during courtship, if males reply, by emitting a signal consisting of a series of pre-pulses and a ‘buzz’, a duet is established. Moreover, a scanning electron microscopy investigation showed the presence of a stridulatory structure on the thorax and wings of both sexes, whereas the video recordings elucidated associated wing movement. The results provide new information about the biology of this phytoplasma vector and could form a basis of an environmentally friendly pest management strategy.

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Čokl, Andrej, Alenka Žunič et Meta Virant-Doberlet. « Predatory bug Picromerus bidens communicates at different frequency levels ». Open Life Sciences 6, n^o 3 (1 juin 2011) : 431–39. http://dx.doi.org/10.2478/s11535-011-0015-y.

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AbstractThe Asopinae (Heteroptera: Pentatomidae) are a subfamily of stinkbugs with predaceous feeding habits and poorly understood communication systems. In this study we recorded vibratory signals emitted by Picromerus bidens L. on a non-resonant substrate and investigated their frequency characteristics. Males and females produced signals by vibration of the abdomen and tremulation. The female and male songs produced by abdominal vibrations showed gender-specific time structure. There were no differences in the temporal patterns of male or female tremulatory signals. The signals produced by abdominal vibrations were emitted below 600 Hz whereas tremulatory signals had frequency ranges extending up to 4 kHz. Spectra of male vibratory signals produced by abdominal vibrations contained different peaks, each of which may be dominant within the same song sequence. Males alternated with each other during production of rivalry signals, using different dominant frequency levels. We show that the vibratory song repertoire of P. bidens is broader than those of other predatory stinkbugs that have been investigated. The emission of vibrational signals with different dominant frequencies but the same production mechanism has not yet been described in heteropteran insects, and may facilitate location of individual sources of vibration within a group.

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Groot, Maarten, Andrej Čokl et Meta Virant-Doberlet. « Search behaviour of two hemipteran species using vibrational communication ». Open Life Sciences 6, n^o 5 (1 octobre 2011) : 756–69. http://dx.doi.org/10.2478/s11535-011-0056-2.

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AbstractThe ability of conspecifics to recognize and locate each other in the environment depends on the efficiency of intraspecific communication. We compared the mate searching strategies of southern green stinkbug Nezara viridula (male searches for a continuously calling female) and the leafhopper Aphrodes makarovi (partners form a precisely coordinated duet). Males of both species were tested on plants in playback experiments. One leaf was vibrated with unaltered conspecific female signals or with various conspecific signals using modified temporal parameters. The results showed that the onset of searching was faster in A. makarovi than in N. viridula. Changes in temporal parameters of female replies had negative effect on the searching behaviour of A. makarovi. Males located the source of longer female replies faster than the short female call and they failed to locate the source of a female reply with temporal parameters outside the species-specific values. In contrast, in N. viridula, searching males successfully located also the source of a female song with parameters outside the species-specific values. The results are discussed with regard to male behavioural strategies in species with different vibrational communication systems and different male mating investment.

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Eberhard, Monika J. B., et Mike D. Picker. « Vibrational Communication in Two Sympatric Species of Mantophasmatodea (Heelwalkers) ». Journal of Insect Behavior 21, n^o 4 (15 avril 2008) : 240–57. http://dx.doi.org/10.1007/s10905-008-9123-6.

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Jiang, Bin, et Hua Guo. « Communication : Enhanced dissociative chemisorption of CO2 via vibrational excitation ». Journal of Chemical Physics 144, n^o 9 (7 mars 2016) : 091101. http://dx.doi.org/10.1063/1.4943002.

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Chuche, Julien, Denis Thiéry et Valerio Mazzoni. « Do Scaphoideus titanus (Hemiptera : Cicadellidae) nymphs use vibrational communication ? » Naturwissenschaften 98, n^o 7 (8 juin 2011) : 639–42. http://dx.doi.org/10.1007/s00114-011-0808-x.

