Your search keyword '"Biotremology"' showing total 279 results

1. Computational methods for detecting insect vibrational signals in field vibroscape recordings

Author

Marolt, Matija, Pesek, Matevž, Šturm, Rok, López Díez, Juan José, Rexhepi, Behare, and Virant-Doberlet, Meta

Published

2025

2. Quantifying the complex transmission of substrate‐borne vibrations with scanning laser vibrometry

Author

McGinley, Rowan H, Cocroft, Reginald B, Elias, Damian O, Redle, Elizabeth, Gorlewicz, Jenna, and Fowler‐Finn, Kasey D

Subjects

Zoology, Biological Sciences, biotremology, broadband, communication, frequency sweep, playback, Ptelea trifoliata, Rutaceae, scanning laser Doppler vibrometry, Ecological Applications, Agriculture, Land and Farm Management, Entomology

Abstract

Substrate-borne vibrations are ubiquitous in nature and are used by diverse taxa to communicate and to obtain information about their environments. However, substrate-borne vibrations remain understudied compared with other sensory and signaling modalities, in part due to human sensory biases. In addition, understanding and quantifying the transmission of vibrations remains a challenging task due to it being dependent on both signal properties and properties of the substrates that the signals transmit through. Here, we provide methods for playing back and measuring the transmission of vibrations throughout a substrate. Using linear resonant actuators, we conducted playbacks of pure tones and frequency sweeps on wooden dowels and on the stems of potted Ptelea trifoliata L. (Rutaceae) plants. We used scanning laser Doppler vibrometry to measure the signals at multiple locations along the length of the dowels and plant stems. We demonstrate that playback of a frequency sweep yields more data in a shorter amount of time than multiple playbacks and measurements of pure tone signals. Our results are also consistent with previous findings showing that signals produce frequency and location specific minima and maxima (nodes and antinodes) throughout the substrates, rather than simply attenuating with distance. This results in filtering of signals, such that their spectra are unique at any given measurement location—illustrating the importance of measuring vibrations at multiple locations. We discuss the implications of such filtering phenomena for vibrationally signaling animals and the biotremologists that study them.

Published

2024

3. Unraveling female mate choice in Schizocosa mccooki: The interplay of male mass and vibratory courtship

Author

Yan, Lin, Sabaria, Athena, Elias, Damian O, and Rosenthal, Malcolm F

Subjects

Zoology, Ecology, Biological Sciences, biotremology, mate choice, multiple messages, redundant signals, Schizocosa, spectral properties, temporal properties, vibratory signal, Evolutionary Biology, Psychology, Behavioral Science & Comparative Psychology, Cognitive and computational psychology

Abstract

Sexual selection is an important evolutionary force and despite extensive research, understanding mate choice on naturally occurring trait variation remains an intriguing area of study. The correlation between mass, a trait associated with courter viability and common target for mate choice, and signals is particularly noteworthy. This study focuses on Schizocosa mccooki, the largest member of a wolf spider genus renowned for its diverse complex male courtship. Our objective was to understand the relationship of male mass and other courtship signals on female choice within this species. We conducted lab experiments involving random pairings of field caught males and females, recording vibratory courtship and its outcomes. Our findings revealed that S. mccooki courtship consisted of vibratory signals with two major components, thumps and raps. Male mass, overall courtship vigor, and thump duration were found to predict mating success. Interestingly, we found no correlation between temporal traits and mass suggesting independent information and an absence of trade-offs between mass, courtship vigor, and signal component rates/durations. Instead, we found that heavier males tend to produce thumps with lower frequencies. The finding that male mass predicts mating success contrasts with patterns observed in other species in this well-studied genus. By uncovering the mate choice patterns of S. mccooki, this study underscores the importance of comparative studies to understand the ways in which sexual selection drives diversification, even among closely related taxa.

Published

2024

4. Vibrations from the crypt: Investigating the possibility of vibrational communication in burying beetles.

Author

Conrad, Taina, Roberts, Louise, Steiger, Sandra, and Ringlein, Marie

Subjects

*BURYING beetles, *LASER Doppler vibrometer, *SOUND production by insects, *FOREST soils, *TELECOMMUNICATION systems

Abstract

Communication is fundamental in the animal kingdom, essential to interactions such as mating, defense, and parental care. Vibrational communication has often been overlooked in the past, but in recent decades, it has become clear that insects use substrate vibrations as a communication signal. In burying beetles of the genus Nicrophorus, which are known for their biparental brood care, both parents stridulate. Spending a considerable period of their lives underground, it is very likely the beetles utilize vibrations as part of their communication system. As playback experiments are challenging with this species, this study looked at the physical propagation of the signal of Nicrophorus vespilloides Herbst (Coleoptera: Siliphidae) through three soil types, as well as behavior, to see whether vibrational communication is possible. The aims were to determine: (1) whether the soils used in the laboratory compare to soil from the field, (2) whether the distance of propagation is enough for the range the beetles cover during brood care, (3) whether the two sexes show a difference in stridulation likelihood, (4) whether propagation of defensive signals differs from brood care signals, and (5) whether we can determine a behavior during stridulations that shows a clear and useable reaction to the signal. We manipulated beetles to induce stridulation and then used laser Doppler vibrometers to record the signals using three substrates and various distances, alongside behavioral observations. We showed that the three substrates tested, peat, coconut coir, and forest soil, displayed differences in terms of vibrational propagation, and that burying beetle stridulation signals can be transmitted up to about 25 cm in the soil. We also showed that the location where the animals stridulate exerts a significant influence on the total duration and number of stridulations. Overall, vibrational communication is in principle conceivable in this species, as the signals are transmitted far enough in the natural substrate to allow complex communication, opening possibilities for vibrational communication during this biparental brood care. [ABSTRACT FROM AUTHOR]

Published

2024

5. Spatial and temporal variation in ambient vibratory noise and its impact potential on a common urban arthropod.

Author

Pessman, Brandi J., McGinley, Rowan, and Hebets, Eileen A.

Subjects

*SPIDER silk, *TRAFFIC noise, *INTERNET traffic, *TRAFFIC flow, *SPIDER webs, *SPIDERS

Abstract

Recent, rapid arthropod declines have been tied to human activity. Yet, the propensity for human‐produced noise to disturb the substrate‐borne (vibratory) channel remains virtually untested despite arthropods' ubiquitous use of vibratory information. Characterizing the vibratory landscape at biologically relevant scales is an essential initial step. We aimed to measure vibratory noise across space and time to assess its potential overlap with the urban–rural range and season of a funnel‐weaving spider, Agelenopsis pennsylvanica (C.L. Koch) (Araneae: Agelenidae), a common urban arthropod. We assessed 24‐h ambient vibrations (hereafter vibratory "noise") at 23 sites across urban–rural Lincoln, Nebraska (NE, USA), during the adult season of A. pennsylvanica (August–October). Vibratory noise (amplitude, Leq) varied by ~15 dB across sites overlapping with frequencies within A. pennsylvanica's sensitivity (20–1000 Hz). Urban vibratory noise was positively correlated with the principal component containing estimates of traffic‐induced vibrations (e.g., traffic volume, road proximity, and impervious cover), whereas rural noise levels correlated with probable harvest times. Our findings indicate spatial variation in noise in urban areas and seasonal noise variability in rural areas. We also tested how A. pennsylvanica—collected from four distinct noise survey sites—use their vibratory microhabitat. We assessed daily spider position and dry silk mass within a microcosm that played loud and quiet vibrations (white noise differing by ~15 dB) in separate but connected chambers. Age affected the chamber choice (hereafter "microhabitat use") of spiders collected from the loudest site, as younger adults associated with and used more silk in the loud chamber, but this effect decreased with age. As our data demonstrate that vibratory noise varies with A. pennsylvanica's microhabitat and season with a high potential for impacting behavior, we hypothesize that this environmental noise likely impacts other arthropods as well. [ABSTRACT FROM AUTHOR]

Published

2024

6. Vibrational communication in Scolypopa australis: characterising spontaneous and intrasexual calls in an invasive orchard pest.

Author

MacDougall, Mark S., Stringer, Lloyd D., Borthwick‐Taylor, Greer, and Nelson, Ximena J.

