Tremulatory and Abdomen Vibration Signals Enable Communication through Air in the Stink Bug Euschistus heros

Kavčič, Andreja; Čokl, Andrej; Laumann, R. A.; Blassioli‐Moraes, Maria Carolina; Borges, Miguel

doi:10.1371/journal.pone.0056503

Cited by 32 publications

(25 citation statements)

References 30 publications

(34 reference statements)

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“…The vibrational signals of H. halys in this stage notably include tremulation, which is a separate mechanism involving the production of short, broadband pulses by shaking the whole body. Such signals are described during courtship for other Pentatomid species, such as Podisus maculiventris (Žunič et al ., ) and Euschistus heros (Kavčič et al ., ). Furthermore, numerous transitions between song types are observed, perhaps hinting at the evolution of signal repertoires from a ‘basic’ type.…”

Section: Discussionmentioning

confidence: 97%

Vibrational communication of the brown marmorated stink bug (Halyomorpha halys)

et al. 2016

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Communication with substrate-borne vibrational signals is common in the family Pentatomidae, although this aspect of biology of the invasive pest Halyomorpha halys Stål remains unexplored so far. In the present study, the behaviour of single animals and pairs is observed on a bean plant and a loudspeaker membrane at the same time as recording substrate vibrations with a laser vibrometer, with the aim of adding to the existing description of mating behaviour. The male H. halys emit long, narrow-band vibrational signals spontaneously to which the nearby females reply with their own vibrational signals, triggering male searching. During this phase, the insects emit two (in females) or three song types (in males) in various combinations, until they come into physical contact, after which the final male song type, characterized by tremulation, is the only kind of vibratory emission. Females never start singing spontaneously and the mating sequence does not proceed if either partner is silent. Male signals do not attract males or females and so vibrations are unlikely to play a role in maintaining the aggregations that are characteristic of this species, whereas female signals show promise for developing behavioural manipulation methods against this invasive pest

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Section: Discussionmentioning

confidence: 97%

Vibrational communication of the brown marmorated stink bug (Halyomorpha halys)

et al. 2016

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“…Hill and Wessel (2016) define tremulation as a shaking or trembling behavior that induces vibrations in the substrate, often through the legs, with no percussive impact. This communication via surface-borne vibrations is widely documented in arthropods, such as orthopterans (Cocroft, Shugart, Konrad, & Tibbs, 2006) and hemipterans (Kavčič, Čokl, Laumann, Blassioli-Moraes & Borges, 2013), but also had been reported in some vertebrates, such as tree frogs (Caldwell et al, 2010), salamanders (Christensen, Lauridsen, Christensen-Dalsgaard, Pedersen, & Madsen, 2015) and seals (Bishop, Denton, Pomeroy, & Twiss, 2015). The analysis of this vibrational signaling in animals, known as biotremology, allows a better understanding of communication through these signals, the propagation process in the environment and how physical variables affect this behavior (Mortimer, 2017).…”

mentioning

confidence: 80%

Tremulation display in male agonistic behavior of the black-eyed leaf frog (Agalychnis moreletii: Hylidae).

Serrano¹,

Cruz²,

Villatoro‐Castañeda³

et al. 2018

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-The black-eyed leaf frog (Agalychnis moreletii) is a critically endangered hylid frog restricted to humid lowland and lower montane forests of southern Mexico and northern Central America. Very few reports exist on wild reproductive behavior of this species. Lower body tremulation display has been reported as a relevant part of agonistic interactions between males of the related species A. callidryas but has never been reported in other species of Agalychnis. Herein, we present the first report and description of this tremulation display among males of A. moreletii in a lower montane forest of Guatemala. Based on our observations, we suggest that this display may serve to prevent physical confrontations among males and might play an important role in defining territories. We also suggest that the difference in fundamental frequency of the tremulations between A. moreletii and A. callidryas may serve to avoid confusing signals between species where they breed sympatrically.