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Krugner, Rodrigo, et Shira D. Gordon. « Mating Communication of the Variegated Leafhopper, Erasmoneura variabilis, With Notes on Vibrational Signaling of Other Grapevine Cicadellids in California ». Annals of the Entomological Society of America 114, n^o 4 (6 juin 2021) : 528–37. http://dx.doi.org/10.1093/aesa/saab024.

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Abstract Leafhoppers in the tribe Erythroneurini are a concern for grape growers in California due to direct feeding damage by piercing the leaves. Management of leafhopper populations in vineyards may be accomplished by insecticide applications, the release of natural enemies, conservation biological control, exploitation of controlled deficit irrigation, or a combination of the above. Based on research on other leafhopper species, a behavioral mating disruption is a viable option, but nothing is known about the mating communication and circadian signaling of these species in vineyards. The objectives of this study were to identify and describe vibrational signals associated with mate selection behavior of Erasmoneura variabilis and Erythroneura ziczac, and evaluate the occurrence of vibrational signals within sympatric populations of E. variabilis, E. ziczac, and Homalodisca vitripennis on grapevines. Analysis of vibrational communication signals revealed that 1) one female signal and two distinct male signals are used in E. variabilis pair formation, 2) the pair formation process in E. variabilis is divided into three communication phases, 3) E. variabilis pre-copulatory communication is longer in the presence than in the absence of male-male rivalry, 4) two distinct signals are used in E. ziczac pair formation, and 5) E. variabilis, E. ziczac, and H. vitripennis sing at night and during the day. Results include detailed descriptions of leafhopper communication signals that are relevant for future development of vibrational disruption as a novel method to suppress populations under field conditions.

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Broder, E. Dale, Aaron W. Wikle, James H. Gallagher et Robin M. Tinghitella. « Substrate-borne vibration in Pacific field cricket courtship displays ». Journal of Orthoptera Research 30, n^o 1 (7 mai 2021) : 43–50. http://dx.doi.org/10.3897/jor.30.47778.

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While thought to be widely used for animal communication, substrate-borne vibration is relatively unexplored compared to other modes of communication. Substrate-borne vibrations are important for mating decisions in many orthopteran species, yet substrate-borne vibration has not been documented in the Pacific field cricket Teleogryllus oceanicus. Male T. oceanicus use wing stridulation to produce airborne calling songs to attract females and courtship songs to entice females to mate. A new male morph has been discovered, purring crickets, which produce much quieter airborne calling and courtship songs than typical males. Purring males are largely protected from a deadly acoustically orienting parasitoid fly, and they are still able to attract female crickets for mating though typical calling song is more effective for attracting mates. Here, we document the first record of substrate-borne vibration in both typical and purring male morphs of T. oceanicus. We used a paired microphone and accelerometer to simultaneously record airborne and substrate-borne sounds produced during one-on-one courtship trials in the field. Both typical and purring males produced substrate-borne vibrations during courtship that temporally matched the airborne acoustic signal, suggesting that the same mechanism (wing movement) produces both sounds. As previously established, in the airborne channel, purring males produce lower amplitude but higher peak frequency songs than typical males. In the vibrational channel, purring crickets produce songs that are higher in peak frequency than typical males, but there is no difference in amplitude between morphs. Because louder songs (airborne) are preferred by females in this species, the lack of difference in amplitude between morphs in the substrate-borne channel could have implications for mating decisions. This work lays the groundwork for investigating variation in substrate-borne vibrations in T. oceanicus, intended and unintended receiver responses to these vibrations, and the evolution of substrate-borne vibrations over time in conjunction with rapid evolutionary shifts in the airborne acoustic signal.

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Cocroft, Reginald B. « Vibrational Communication and the Ecology of Group-Living, Herbivorous Insects1 ». American Zoologist 41, n^o 5 (octobre 2001) : 1215–21. http://dx.doi.org/10.1668/0003-1569(2001)041[1215:vcateo]2.0.co;2.

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Virant-doberlet, Meta, et Ivan Žežlina. « Vibrational Communication of Metcalfa pruinosa (Hemiptera : Fulgoroidea : Flatidae) ». Annals of the Entomological Society of America 100, n^o 1 (1 janvier 2007) : 73–82. http://dx.doi.org/10.1603/0013-8746(2007)100[73:vcomph]2.0.co;2.