Subjects

*INTEGRATED pest control, *AGRICULTURAL pests, *PEST control, *HOMOPTERA, *CLUSTER analysis (Statistics)

Abstract

Vibrational communication in the Auchenorrhyncha is an avenue of growing interest, with many pesticide‐free vibrational pest control programmes against auchenorrhynchan agricultural pests continuing to be developed around the world. Passion vine hoppers (PVH), Scolypopa australis (Walker) (Hemiptera: Ricaniidae), are an economically damaging pest species in New Zealand, where they facilitate the growth of sooty mould in kiwifruit orchards. Scolypopa australis is already known to use vibrational signals, therefore a further understanding of the spectral and temporal characteristics of its calls will be an essential next step to developing vibration‐based pest management strategies. Here, we aimed to characterise the properties of spontaneous S. australis calls in solitary and intrasexual communication contexts. We used laser Doppler vibrometry to record vibrational signals produced by male and female S. australis (separately), when in groups of three or individually. We sorted calls and call sub‐units (syllables) into groups based on cluster analyses of various spatio‐temporal parameters. We define four male calls and three female calls, and newly describe a 'two‐syllable' calling structure that may be involved in male intrasexual competition. Certain syllables were more prevalent at the beginning or end of calls for males, and were more homogenously distributed throughout calls for females. The types of calls used differed between single males and groups, with more energetically intense call types observed in the group settings. Additional studies on the behavioural context of S. australis vibrational calls and their responses to playback of such calls will be necessary to assess the viability of vibration‐based pest management for this species. [ABSTRACT FROM AUTHOR]

Published

2024

7. Vibrations as a new tool for pest management – a review.

Author

Yanagisawa, Ryuhei, Tatsuta, Haruki, Sekine, Takayuki, Oe, Takaho, Mukai, Hiromi, Uechi, Nami, Koike, Takuji, Onodera, Ryuichi, Suwa, Ryuichi, and Takanashi, Takuma

Subjects

*MYCETOPHILIDAE, *GREENHOUSE whitefly, *INTEGRATED pest control, *PEST control, *HEMIPTERA, *STINKBUGS, *SWEETPOTATO whitefly

Abstract

Sensory stimuli are essential for arthropod survival and reproduction. Given the widespread use of vibrational communication among diverse taxa, exploiting vibrational senses has great potential for successful pest management. In this review, we summarize our recent findings on vibration‐based pest management and future perspectives in the context of integrated pest management. We first examine the management of whiteflies – the tobacco whitefly, Bemisia tabaci (Gennadius) and the greenhouse whitefly, Trialeurodes vaporariorum (Westwood) (Hemiptera: Aleyrodidae) – in various facilities where tomatoes are cultivated. We then explore the recent application of vibration for the control of fungus gnats of the genus Neoempheria (Diptera: Mycetophilidae) infesting shiitake mushrooms. Finally, we discuss the control of the brown‐winged green stink bug, Plautia stali Scott (Hemiptera: Pentatomidae), a pest of fruit trees in Japan. Notably, our trials have demonstrated that vibrational treatments are profitable not only for reducing pest populations but also for indirect benefits such as increased crop yields or the enhancement of pest control effectiveness. [ABSTRACT FROM AUTHOR]

Published

2024

8. The role of substrate‐borne vibrational signals in the sexual communication of the painted bug, Bagrada hilaris.

Author

Scala, Marica, Peccerillo, Chiara, Fouani, Jalal M., Nieri, Rachele, Baser, Nuray, Verrastro, Vincenzo, Cristofaro, Massimo, Anfora, Gianfranco, and Mazzoni, Valerio

Subjects

*LASER Doppler vibrometer, *STINKBUGS, *ANIMAL sexual behavior, *AGRICULTURAL pests, *SEARCHING behavior

Abstract

The invasive alien stink bug Bagrada hilaris (Burmeister) (Hemiptera: Pentatomidae), native to eastern‐southern Africa and central‐southern Asia, poses significant economic threats to agroecosystems due to its polyphagous diet with a preference for brassicaceous crops. Current control methods using broad‐spectrum insecticides are expensive and often result in significant negative ecological impacts, as well as posing a health risk to consumers. This study provides a detailed description of the mating behavior of B. hilaris, with the aim to ascertain whether substrate‐borne vibrations have a role in premating phases. Such knowledge may contribute to the development of alternative biorational control techniques employing vibrational strategies. Virgin adults were tested individually or in pairs on different substrates, that is, a loudspeaker membrane and a bean plant. Vibrations emitted by males and females were recorded using a laser Doppler vibrometer, and the following spectral and temporal parameters were analyzed: fundamental frequency, emission time, repetition time, and signal modulation. Three distinct types of vibration emitted by males and females were identified: a male vibrotype (MV‐1), a female vibrotype (FV), and a copula signal exclusively emitted by males (MS‐2). MV‐1 and FV were emitted prior to genitalia contact, whereas MS‐2 was emitted within the mounting and engagement phases. Statistical analysis revealed significant transitions in behavioral phases for couples that achieved mating. By analyzing the walking behavior, there was an inverse relationship between motility and signal emission when comparing the two sexes, which suggests that males might engage in a form of searching behavior. These findings provide insight into the crucial role of vibrational communication to achieve mating in B. hilaris. [ABSTRACT FROM AUTHOR]

Published

2024

9. The impact of acoustic signalling on offspring performance varies among three biparentally caring species.

Author

Conrad, Taina, Mair, Magdalena M., Müller, Julia, Richter, Peter, Schödel, Sophie, Wezstein, Ann-Kathrin, and Steiger, Sandra

Subjects

*BURYING beetles, *LARVAL dispersal, *SOUND production by insects, *TELECOMMUNICATION systems, *PARENTS, *ANIMAL clutches

Abstract

Communication plays a fundamental role in the evolution of any form of cooperative behaviour, such as parental care. However, it can be challenging to understand the specific role of certain signals and how they might have evolved into complex communication systems. To investigate what effect a lack of acoustic communication can have on brood care and offspring performance, we silenced parents of biparentally caring burying beetles with a noninvasive method and studied the effect on clutch and offspring performance. Moreover, by analysing three species with varying degrees of offspring dependency on parental care, we aimed to investigate how differing acoustic communication is related to the level of their dependency and if those two align in some way. We used Nicrophorus pustulatus , a nondependent species, Nicrophorus orbicollis , a highly dependent species and Nicrophorus vespilloides , an intermediately dependent species. We found strong effects of silencing parents on offspring performance in all three species. The lack of stridulations impacted offspring weight across all three species. However, our results point towards a difference between species in which development stage communication had the most substantial impact. Looking at larval weight at dispersal, the effects seem to be in line with the larval dependency in the way we would have expected, with N. orbicollis being the most strongly affected, N. vespilloides being also affected and N. pustulatus not being affected. However, looking more closely, we found various differences at other time points and also that larval survival was strongly affected in N. pustulatus. Few studies have looked at the exact function of acoustic signals during brood care with most of them focusing on what type of different signals are emitted rather than what effect they have. Our study is one of the first to start disentangling the interplay of communication and offspring performance. • Silencing parents has a strong effect on offspring performance in burying beetles. • Different species of Nicrophorus differ in communication during brood care. • The larvae of silenced parents are at a disadvantage. • More dependent species do not, per se, rely more on communication. [ABSTRACT FROM AUTHOR]

Published

2024

10. Substrate-borne vibrations produced during the interaction with natural enemies alter aphids probing behavior.

Author

Zippari, Caterina, Nieri, Rachele, Hamouche, Zeinab, Boucherf, Abderrahmane, Tamburini, Giovanni, Anfora, Gianfranco, Verrastro, Vincenzo, Mazzoni, Valerio, and Cornara, Daniele

Subjects

*GREEN peach aphid, *INSECT host plants, *PEST control, *PLANT viruses, *HOST plants, *APHIDS

Abstract

The "ecology of fear", i.e., physiological and behavioral alterations displayed by pests in response to predation risk, has recently been proposed as a sustainable alternative to chemicals for pest control. However, the development of such a strategy requires a detailed understanding of the signals and cues underlying the pest-antagonist interaction and eliciting the prey behavioral alteration. Here, we characterized the substrate-borne vibrations produced during the interaction between the green peach aphid Myzus persicae and its antagonists, the parasitoid wasp Aphidius colemani and the ladybug Adalia bipunctata. Thereafter, coupling the electrical penetration graph (EPG) with a stimulus controller, we evaluated whether the playback of the vibrations, alone and in combination with the alarm pheromone, impacted aphid probing behavior and interaction with the host plant. Aphids responded to vibrations exhibiting longer non-probing, shorter intracellular probes, i.e. the behavior through which the insect evaluates host plant quality, delay in accessing the phloem vessels and decrease of the frequency of phloem salivation events. In contrast, on plants treated with the alarm pheromone, insects displayed longer intracellular probes. We hypothesize that the alarm pheromone, signaling a distant threat, might induce a careful evaluation of the host plant in order to decide the magnitude of the reaction. On the other hand, vibrations might indicate a closely approaching threat pushing the aphid to rush the host evaluation process and the whole feeding process. The possible repercussion of the behavioral alterations observed on the dynamics of aphid-borne plant virus transmission is also discussed. [ABSTRACT FROM AUTHOR]

Published

2024

11. Detection and characterization of incidental vibrations from Drosophila suzukii in infested fruits.

Author

Fellin, Lorenzo, Bertagnolli, Giulia, Mazzoni, Valerio, Anfora, Gianfranco, Agostinelli, Claudio, Rossi Stacconi, Marco Valerio, and Nieri, Rachele

Subjects

*DROSOPHILA suzukii, *FRUIT ripening, *INTRODUCED species, *AGE groups, *VIBRATIONAL spectra, *BERRIES, *BLUEBERRIES