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“…Nevertheless, Eriksson et al [44] described signalling between a male and female leafhopper Scaphoideus titanus (Ball) by vibratory signals transmitted over the air at a six cm distance between mechanically isolated leaves. Kavčič et al [45] confirmed airborne communication up to six cm distance in the stink bug species E. heros. During transmission through the air between mechanically isolated leaves, signal spectra become narrower by increased attenuation of frequencies above 300 Hz, and the signal's amplitude decreases by 20 to 30 dB at three cm and by 25 to 35 dB at six cm distance.…”

Section: -Communication Through Air and Substratementioning

confidence: 94%

“…Tremulatory signals are produced by vigorous shaking of the whole body parallel to the substrate, with legs firmly standing on it [51,81,82]. Tremulatory signals produced in Pentatominae [45] and Asopinae [81] share common amplitude, temporal and frequency characteristics. The characteristic plant-recorded tremulatory signals of amplitudes up to 5 mm/s, duration below 0.5 s and irregular repetition rate are composed of a short, high frequency onset followed by the longer low frequency tail with the decaying amplitude resembling plant resonance.…”

Section: -Production and Characteristics Of Communication Signalsmentioning

confidence: 99%

“…Buzzing signals, produced by vibration of lifted wings, represent another less species-specific high-amplitude vibratory emission [45]. The velocity of E. heros plant-recorded buzzing signals reached 40 mm/s, and the duration of irregularly produced signals varied within and between individuals from 0.5 s to minute-long continuous emissions.…”

Section: -Production and Characteristics Of Communication Signalsmentioning

confidence: 99%

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Stink Bug Communication with Multimodal Signals Transmitted through Air and Substrate

2019

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This review represents complex mechanisms and processes of multimodal communication in stink bugs. During reproductive behavior the airborne and substrate-borne signals enable mate recognition, mediate directionality of movement, eliminate rivals and motivate partners for copulation. Species specific characteristics prevent hybridization at various levels of mating behavior. Male sex and/or aggregation pheromones as uni-or multicomponent signals attract mates to land on the same plant and there, trigger females to call males by vibratory signals, transmitted through the plant. Communication during courtship runs at short distance with visual, airborne, substrate-borne and contact chemical and mechanical signals. Abdomen vibrations produce the main repertoire of female and male calling, courtship and rival vibratory signals. To increase their informational value, stink bugs tune signal frequency, amplitude and temporal characteristics with mechanical properties of plants. The airborne component of species non-specific and high amplitude signals, produced by body tremulation and wing buzzing enables communication contact between mates standing on mechanically isolated plants. Female vibratory signals increase the amount of male emitted pheromone and the latter keeps female calling. Interaction, synergy and characteristics of visual, contact chemical and vibratory signals, exchanged during courtship remain under-investigated. Female and male competition for access to copulation in imbalanced sex conditions is characterized by duetting with rival song vibratory signals. Different receptors in and on different parts of the body are able to detect with high sensitivity multimodal airborne and substrate-borne communication signals. The relevance of the multimodal communication for the reproductive success of stink bugs is discussed. -IntroductionMillions of insect species inhabit air, water and land. Population success depends crucially on efficient communication, which enables solitary species to meet in the field and holds insect societies together. To preserve above-threshold signal-to-noise ratio at the necessary distance, solitary insects developed, through evolution, efficient mechanisms to communicate by unimodal, multimodal and multicomponent signals [1] transmitted through different media. Investigation of insect communication demands a holistic approach to understand the role, synergy and interaction of specific processes underlying different phases of behavior. The study on the wandering spider Cuppienius salei (Keyserlink, 1877) represents a nice example of such an approach, showing the complex system of communication through different channels in various environmental conditions [2]. Comparable studies are rare in insects and, despite numerous solutions and a variety of mechanisms, there are very few common and general conclusions.plant-dwelling phytophagous insects with several pest species that inspired numerous studies of their biology, ecology, feeding habits and conditions of their plant environment [3...

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Tremulatory and Abdomen Vibration Signals Enable Communication through Air in the Stink Bug Euschistus heros

Cited by 32 publications

References 30 publications

Vibrational communication of the brown marmorated stink bug (Halyomorpha halys)

Vibrational communication of the brown marmorated stink bug (Halyomorpha halys)

Tremulation display in male agonistic behavior of the black-eyed leaf frog (Agalychnis moreletii: Hylidae).

Stink Bug Communication with Multimodal Signals Transmitted through Air and Substrate

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