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Powis, Ivan. « Communication : The influence of vibrational parity in chiral photoionization dynamics ». Journal of Chemical Physics 140, n^o 11 (21 mars 2014) : 111103. http://dx.doi.org/10.1063/1.4869204.

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Xu, Yao, et David M. Leitner. « Communication Maps of Vibrational Energy Transport Through Photoactive Yellow Protein ». Journal of Physical Chemistry A 118, n^o 35 (4 mars 2014) : 7280–87. http://dx.doi.org/10.1021/jp411281y.

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Cocroft, Reginald B. « Host shifts and the evolution of vibrational communication in treehoppers ». Journal of the Acoustical Society of America 121, n^o 5 (mai 2007) : 3079. http://dx.doi.org/10.1121/1.4781910.

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Yang, Zheng, Iker Leon et Lai-Sheng Wang. « Communication : Vibrational spectroscopy of Au4 from high resolution photoelectron imaging ». Journal of Chemical Physics 139, n^o 2 (14 juillet 2013) : 021106. http://dx.doi.org/10.1063/1.4813503.

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Cocroft, Reginald B. « Vibrational communication facilitates cooperative foraging in a phloem-feeding insect ». Proceedings of the Royal Society B : Biological Sciences 272, n^o 1567 (20 mai 2005) : 1023–29. http://dx.doi.org/10.1098/rspb.2004.3041.

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KIRCHNER, WOLFGANG H., INGRID BROECKER et JÜRGEN TAUTZ. « Vibrational alarm communication in the damp-wood termite Zootermopsis nevadensis ». Physiological Entomology 19, n^o 3 (septembre 1994) : 187–90. http://dx.doi.org/10.1111/j.1365-3032.1994.tb01041.x.

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Cocroft, Reginald B. « Vibrational Communication and the Ecology of Group-Living, Herbivorous Insects ». American Zoologist 41, n^o 5 (octobre 2001) : 1215–21. http://dx.doi.org/10.1093/icb/41.5.1215.

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Polajnar, Jernej, Lara Maistrello, Ambra Bertarella et Valerio Mazzoni. « Vibrational communication of the brown marmorated stink bug (Halyomorpha halys) ». Physiological Entomology 41, n^o 3 (14 juin 2016) : 249–59. http://dx.doi.org/10.1111/phen.12150.

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Gemeno, César, Giordana Baldo, Rachele Nieri, Joan Valls, Oscar Alomar et Valerio Mazzoni. « Substrate-Borne Vibrational Signals in Mating Communication of Macrolophus Bugs ». Journal of Insect Behavior 28, n^o 4 (juillet 2015) : 482–98. http://dx.doi.org/10.1007/s10905-015-9518-0.

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Čokl, Andrej, Aline Moreira Dias, Maria Carolina Blassioli Moraes, Miguel Borges et Raul Alberto Laumann. « Rivalry between Stink Bug Females in a Vibrational Communication Network ». Journal of Insect Behavior 30, n^o 6 (novembre 2017) : 741–58. http://dx.doi.org/10.1007/s10905-017-9651-z.

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Crestoni, Maria Elisa, Barbara Chiavarino, Vincent Steinmetz et Simonetta Fornarini. « Communication : Vibrational study of a benzyl carbanion : Deprotonated 2,4-dinitrotoluene ». Journal of Chemical Physics 137, n^o 18 (14 novembre 2012) : 181101. http://dx.doi.org/10.1063/1.4767393.

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Kelly, John T., Thomas L. Ellington, Thomas More Sexton, Ryan C. Fortenberry, Gregory S. Tschumper et Knut R. Asmis. « Communication : Gas phase vibrational spectroscopy of the azide-water complex ». Journal of Chemical Physics 149, n^o 19 (21 novembre 2018) : 191101. http://dx.doi.org/10.1063/1.5053671.