Abstract

The spotted-wing drosophila (SWD), Drosophila suzukii (Matsumura), is an invasive species native to East Asia and now widespread worldwide. Major economic damage is caused by the larvae developing within ripening soft-skin fruit. Currently, larval detection in fruit is limited to destructive methods and post-harvest control strategies heavily rely on the use of chemicals or cold to inhibit egg eclosion and larval growth. Feeding larvae are likely to induce substrate-borne vibrations in the berry that could be exploited as cues by predators or to develop a non-invasive pest detection method, an approach previously applied on leaves and wooden structures, but never on fresh fruit. We used a laser vibrometer to detect and characterize the incidental vibrations produced by D. suzukii larvae within fresh blueberries at five different pest age (48, 96, 168, 216 and 264 h). An innovative statistical analysis was performed to assess if infestation level (number of pupae) and pest age (hours after exposure) affect the spectrum and the amplitude of vibrations. The recordings of infested berries were characterized by the presence of a series of broad-band pulses (frequency range 0.1–2 kHz) without a regular temporal pattern, in an amplitude range between 12.1 and 946 µm/s. Furthermore, the analysis revealed the possibility to distinguish between different pest ages and infestation levels. By a spectral analysis of the recordings, the pest ages can be distinguished among each other, but for the age groups at 168 and 216 h after infestation. The vibration amplitude trend gradually increased up to 168–216 h after infestation, and then decreased until fly emergence. Low-infested blueberries showed a faster D. suzukii development time compared to high-infested blueberries. This was reflected into vibrational recordings, as low-infested blueberries exhibited peak amplitude at earlier stage compared to high-infested ones. Results suggest that D. suzukii larvae induce detectable vibrations by feeding within berries that are dependent on infestation level and pest age. We discuss the possible ecological role of such vibrations as cues for unintended receivers, such as predators and parasitoids, and their potential for innovative infestation detection methods. [ABSTRACT FROM AUTHOR]

Published

2024

12. A membrane between chordotonal organs in the subgenual organ complex of the stick insect Peruphasma schultei.

Author

STRAUß, Johannes

Abstract

The subgenual organ complex in stick insects (Phasmatodea) consists of two mechanosensory chordotonal organs, the subgenual organ and distal organ, both located in the haemolymph channel in the tibia of the stick insects. The subgenual organ is a highly sensitive receptor organ for substrate vibrations, which are transferred in the haemolymph channel, while the distal organ has not yet been studied in detail physiologically. The neuroanatomy of the subgenual organ complex is unique to stick insects. A membrane between both organs occurs in different Phasmatodea - Carausius morosus (Sinety), Sipyloidea sipylus (Westwood) and Oreophoetes peruana (Saussure). Between the two sensory organs, the thin membrane is placed horizontally in the tibia. The present study investigates the species Peruphasma schultei (Conle et Hennemann) (Phasmatodea: Pseudophasmatidae: Pseudophasmatinae) from South America (Peru) as a representative of Pseudophasmatinae, a prominent group of neotropical stick insects, for the functional morphology of the chordotonal organs. The aim is to provide insights on the sensory complex from an additional stick insect species and on the similarity of the functional morphology. The present work revealed that in P. schultei the fine membrane occurs in both female and male individuals and in all leg pairs. The membrane was absent in a few leg preparations analysed, in which there was either a close contact or a gap between the subgenual organ and the distal organ. The presence of a membrane connection hints at a coupling between the sensory organs which is presumably also relevant for the mechanosensory functions, indicating that the distal organ may also respond to substrate vibrations. [ABSTRACT FROM AUTHOR]

Published

2024

13. On the function of a female-like signal type in the vibrational repertoire of Enchenopa male treehoppers (Hemiptera: Membracidae).

Author

Escalante, Ignacio, Kellner, Jerald R, Desjonquères, Camille, Noffsinger, Gianna M, Cirino, Lauren A, Rodríguez, Ariel N, DeLong, Sage A, and Rodríguez, Rafael L

Subjects

*SEXUAL selection, *MALES, *POTENTIAL functions, *COURTSHIP

Abstract

Animals often mimic the behaviours or signals of conspecifics of the opposite sex while courting. We explored the potential functions of a novel female-like signal type in the courtship displays of male Enchenopa treehoppers. In these plant-feeding insects, males produce plant-borne vibrational advertisement signals, to which females respond with their own duetting signals. Males also produce a signal type that resembles the female duetting responses. We experimentally tested whether this signal modifies the behaviour of receivers. First, we tested whether the female-like signal would increase the likelihood of a female response. However, females were as likely to respond to playbacks with or without them. Second, we tested whether the female-like signal would inhibit competing males, but males were as likely to produce displays after playbacks with or without them. Hence, we found no evidence that this signal has an adaptive function, despite its presence in the courtship display, where sexual selection affects signal features. Given these findings, we also explored whether the behavioural and morphological factors of the males were associated with the production of the female-like signal. Males that produced this signal had higher signalling effort (longer and more frequent signals) than males that did not produce it, despite being in worse body condition. Lastly, most males were consistent over time in producing the female-like signal or not. These findings suggest that condition-dependent or motivational factors explain the presence of the female-like signal. Alternatively, this signal might not bear an adaptive function, and it could be a way for males to warm up or practice signalling, or even be a by-product of how signals are transmitted through the plant. We suggest further work that might explain our puzzling finding that a signal in the reproductive context might not have an adaptive function. [ABSTRACT FROM AUTHOR]

Published

2024

14. Effects of Leaf Moisture on Transmission and Detection of Communication by a Wolf Spider.

Author

Uetz, George W., Sweger, Alexander L., Bagirov, Emmanuel, Lallo, Madeline, Horton, Christina, Bauer-Nilsen, Olivia, Upadhyaya, Riddhi, Miles, Abbey, and Gilbert, Rachel

Subjects

*WOLF spiders, *SPIDERS, *BIRDSONGS, *FOREST litter, *CLIMATE change, *JUMPING spiders, *BIRDS of prey

Abstract

In the multimodal communication of Schizocosa ocreata wolf spiders, males respond to chemical signals from females with visual and substrate-borne vibratory signals for courtship. We examined the effect of wet vs. dry leaves on transmission of male courtship signals, responses of male spiders to female chemical cues, responses of courting males to bird calls indicating predator presence, and mating success. Laser Doppler vibrometry showed that spider stridulation and percussive signals maintain higher amplitude over distance on dry leaves than on wet leaves. Male response to chemical cues (courtship latency and rate) declined after leaves with female silk became wet. In response to predatory bird calls (Blue Jays) transmitted through leaf surfaces, courting male spiders on dry leaves responded with anti-predator "freeze" behaviors more often and with longer duration than those on wet leaves, and with longer latency to return to courtship on wet leaves. Laser Doppler vibrometry confirmed that bird calls on dry leaves had significantly greater average amplitude and different spectral profiles than those on wet leaves. Males courted females on wet and dry leaves with equal frequency, but subsequent mating success was significantly greater on dry leaf litter. Interestingly, visual signals increased on wet leaves, suggesting compensatory behavior in response to moisture. Given a predicted change in precipitation in parts of North America because of global climate change, these results suggest potential for impact on behavior of invertebrates at the microhabitat level. [ABSTRACT FROM AUTHOR]

Published

2023

15. What's shaking for caterpillars? Leaf-borne vibratory stimuli and behavioral responses in the fall armyworm, Spodoptera frugiperda.

Author

Turchen, Leonardo M., Cosme Jr., Lírio, Yack, Jayne E., and Guedes, Raul Narciso C.

Subjects

*FALL armyworm, *CATERPILLARS, *FREQUENCIES of oscillating systems, *STIMULUS & response (Psychology), *ARMYWORMS

Abstract

Leaf-borne vibrations are predicted to be significant for caterpillar communication and risk assessment, but the caterpillar's vibratory landscape remains largely unknown. To address this, we used the fall armyworm Spodoptera frugiperda, as a model in our study with two main goals: (1) to characterize the vibratory landscape on a leaf in the presence of abiotic (wind and rain) and biotic (conspecifics and invertebrate predator) stimuli; and (2) to assess whether different larval instars detect and respond to those vibrations. Our findings show that abiotic and biotic vibrations were distinct from background noise, except for those produced by 1st instar larvae. Wind-induced leaf movement produced vibrations with a low-frequency and high-amplitude (< 100 Hz and 2.97 mm s−1), in contrast with raindrops (> 174 Hz; 3.25 mm s−1). The 2nd to 5th instar larvae and predatory stinkbugs moving on leaves produced vibrations with dominant frequencies ranging from 140 to 326 Hz and amplitudes from 1.42 to 2.95 mm s−1. Furthermore, the spatial distribution of vibrations across bean leaves revealed that abiotic vibrations were more widely spread across leaves, unlike the more concentrated biotic vibrations. Regarding the caterpillar response to vibratory stimuli, caterpillars exposed to abiotic stimuli behaved differently from undisturbed caterpillars, regardless of instar. By contrast, caterpillars exposed to biotic stimuli do not respond consistently. Our findings contribute insights into a caterpillar's vibroscape and support the hypothesis that armyworms can perceive and respond to both abiotic and biotic vibrations, filling a knowledge gap about this economically important pest species' sensory ecology. [ABSTRACT FROM AUTHOR]

Published

2023

16. Nonlinear changes in selection on a mating display across a continuous thermal gradient.

Author

Rosenthal, Malcolm Fogelin and Elias, Damian O

Subjects

biotremology, mate choice, sexual selection, thermal ecology, Biological Sciences, Medical and Health Sciences, Agricultural and Veterinary Sciences

Abstract

Understanding how animal communication varies across time and space is critical to understanding how animal signals have evolved and how they function. Changes in temperature, which occur across both time and space, can alter both the courtship and mate choice behaviour of ectothermic animals. In this study, we examine the effect of daily thermal variation on courtship and mate choice in the wolf spider Schizocosa floridana, which produces a complex song with vibrations from three distinct body parts. We test the hypothesis that different components of S. floridana's courtship respond differently to daily changes in temperature and that corresponding mate choice patterns lead to complex, overlapping shifts in selection on the display itself. By manipulating the thermal environment of courting and choosing pairs, we found that several song components increased in production rate with increased temperature, whereas others decreased, or did not respond at all. We also found evidence that selection on courtship shifts with temperature in several ways, with some display components experiencing directional selection at higher temperatures, but not at lower temperatures. Our findings make it clear that understanding the effect of environmental variation on communication is critical to understanding how selection operates on mate choice and how signals, particularly complex signals, evolve.

Published

2019

17. Anthropogenic noise and the bioacoustics of terrestrial invertebrates.

Author

Raboin, Maggie and Elias, Damian O

Subjects

Animals, Invertebrates, Noise, Acoustics, Animal communication, Behavior, Biotremology, Constraints, Far-field sound, Masking, Near-field sound, Noise pollution, Plasticity, Substrate-borne sound, Physiology, Biological Sciences, Medical and Health Sciences

Abstract

Anthropogenic noise is an important issue of environmental concern owing to its wide-ranging effects on the physiology, behavior and ecology of animals. To date, research has focused on the impacts of far-field airborne noise (i.e. pressure waves) on vertebrates, with few exceptions. However, invertebrates and the other acoustic modalities they rely on, primarily near-field airborne and substrate-borne sound (i.e. particle motion and vibrations, respectively) have received little attention. Here, we review the literature on the impacts of different types of anthropogenic noise (airborne far-field, airborne near-field, substrate-borne) on terrestrial invertebrates. Using literature on invertebrate bioacoustics, we propose a framework for understanding the potential impact of anthropogenic noise on invertebrates and outline predictions of possible constraints and adaptations for invertebrates in responding to anthropogenic noise. We argue that understanding the impacts of anthropogenic noise requires us to consider multiple modalities of sound and to cultivate a broader understanding of invertebrate bioacoustics.

Published

2019

18. The Effect of the Sterile Insect Technique on Vibrational Communication: The Case of Bagrada hilaris (Hemiptera: Pentatomidae).

Author

Peccerillo, Chiara, Mainardi, Chiara Elvira, Nieri, Rachele, Fouani, Jalal Melhem, Cemmi, Alessia, Cristofaro, Massimo, Anfora, Gianfranco, and Mazzoni, Valerio

Subjects

*ANIMAL courtship, *ANIMAL sexual behavior, *RADIATION sterilization, *INSECTS, *AGRICULTURAL pests, *STINKBUGS, *HEMIPTERA

Abstract

Simple Summary: The sterile insect technique (SIT) is an eco-friendly control strategy, but to implement it effectively, the insects that are subject to sterilization through irradiation should have fitness levels that are comparable to wildtype individuals. This study aims to evaluate the potential use of this technique for the control of Bagrada hilaris by investigating the efficacy of courtship in pairs of insects with untreated females and males irradiated at 60 and 100 Gy under laboratory conditions, with a focus on vibrational communication. Males irradiated at 60 Gy and the controls (unirradiated males) exhibit reproductive behaviors and mating abilities that are similar to each other, while insects irradiated at 100 Gy show a severe decrease in the quality of sexual performance. The painted bug, Bagrada hilaris, is an agricultural pest in its original areas (Africa, South Asia, and the Middle East), and it has recently been recorded as an invasive species in southwestern part of the US, Chile, Mexico, and two islands in the Mediterranean basin. Its polyphagous diet causes severe damage to economically important crops. The control of this pest is primarily achieved by means of synthetic pesticides, which are often expensive, ineffective, and harmful to the ecosystem. Recent physiological bioassays to assess its potential control through the sterile insect technique demonstrated that mating between untreated females and males irradiated at doses of 64 and 100 Gy, respectively, resulted in 90% and 100% sterility of the eggs produced by the females. In this study, the mating abilities of virgin males irradiated at 60 and 100 Gy with virgin females were measured through a study of short-range courtship mediated by vibrational communication. The results indicate that males irradiated at 100 Gy emit signals with lower peak frequencies, mate significantly less than unirradiated males do, and do not surpass the early stages of courtship. Conversely, males irradiated at 60 Gy present vibrational signal frequencies that are comparable to those of the control and successfully mated males. Our findings suggest that B. hilaris individuals irradiated at 60 Gy are good candidates for the control of this species, given that they retain sexual competitiveness regardless of their sterility, through an area-wide program that incorporates the sterile insect technique. [ABSTRACT FROM AUTHOR]

Published

2023

19. Vibrational signals are species‐specific and sex‐specific for sexual communication in the tea leafhopper, Empoasca onukii.

Author

Zhang, Huining, Bian, Lei, Cai, Xiaoming, Yao, Qi, Fu, Nanxia, Shan, Yao, and Chen, Zongmao

Subjects

*LEAFHOPPERS, *ANIMAL sexual behavior, *TEA, *GRAPES, *SIGNALS & signaling

Abstract

Empoasca onukii Matsuda (Hemiptera: Cicadellidae) is the primary pest of tea gardens, but the species' sexual communication and mating behavior is currently unclear. A similar species, Empoasca vitis Göthe, had been reported to use vibrational signals for mating communication, so we studied these two aspects from the perspective of biotremology. First, laser vibrometry detected both males and females could emit vibrational signals that are sex specific. Females emitted one signal type (the female signal), and males emitted two signal types: the male calling signal and the male courtship signal. Compared with the male signals, the female signal has a simpler structure, lower dominant frequency, and shorter length. Second, the vibrational signals of E. onukii play a decisive role in sexual communication. The male emits calling signals and then recognizes the female based on her reply signal; after establishing a duet with the female, the male emits a series of courtship signals, and then continually locates and approaches the female according to her reply signals, and finally attempts to copulate. Third, vibrational signals of E. onukii are species‐specific. Comparing E. onukii and E. vitis, there are differences in three aspects: the emitting behavior of female signals, the types of male signals, and the structure of male and female signals. We conclude that E. onukii uses sex‐ and species‐specific vibrational signals for sexual communication. [ABSTRACT FROM AUTHOR]

Published

2023

20. Temperature alters multimodal signaling and mating success in an ectotherm

Author

Brandt, Erin E, Kelley, J Patrick, and Elias, Damian O

Subjects

Zoology, Ecology, Biological Sciences, Behavioral and Social Science, Basic Behavioral and Social Science, Communication, Temperature, Thermal ecology, Salticidae, Sexual selection, Multimodal signals, Vibratory communication, Biotremology, Environmental Sciences, Agricultural and Veterinary Sciences, Behavioral Science & Comparative Psychology, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences

Abstract

Abstract: Temperature affects ectotherms in a variety of ways. These effects can be especially complex in sexual behaviors, as different sexes may be affected differently by temperature. We examined this in the jumping spider, Habronattus clypeatus. In this species, males court females using visual and vibratory signals. We tested whether key intersexual behaviors would change with temperature in similar, predictable ways across males and females. We first measured temperature and apparent activity of individuals across the day. We found that H. clypeatus are active across a wide range of temperatures (11–56 °C) and are most active at times of day when temperature ranges from 13 to 46 °C. Next, we performed mating experiments across behaviorally relevant temperatures. Females were more likely to allow males to progress to later stages of courtship and had higher mating rates at higher temperatures. Male visual and vibratory courtship behaviors generally became faster, higher-pitched, and lower in amplitude at higher temperatures. This relationship between temperature and signal aspects attained a roughly curvilinear shape, with an asymptote around 40 °C. Intriguingly, mating rates in the lab were highest at temperatures potentially above those during peak spider activity in the field. Our results suggest that temperature’s effects on behavior are complex and can affect males and females differently. This work emphasizes that understanding temperature effects on mating is critical to understanding sexual selection patterns particularly in species which use complex signals. Significance statement: Temperature affects communication in most ectothermic species. Previous research has shown that temperature changes courter signals and chooser choice. However, this has never been investigated in species that use multimodal signals. We investigate how signals and choice change across temperatures in a desert-dwelling jumping spider. Using field temperature/activity modeling and a series of courtship experiments in the lab, we show that male signals and female choice change with temperature across biologically relevant ranges. Our results suggest that the temperatures at which mating is most likely occur at times of the day when animals are least active. These counterintuitive results highlight the importance of understanding how behavior in a controlled lab environment corresponds to natural field conditions as well as the importance of examining the effects of naturally occurring environmental variation on behavior.

Published

2018

21. Substrate‐borne vibrational signals and stridulatory organs for sexual communication in leafminer, Liriomyza sativae (Diptera: Agromyzidae).