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Womack, Molly C., Jakob Christensen-Dalsgaard, Luis A. Coloma, Juan C. Chaparro et Kim L. Hoke. « Earless toads sense low frequencies but miss the high notes ». Proceedings of the Royal Society B : Biological Sciences 284, n^o 1864 (4 octobre 2017) : 20171670. http://dx.doi.org/10.1098/rspb.2017.1670.

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Sensory losses or reductions are frequently attributed to relaxed selection. However, anuran species have lost tympanic middle ears many times, despite anurans' use of acoustic communication and the benefit of middle ears for hearing airborne sound. Here we determine whether pre-existing alternative sensory pathways enable anurans lacking tympanic middle ears (termed earless anurans) to hear airborne sound as well as eared species or to better sense vibrations in the environment. We used auditory brainstem recordings to compare hearing and vibrational sensitivity among 10 species (six eared, four earless) within the Neotropical true toad family (Bufonidae). We found that species lacking middle ears are less sensitive to high-frequency sounds, however, low-frequency hearing and vibrational sensitivity are equivalent between eared and earless species. Furthermore, extratympanic hearing sensitivity varies among earless species, highlighting potential species differences in extratympanic hearing mechanisms. We argue that ancestral bufonids may have sufficient extratympanic hearing and vibrational sensitivity such that earless lineages tolerated the loss of high frequency hearing sensitivity by adopting species-specific behavioural strategies to detect conspecifics, predators and prey.

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Cocroft, Reginald. « OFFSPRING-PARENT COMMUNICATION IN A SUBSOCIAL TREEHOPPER (HEMIPTERA : MEMBRACIDAE : UMBONIA CRASSICORNIS) ». Behaviour 136, n^o 1 (1999) : 1–21. http://dx.doi.org/10.1163/156853999500640.

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Parental care of post-hatching offspring is widespread in insects, but the role of communication in parent-offspring interactions remains largely unknown. I have found that, in the subsocial treehopper Umbonia crassicornis , aggregated nymphal offspring produce substrate-borne, vibrational signals in synchronized bursts that elicit the mother's antipredator behavior. In this study I describe the signals used by nymphs and explore their role in mother-offspring interactions and within-brood communication. Nymphs were stimulated to signal in the laboratory in response to light contact, simulating the approach of a predator. Signals of nymphs at the site of disturbance triggered a rapid wave of signaling by many individuals within the aggregation. This coordinated signaling was associated with the mother's defensive behavior. Signaling was limited to the vibrational channel: when transmission of vibrations was blocked between signaling nymphs and the mother, the mothers' response was abolished. Nymphs signaled not only in response to contact, but also in response to playback of signals from their siblings. Nymphs in otherwise undisturbed aggregations signaled only in response to signals coordinated into synchronized, group displays, and not to signals in random temporal patterns. However, nymphal signaling thresholds were lowered after a recent experience of simulated predation. After a period in which nymphs were stimulated to signal (by light contact simulating a predator's approach), playback of one individual signal could trigger a coordinated burst within the aggregation. It remains unknown if coordination among siblings to produce synchronized, group signals is completely cooperative, or if siblings compete for the mother's proximity. But it is clear that a complex system of communication among siblings, and between siblings and their parent, is an important feature of maternal care in these subsocial insects.

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Bota, Julien L., Michael G. Schöner, Caroline R. Schöner et Monika J. B. Eberhard. « Rustling ants : Vibrational communication performed by two Camponotus species in Borneo ». Arthropod Structure & ; Development 70 (septembre 2022) : 101172. http://dx.doi.org/10.1016/j.asd.2022.101172.

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Saurabh, Prasoon, et Shaul Mukamel. « Communication : Atomic force detection of single-molecule nonlinear optical vibrational spectroscopy ». Journal of Chemical Physics 140, n^o 16 (28 avril 2014) : 161107. http://dx.doi.org/10.1063/1.4873578.

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Cocroft, R. B., H. J. Shugart, K. T. Konrad et K. Tibbs. « Variation in Plant Substrates and its Consequences for Insect Vibrational Communication ». Ethology 112, n^o 8 (août 2006) : 779–89. http://dx.doi.org/10.1111/j.1439-0310.2006.01226.x.

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