Author

Zhang, Qikai, Wu, Shengyong, Xing, Zhenlong, Wang, Haihong, and Lei, Zhongren

Subjects

*GENITALIA, *AGROMYZIDAE, *DIPTERA, *SCANNING electron microscopy, *HOST plants

Abstract

The vegetable leafminer (Liriomyza sativae [Burgess]) is a highly polyphagous pest that threatens vegetables and horticultural plants. Although sexual communication is a key component of the animal behavioral repertoire, the mechanism underlying sexual communication in L. sativae remains to be elucidated. Here, we used laser vibrometry to characterize the vibrational signals emitted by L. sativae during pair formation. By emitting trains of vibrational pulses (male calling) the male initiated communication on the host plant. The female then became immobile and responded to the male calling by emitting replies (female replies), which in turn triggered male replies consisting of a rapid series of chirps and trills. If the female replied, a continuous exchange of male and female replies ensued, representing a duet. In playback trials, a playback signal caused responses from the opposite sex. Moreover, scanning electron microscopy revealed vibration‐producing stridulatory organs in both male and female individuals. The files in males were more developed than those in females, and older male specimens had more signs of abrasion. The results provide new insight into the mating biology of L. sativae. [ABSTRACT FROM AUTHOR]

Published

2023

22. Effect of natural abiotic soil vibrations, rainfall and wind on anuran calling behavior: a test with captive-bred midwife toads (Alytes obstetricans).

Author

De Luca, Jacopo, Zaffaroni-Caorsi, Valentina, Bosch, Jaime, Llusia, Diego, Beltrán, Juan Francisco, and Márquez, Rafael

Subjects

*RAINFALL, *SOIL vibration, *TOADS, *MIDWIVES, *STIMULUS & response (Psychology)

Abstract

Anurans are known to detect vibrations, but few studies explore relationships between vibrations and resultant behaviors. We studied the reaction of calling captive-bred male midwife toads (Alytes obstetricans) to the randomized playback of a vibrational crescendo stimulus train. We considered two sources of natural abiotic vibrational stimuli: rainfall and wind. Rainfall was expected to induce calling and wind was expected to inhibit it. Playback experiments with two synthetic tones (200 Hz and 300 Hz) tested the sensitivity to pure tones and could possibly reveal a hearing sensitivity trend between these frequencies. The toads did not increase call rate in response to rainfall vibrations and only one of the five wind stimulus levels caused a significant decrease in call rate. This limited response could be explained, because the tested toads came from a captive population, where emergence may not be mediated by rainfall vibrations. We found that A. obstetricans is highly sensitive to very low frequencies, which could explain the sensitivity observed to vibrational stimuli. Playback of a random crescendo stimulus train proves to be a valid approach for addressing behavioral questions. However, the use of a captive population may have been a limitation in the clarity of the results. [ABSTRACT FROM AUTHOR]

Published

2023

23. Functional Diversity of Vibrational Signaling Systems in Insects.

Author

Virant-Doberlet, Meta, Stritih-Peljhan, Nataša, žunič-Kosi, Alenka, and Polajnar, Jernej

Subjects

*INSECTS, *TELECOMMUNICATION systems, *HUMAN sexuality, *SOUND production by insects, *PEST control

Abstract

Communication by substrate-borne mechanical waves is widespread in insects. The specifics of vibrational communication are related to heterogeneous natural substrates that strongly influence signal transmission. Insects generate vibrational signals primarily by tremulation, drumming, stridulation, and tymbalation, most commonly during sexual behavior but also in agonistic, social, and mutualistic as well as defense interactions and as part of foraging strategies. Vibrational signals are often part of multimodal communication. Sensilla and organs detecting substrate vibration show great diversity and primarily occur in insect legs to optimize sensitivity and directionality. In the natural environment, signals from heterospecifics, as well as social and enemy interactions within vibrational communication networks, influence signaling and behavioral strategies. The exploitation of substrate-borne vibrational signaling offers a promising application for behavioral manipulation in pest control. [ABSTRACT FROM AUTHOR]

Published

2023

24. Frog embryos use multiple levels of temporal pattern in risk assessment for vibration-cued escape hatching.

Author

Jung, Julie, Guo, Ming, Crovella, Mark E., McDaniel, J. Gregory, and Warkentin, Karen M.

Subjects

*EMBRYOS, *RISK assessment, *FROGS, *EGG incubation, *MULTIPLE pregnancy, *PREDATION, *ANIMAL communication

Abstract

Stereotyped signals can be a fast, effective means of communicating danger, but animals assessing predation risk must often use more variable incidental cues. Red eyed-treefrog, Agalychnis callidryas, embryos hatch prematurely to escape from egg predators, cued by vibrations in attacks, but benign rain generates vibrations with overlapping properties. Facing high false-alarm costs, embryos use multiple vibration properties to inform hatching, including temporal pattern elements such as pulse durations and inter-pulse intervals. However, measures of snake and rain vibration as simple pulse-interval patterns are a poor match to embryo behavior. We used vibration playbacks to assess if embryos use a second level of temporal pattern, long gaps within a rhythmic pattern, as indicators of risks. Long vibration-free periods are common during snake attacks but absent from hard rain. Long gaps after a few initial vibrations increase the hatching response to a subsequent vibration series. Moreover, vibration patterns as short as three pulses, separated by long periods of silence, can induce as much hatching as rhythmic pulse series with five times more vibration. Embryos can retain information that increases hatching over at least 45 s of silence. This work highlights that embryo behavior is contextually modulated in complex ways. Identical vibration pulses, pulse groups, and periods of silence can be treated as risk cues in some contexts and not in others. Embryos employ a multi-faceted decision-making process to effectively distinguish between risk cues and benign stimuli. [ABSTRACT FROM AUTHOR]

Published

2022

25. Application of vibrational signals to study and manipulate an insect vector: the case of Philaenus spumarius (Hemiptera: Aphrophoridae).

Author

Avosani, Sabina, Ciolli, Marco, Verrastro, Vincenzo, and Mazzoni, Valerio

Subjects

XYLELLA fastidiosa, INSECT behavior, INSECT pests, AUDITORY masking, INSECTS, HEMIPTERA

Abstract

BACKGROUND: Vibrational stimuli can support pest management as they provide environmentally friendly methods to manipulate insect pest behaviors. Different vibrational stimuli were used to study and influence the behavior of the meadow spittlebug, Philaenus spumarius, the European vector of Xylella fastidiosa. In playback experiments, we tested the reactions of the spittlebug toward the male calling signals (test 1) and the male–male signal (test 2). In test 3, we evaluated the use of conspecific signals and noises to repel insects/disrupt mating. RESULTS: Test 1 provided new insights regarding the role of the male calling signal in intraspecific communication, in particular that this signal likely does not underlie aggregation or aggression toward conspecifics. Test 2 demonstrated that the male–male signal is used by males to express distress when physically interacting, whilst, when played back into a host plant, it has not any repellent effect on the spittlebug. Test 3A suggested that males exploit short silence gaps to localize the signaling partner, while test 3B showed that a continuous noise with a specific frequency range successfully disrupt mating, as only one male out of 20 localized the female on the plant. CONCLUSION: Playbacks obtained from prerecorded P. spumarius' signals were successfully used to accomplish ethological studies; even so, this approach did not show a real potential to be used as a control strategy. However, noises designed to mask the spittlebug signals significantly disrupted species mating and could integrate other techniques aimed at reducing the spread of X. fastidiosa after appropriate implementation. © 2022 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2022

26. The role of red coloration and song in peacock spider courtship: insights into complex signaling systems

Author

Girard, Madeline B, Kasumovic, Michael M, and Elias, Damian O

Subjects

Zoology, Ecology, Biological Sciences, biotremology, multimodal signals, peacock spider, sexual selection, vibrational signaling, visual signaling, Evolutionary Biology, Behavioral Science & Comparative Psychology, Evolutionary biology

Abstract

Research on animal signaling enhances our understanding of links between sensory processing, decision making, behavior, and evolution. Studies of sexually-selected signals may be particularly informative as mate choice provides access to decision patterns in the way that courtship leads to an easily observable behavioral output in choosers, i.e., mating. Male peacock spiders have some of the most elaborate and varied courtship displays known among animals. Particularly striking to human observers is the diversity of red, orange, and yellow ornaments that males exhibit across the genus. The primary objective of our research was to investigate how these visual ornaments interact with vibratory songs to affect female mating behavior of one species, Maratus volans. Accordingly, we conducted mating trials under a series of experimentally manipulated vibratory and lighting conditions. Contrary to expectation, chromatic characteristics of longer wavelength ornaments are not driving female mate choice decisions, despite their extensive presence on male fans. Instead, our results suggest that contrast is important to females. Additionally, we found that vibratory signals were not necessary and did not increase mating rates. Our study demonstrates the intricacies inherent in complex signaling systems.

Published

2018

27. Infection influences vibratory signal components in a wolf spider.

Author

Gilbert, Rachel and Uetz, George W.

Subjects

*WOLF spiders, *HEALTH status indicators, *SONGBIRDS, *PHOTOPLETHYSMOGRAPHY

Abstract

While most research on sexual signals as indicators of health status and infection has been focused on communication by visual (color), airborne acoustic (song structure, amplitude, frequency, and pattern), or chemical means, new evidence suggests that substrate‐borne vibratory signals can also be a reliable indicator of male quality and possibly infection history. In this study, we investigated the ability of the vibratory cues in multimodal sexual signals of Schizocosa ocreata wolf spiders to convey male health information to a female, and whether females adjust their mate choice decisions based on these cues. Individual components of the complete vibratory signal, including stridulatory pulse rate, mean amplitude, and peak amplitude, were all significant predictors of mating success in live trials. Males infected as a juvenile (during the penultimate molt) had significantly lower stridulatory rate and peak amplitude than control males. There were no significant differences in any of the vibratory signal components between control males and males infected as adults (1 h prior to mating trials). This suggests that the vibratory cues in this species may be altered when infection occurs during development, allowing females to avoid males that have been immunocompromised in the past. However, these cues are not reliable indicators of whether a male is actively infected, which means that the evaluation of these cues will not help a female avoid contact with infected individuals. Taken together, these results suggest that vibratory signals may convey honest information about male quality and past health, allowing females to choose mates that have not been compromised during development. [ABSTRACT FROM AUTHOR]

Published

2022

28. Low toxicity crop fungicide (fenbuconazole) impacts reproductive male quality signals leading to a reduction of mating success in a wild solitary bee.

Author

Boff, Samuel, Conrad, Taina, Raizer, Josué, Wehrhahn, Marten, Bayer, Melis, Friedel, Anna, Theodorou, Panagiotis, Schmitt, Thomas, and Lupi, Daniela

Subjects

*FUNGICIDES, *BEES, *CROPS, *BIOLOGICAL fitness, *MALES, *POLLINATORS, *PESTICIDES

Abstract

Recent reports on bee health suggest that sublethal doses of pesticides have negative effects on wild bee reproduction and ultimately on their population growth.Females of the solitary horned mason bee Osmia cornuta, evaluate thoracic vibrations and odours of males to assess male quality. When certain criteria are met, the female accepts the male and copulates. However, these signals were found to be modified by sublethal doses of pesticides in other hymenopterans. Here, we tested whether sublethal doses of a commonly used fungicide (Fenbuconazole) impact male quality signals and mating success in O. cornuta.Males exposed to fenbuconazole exhibited reduced thoracic vibrations and an altered cuticular hydrocarbon profile compared to the control bees. Moreover, males exposed to the fungicide were less successful in mating than control males.Synthesis and applications. Our results indicate that a low toxicity fungicide can negatively affect male reproductive success by altering behavioural and chemical cues. This could explain the decreasing pollinator populations in a pesticide‐polluted environment. This study highlights the need for a more comprehensive approach, including behaviour and chemical cues, when testing new pesticides and a more cautionary approach to the pesticides already used on crops. [ABSTRACT FROM AUTHOR]

Published

2022

29. Editorial: Advances in ecoacoustics

Author

Almo Farina, Alice Eldridge, Susan Fuller, and Gianni Pavan

Subjects

ecoacoustics epistemology, ecoacoustic methods, ecoacoustic monitoring, biotremology, machine learning, Evolution, QH359-425, Ecology, QH540-549.5

Published

2022

30. Varroa destructor mites regularly generate ultra-short, high magnitude vibrational pulses.

Author

Hall, Harriet, Bencsik, Martin, Newton, Michael I., Chandler, David, Prince, Gillian, and Dwyer, Scott

Subjects

*VARROA destructor, *MITES, *MUSCLE strength, *HONEYBEES, *VARROA, *BEE colonies

Abstract

The ectoparasitic mite Varroa destructor is considered one of the greatest threats to the honeybee Apis mellifera. To successfully manage mite populations residing in the colony, beekeepers must stay informed of infestation levels in their apiaries. The remote, non-destructive detection of Varroa mites in honeybee hives would therefore be highly desirable. Here we show that an ultra-sensitive (1000 mV/g) accelerometer can detect vibrational waveforms originating from one individual mite. We further focus on a commonly observed pulsing behaviour never before described, characterising its physical features, periodicity and strength. The spectral features of the detected pulses strongly depend on the substrate on which they are produced. The characteristics of the vibrational pulse, particularly its repeatability and strength, indicate that mite vibrations could be successfully detected in a fully populated honeybee hive. These features, combined with the remarkably high varroa muscular power output (up to 810nW) indicate that this pulse may be functional for the mite. Our results uncover an exciting novel behaviour and provide a foundation for the remote detection of mites in beehives using vibration capture. [ABSTRACT FROM AUTHOR]

Published

2022

31. Bug talk trends & biases: literature survey and meta-analyses of vibratory sensing and communication in insects.

Author

Turchen, Leonardo M., Cosme Jr., Lírio, Yack, Jayne E., and Guedes, Raul Narciso C.

Subjects

*INSECT communication, *SENSE organs, *STINKBUGS, *SENSORY receptors, *ANIMAL sexual behavior, *ADAPTIVE testing, *INSECT societies, *PUPAE

Abstract

Research on insect biotremology has resulted in a burgeoning body of literature over the past few decades. Despite this, several biases and knowledge gaps have been proposed, but not quantified. Therefore, a systematic literature review and meta-analyses were carried out to summarize the temporal trends and test for biases regarding taxa, developmental stages, and research topics reported in scientific papers spanning 75 years. The survey tracked 831 papers, which exhibited exponential growth since the 1990s and covered 17 insect orders. Among these studies, 70.4% were associated with adaptive behaviors, while the remaining (29.6%) focused on applied entomology and sensory organs. Three main biases were detected: (i) a prevalence of studies on Hemiptera, Hymenoptera, and Coleoptera, (ii) a focus on adults, and (iii) a preponderance of studies on reproductive behaviors. Considering only adaptive behaviors, the likelihood of studies with adults was 3× higher than for juveniles. Studies documenting receiver response were 2× higher than not. Still, few insect orders (9 of 17) included reports on vibrations used in an adaptive context, while studies reported in the remaining orders focused on mechanisms of vibration production or vibration characteristics. The results of this study highlight knowledge gaps worthy of future investigations. In particular, further research is necessary on the role of vibratory sensing and communication in juveniles (eggs, larvae, pupae, and nymphs), testing hypotheses on the adaptive roles of vibrations in a broader range of taxa, characterization of vibratory landscapes, and research on sensory receptors. [ABSTRACT FROM AUTHOR]

Published

2022

32. Semiochemicals, semiophysicals and their integration for the development of innovative multi-modal systems for agricultural pests’ monitoring and control.

Author

Nieri, Rachele, Anfora, Gianfranco, Mazzoni, Valerio, and Rossi Stacconi, Marco Valerio

Subjects

*AGRICULTURAL pests, *SEMIOCHEMICALS, *INSECT communication, *PEST control, *CHEMICAL ecology, *VINEYARDS

Abstract

Semiochemicals are informative molecules emitted by living organisms that affect the behavior of receivers. As herbivorous insects are primarily thought to depend on olfaction and taste for their intra- and interspecific communication, semiochemicals have been widely studied for pest management applications. However, given that pest behavior does not rely on just one communication modality, stimuli of physical nature, such as light, sounds and vibrations, can also be used to manipulate insect-insect or insect-plant interactions. Moreover, stimuli of different natures can be combined in a multimodal pest management program to increase the overall efficacy. Besides the widespread use of both chemical and physical signals in multimodal insect communication, the integration of stimuli has hardly been implemented for hardly any crop. This review introduces the term semiophysicals as opposed to semiochemicals and focuses on pest behavioral manipulation by discussing three main approaches; i) manipulation of pest orientation through attractive/repellent stimuli, ii) inhibition or promotion of specific pest behaviors and iii) interference with intraspecific communication through disruptive stimuli. For each approach, we provide examples of use of both semiochemicals and semiophysicals. Lastly, we describe the case study of the vineyard agroecosystem in the Trento province, where a multi-pest management program has been successfully developed, and we discuss future perspectives. [ABSTRACT FROM AUTHOR]

Published

2022

33. Variation in plant leaf traits affects transmission and detectability of herbivore vibrational cues

Author

Estefania Velilla, Jernej Polajnar, Meta Virant‐Doberlet, Daniel Commandeur, Ralph Simon, Johannes H. C. Cornelissen, Jacintha Ellers, and Wouter Halfwerk

Subjects

biotremology, leaf traits, plant‐borne vibrations, plant‐herbivore interactions, transmission, Ecology, QH540-549.5

Abstract

Abstract Many insects use plant‐borne vibrations to obtain important information about their environment, such as where to find a mate or a prey, or when to avoid a predator. Plant species can differ in the way they vibrate, possibly affecting the reliability of information, and ultimately the decisions that are made by animals based on this information. We examined whether the production, transmission, and possible perception of plant‐borne vibrational cues is affected by variation in leaf traits. We recorded vibrations of 69 Spodoptera exigua caterpillars foraging on four plant species that differed widely in their leaf traits (cabbage, beetroot, sunflower, and corn). We carried out a transmission and an airborne noise absorption experiment to assess whether leaf traits influence amplitude and frequency characteristics, and background noise levels of vibrational chewing cues. Our results reveal that species‐specific leaf traits can influence transmission and potentially perception of herbivore‐induced chewing vibrations. Experimentally‐induced vibrations attenuated stronger on plants with thicker leaves. Amplitude and frequency characteristics of chewing vibrations measured near a chewing caterpillar were, however, not affected by leaf traits. Furthermore, we found a significant effect of leaf area, water content and leaf thickness—important plant traits against herbivory, on the vibrations induced by airborne noise. On larger leaves higher amplitude vibrations were induced, whereas on thicker leaves containing more water airborne noise induced higher peak frequencies. Our findings indicate that variation in leaf traits can be important for the transmission and possibly detection of vibrational cues.

Published

2020

34. Design of ideal vibrational signals for stinkbug male attraction through vibrotaxis experiments.

Author

Caorsi, Valentina, Cornara, Daniele, Wells, Karen E, Moser, Damiano, Berardo, Alice, Miselli, Roberto, Torriani, Michele, Pugno, Nicola M, Tasin, Marco, Maistrello, Lara, and Mazzoni, Valerio

Subjects

BROWN marmorated stink bug, STINKBUGS, SEARCHING behavior, PHOTOPLETHYSMOGRAPHY

Abstract

BACKGROUND: Many groups of insects utilize substrate‐borne vibrations for intraspecific communication. This characteristic makes them a suitable model for exploring the use of vibrations as a tool for pest control as an alternative to the use of chemicals. Detailed knowledge of species communication is a prerequisite to select the best signals to use. This study explored the use of substrate‐borne vibrations for pest control of the brown marmorated stink bug (BMSB), Halyomorpha halys Stål (Heteroptera: Pentatomidae). For this purpose, we first identified the spectral and temporal characteristics that best elicit male responsiveness. Bioassays were conducted with artificial signals that mimicked the natural female calling signal. Second, we used the acquired knowledge to synthesize new signals endowed with different degrees of attractiveness in single‐ and two‐choice bioassays using a wooden custom‐made T stand. RESULTS: The results from this study showed that males were attracted to female signals along a high range of amplitudes, especially starting from a threshold of 100 μm s−1, a high pulse repetition time (1 s) and frequency peak corresponding to the first harmonic (76 Hz). This resulted in an "optimal" signal for use to attract males, while the choice test in the T arena showed that this signal elicits searching behavior and attracts BMSB males towards a stimulation point. CONCLUSION: We confirm the use of vibrational signals as a strong tool for behavioral manipulation of male BMSB and suggest its possible use in the development of field traps and further management of this pest. © 2021 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2021

35. Vibrational signalling, an underappreciated mode in cricket communication.

Author

Stritih-Peljhan, Nataša and Virant-Doberlet, Meta

Abstract

Signalling via substrate vibration represents one of the most ubiquitous and ancient modes of insect communication. In crickets (Grylloidea) and other taxa of tympanate Ensifera, production and detection of acoustic and vibrational signals are closely linked functionally and evolutionarily. Male stridulation produces both acoustic and vibrational signal components, the joint perception of which improves song recognition and female orientation towards the signaller. In addition to stridulation, vibrational signalling mainly through body tremulation and/or drumming with body parts on the substrate has long been known to be part of crickets' close-range communication, including courtship, mate guarding and aggression. Such signalling is typically exhibited by males, independently or in conjunction with stridulation, and occurs literally in all cricket lineages and species studied. It is further also part of the aggressive behaviour of females, and in a few cricket groups, females respond vibrationally to acoustic and/or vibrational signals from males. The characteristics and function of these signals have remained largely unexplored despite their prevalence. Moreover, the communication potential and also ubiquity of cricket vibrational signals are underappreciated, limiting our understanding of the function and evolution of the cricket signalling systems. By providing a concise review of the existing knowledge of cricket perception of vibrations and vibrational signalling behaviour, we critically comment on these views, discuss the communication value of the emitted signals and give some methodological advice respecting their registration and control. The review aims to increase awareness, understanding and research interest in this ancient and widespread signalling mode in cricket communication. [ABSTRACT FROM AUTHOR]

Published

2021

36. Escape-hatching decisions show adaptive ontogenetic changes in how embryos manage ambiguity in predation risk cues.

Author

Jung, Julie, McDaniel, J. Gregory, and Warkentin, Karen M.

Subjects

AMBIGUITY, EMBRYOS, ANIMAL behavior, COST effectiveness, ANIMAL cognition, INFORMATION-seeking behavior, EGG incubation, PREDATION

Abstract

As animals develop, their capacities to sense cues, assess threats, and perform actions change, as do the relative costs and benefits that underlie behavioural decisions. We presented ambiguous cues to test if hatching decisions of red-eyed treefrogs, Agalychnis callidryas, change developmentally following adaptive predictions based on changing costs of decision errors. These arboreal embryos hatch prematurely to escape from egg predators, cued by vibrations in attacks. Young embryos modulate hatching based on the frequency and temporal properties of cues, reducing false alarms that unnecessarily expose them to risk in the water. Since the cost of false alarms decreases developmentally, we hypothesized that hatching responses to ambiguous cues would increase. We tested this using vibration playbacks at two ages, with two sets of 3 stimuli. We matched sampling costs and varied ambiguity in either temporal or frequency properties, so one stimulus elicited high hatching (positive control) and two elicited low hatching but differed in ambiguity, based on prior results with younger embryos. Older embryos hatched faster, indicating reduced cue sampling. They responded strongly to both clear threat cues and ambiguous stimuli but little when either property clearly indicated low risk. In both experiments, we saw the greatest ontogenetic change in response to the more ambiguous stimulus. These playback experiments improve our understanding of how embryos facing risk tradeoffs make adaptive decisions based on incidental cues from predators. Ambiguity in incidental cues is ubiquitous and developmental changes in behaviour due to ontogenetic adaptation of decision processes are likely to be widespread. Significance statement: Animals must use imperfect information to guide their behavior, and the costs of decision errors often change with development. We found the decision rules that embryos apply to ambiguous cues to deploy escape behavior change developmentally, matching adaptive predictions based on changing cost–benefit tradeoffs. Our results, consistent across two different forms of ambiguity, suggest selection has shaped behavioral development to improve how embryos use ambiguous incidental cues for defense. This work both extends and generalizes earlier experiments varying the cost of information. It cautions against oversimplifying assumptions about embryo information use—at least for species and in contexts where a history of strong selective tradeoffs may have honed their capacity to make a key decision well—and demonstrates the value of vibration playbacks and embryo hatching behavior for research in animal cognition. [ABSTRACT FROM AUTHOR]

Published

2021

37. Vibrational disruption of feeding behaviors of a vector of plant pathogen.

Author

Avosani, Sabina, Berardo, Alice, Pugno, Nicola M., Verrastro, Vincenzo, Mazzoni, Valerio, and Cornara, Daniele

Subjects

*PHYTOPATHOGENIC microorganisms, *INSECT communication, *XYLELLA fastidiosa, *HOST plants, *INSECT-plant relationships

Abstract

Interference with the behaviors associated to host plant recognition, and inter- and intra-specific communication of insect vectors of plant pathogens, could represent a sustainable strategy for reducing or disrupting pathogen transmission Here, we show that the transmission over a suitable host plant (sunflower) of a vibrational stimulus significantly affects the probing and feeding behavior of the spittlebug Philaenus spumarius (Hemiptera: Aphrophoridae), the main European vector of the fastidious bacterium Xylella fastidiosa. Specifically, ca. 30% of the individuals did not even attempt to probe the sunflower plants to which the stimulus was transmitted, while the remaining showed a sex-independent reduction in ingestion of the xylem sap, i.e., P. spumarius' main food source, of ca. 67% compared to the control. Even so, the stimulus did not affect the feeding behavior when transmitted to olive plants. The possible reflection of a signal-based vector behavior disturbance on the epidemiology of X. fastidiosa, together with future research needs are discussed. [ABSTRACT FROM AUTHOR]

Published

2021

38. Revisiting stigmergy in light of multi-functional, biogenic, termite structures as communication channel

Author

Sebastian Oberst, Joseph C.S. Lai, Richard Martin, Benjamin J. Halkon, Mohammad Saadatfar, and Theodore A. Evans

Subjects

Termite structures, Complexity, Superorganism, Vibrational communication, Biotremology, Functional materials, Biotechnology, TP248.13-248.65

Abstract

Termite mounds are fascinating because of their intriguing composition of numerous geometric shapes and materials. However, little is known about these structures, or of their functionalities. Most research has been on the basic composition of mounds compared with surrounding soils. There has been some targeted research on the thermoregulation and ventilation of the mounds of a few species of fungi-growing termites, which has generated considerable interest from human architecture. Otherwise, research on termite mounds has been scattered, with little work on their explicit properties.This review is focused on how termites design and build functional structures as nest, nursery and food storage; for thermoregulation and climatisation; as defence, shelter and refuge; as a foraging tool or building material; and for colony communication, either as in indirect communication (stigmergy) or as an information channel essential for direct communication through vibrations (biotremology).Our analysis shows that systematic research is required to study the properties of these structures such as porosity and material composition. High resolution computer tomography in combination with nonlinear dynamics and methods from computational intelligence may provide breakthroughs in unveiling the secrets of termite behaviour and their mounds. In particular, the examination of dynamic and wave propagation properties of termite-built structures in combination with a detailed signal analysis of termite activities is required to better understand the interplay between termites and their nest as superorganism. How termite structures serve as defence in the form of disguising acoustic and vibration signals from detection by predators, and what role local and global vibration synchronisation plays for building are open questions that need to be addressed to provide insights into how termites utilise materials to thrive in a world of predators and competitors.

Published

2020

39. Vibrational playbacks and microscopy to study the signalling behaviour and female physiology of Philaenusspumarius.

Author

Avosani, Sabina, Franceschi, Pietro, Ciolli, Marco, Verrastro, Vincenzo, and Mazzoni, Valerio

Subjects

*HUMAN sexuality, *XYLELLA fastidiosa, *INSECT physiology, *PHYSIOLOGY, *ANIMAL behavior

Abstract

The meadow spittlebug Philaenus spumarius, vector of the bacterium Xylella fastidiosa, relies on vibrational communication to accomplish mating: the female calls to establish a duet with a male. A deeper knowledge of the species' reproductive biology and behaviour would provide useful information for developing control techniques based on principles of 'biotremology', which studies the vibrational behaviour of animals. Playback tests were conducted on single females and male–female pairs of P. spumarius from June to October 2018, and the features of the recorded calling signals were analysed using a wavelet decomposition. Dissections were performed on females to evaluate the relationship between calling activity and ovarioles development. From August onwards, females started to emit calling signals and to develop ovarioles. Female calling activity, duration of their chirps and their responsiveness to mating increased as the season progressed, and they were correlated with ovarioles' development and presence of mature eggs. Hence, the ovarian maturation represents a key factor in association with the development of the sexual behaviour of P. spumarius females. Conversely, males produced advertisement signals soon after adult eclosion in May, but these signals were not involved in the pair formation process. Mating was achieved only when males produced courtship signals in response to female calling signals and established with them vibrational duets starting from August. Here, we provide new information regarding the P. spumarius' ethology and hypothesize that potential mating disruption techniques should consider the insect physiology and be applied when both sexes are responsive to mating signals. [ABSTRACT FROM AUTHOR]

Published

2021

40. Stink Bug Inter-Plant Communication with Signals Produced by Vibration of Lifted Wings.

Author

Čokl, Andrej, Kosi, Alenka Žunič, Moraes, Maria Carolina Blassioli, Borges, Miguel, and Laumann, Raul Alberto

Subjects

*STINKBUGS, *ANIMAL sexual behavior, *INTRODUCED species, *MATE plant

Abstract

Stink bugs communicate while mating on a plant by means of the substrate-borne component of the species and sex-specific calling, courtship and rival signals, produced by vibration of the abdomen. Courtship conducted over a close visual distance, chemical contact and mechanical exchange of information terminates in copulation. Here we describe characteristics, differences between species, transmission properties and the behavioral context of the stink bugs Chinavia impicticornis, C. ubica and Euschistus heros in relation to their buzzing signals, produced by vibration of lifted wings. Comparison between species reveals their species' non-specific temporal parameters, characterized by irregular repetition rate and highly variable duration. Frequency spectral bands extend to several kHz above approximately 100 Hz, which is the fundamental frequency and significantly higher in E. heros compared with both Chinavia species. Buzzing signals, recorded predominantly in the very early phase of mating behavior, precede emission of signals produced by abdomen vibration. Males and females emit signals spontaneously when alone on a plant or together with conspecific or alien species mates. Transmission of wing-produced signals along the plant shows characteristics similar to those produced by abdomen vibration. We suggest that amplitudes, measured on distant plants in direct contact or through soil and roots, together with the high sensitivity of relevant vibrational receptors, enable stink bugs to communicate between plants, using substrate-borne vibratory signals outside the limits of the single plant. [ABSTRACT FROM AUTHOR]

Published

2021

41. Dragline silk reveals female developmental stage and mediates male vibratory courtship in the nuptial gift‐giving spider Pisaura mirabilis.

Author

Eberhard, Monika J. B., Möller, Timon A., Uhl, Gabriele, and Bertram, Susan

Subjects

*LASER Doppler vibrometer, *COURTSHIP, *SPIDER webs, *PHYSICAL contact, *CALORIC expenditure

Abstract

Male mate choice likely occurs when costs are associated with courtship or mating. For example, when males produce continuous vibrational signals, provide nutritious nuptial gifts, or are likely killed during mating, they should assess female developmental and reproductive state. Substrate‐borne vibratory courtship signals are very common in spiders serving species recognition, suppressing the female's aggression towards the male, or signalling individual quality. Males of the nursery web spider, Pisaura mirabilis, usually offer a prey item wrapped in silk as a nuptial gift to the female; the gift is commonly produced prior to female contact. When touching dragline silk deposited by a female, males tremulate their opisthosoma presumably reacting to chemical cues. Courtship energy expenditure and resource transfer should select for selective male mating decisions in this species. We hypothesized that male P. mirabilis differentiate between developmental stages of the female (sub‐adult vs. adult). Differential courtship towards virgin and mated females was not expected since females forage for nuptial gifts and might continuously signal receptivity. To test this, vibrational courtship signals of male spiders towards draglines of sub‐adult, adult unmated and mated females were recorded with a Laser Doppler Vibrometer. We found that males were less likely to perform vibrational courtship and produced less pulses when contacting silk of sub‐adult females, compared to silk produced by adult females, while their reaction towards silk of unmated and mated adult females did not differ. Reduced courtship in response to sub‐adult female silk seems beneficial since it reduces energy expenditure in the face of a not yet reproductive female. When vibratory courtship occurred, the temporal patterns and dominant frequencies of the males' vibratory signals were similar, regardless of female developmental stage or mating status. Such stable patterns suggest a role in species recognition already at a distance without direct physical contact and in reducing female aggression. [ABSTRACT FROM AUTHOR]

Published

2021

42. Control vs. Constraint: Understanding the Mechanisms of Vibration Transmission During Material-Bound Information Transfer

Author

Thomas E. Miller and Beth Mortimer

Subjects

biotremology, sensory ecology, physical ecology, morphological computation, Araneae, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Material-bound vibrations are ubiquitous in the environment and are widely used as an information source by animals, whether they are generated by biotic or abiotic sources. The process of vibration information transfer is subject to a wide range of physical constraints, especially during the vibration transmission phase. This is because vibrations must travel through materials in the environment and body of the animal before reaching embedded mechanosensors. Morphology therefore plays a key and often overlooked role in shaping information flow. Web-building spiders are ideal organisms for studying vibration information transfer due to the level of control they have over morphological traits, both within the web (environment) and body, which can give insights for bioinspired design. Here we investigate the mechanisms governing vibration information transfer, including the relative roles of constraints and control mechanisms. We review the known and theoretical contributions of morphological and behavioral traits to vibration transmission in these spiders, and propose an interdisciplinary framework for considering the effects of these traits from a biomechanical perspective. Whereas morphological traits act as a series of springs, dampers and masses arranged in a specific geometry to influence vibration transmission, behavioral traits influence these morphologies often over small timescales in response to changing conditions. We then explore the relative roles of constraints and control mechanisms in shaping the variation of these traits at various taxonomic levels. This analysis reveals the importance of morphology modification to gain control over vibration transmission to mitigate constraints and essentially promote information transfer. In particular, we hypothesize that morphological computation is used by spiders during vibration information transfer to reduce the amount of processing required by the central nervous system (CNS); a hypothesis that can be tested experimentally in the future. We can take inspiration from how spiders control vibration transmission and apply these insights to bioinspired engineering. In particular, the role of morphological computation for vibration control could open up potential developments for soft robots, which could use multi-scale vibration sensory systems inspired by spiders to quickly and efficiently adapt to changing environments.

Published

2020

43. Complex courtship in the Habronattus clypeatus group (Araneae: Salticidae).

Author

Rivera, Christine, Hedin, Marshal, Mason, Andrew C., Maddison, Wayne P., and Elias, Damian O.

Subjects

*COURTSHIP, *JUMPING spiders

Abstract

It is not uncommon to find courtship displays that incorporate numerous components across different sensory modalities. We studied displays in male jumping spiders of the genus Habronattus F.O. Pickard-Cambridge, 1901, which court females using a combination of ornament and motion (dance) displays coordinated with vibrational songs. To explore the diversity in Habronattus courtship complexity, we focused on quantifying the dance and vibratory displays in nine members of the Habronattus clypeatus species group, with preliminary observations on two additional species from this group. Additionally, we looked at display variation across populations in two widespread species from this group. We document three main courtship types: ''stilting'', ''buzzing'', and ''spinning'', each identifiable by the presence or emphasis on particular display types. We found that for the widespread species H. clypeatus (Banks, 1895), different populations differed significantly and could be classified as either stilting or buzzing types. We discuss these results in relation to broader patterns of signal evolution and diversification in Habronattus. [ABSTRACT FROM AUTHOR]

Published

2021

44. Female answer specificity to male drumming calls in three closely related species of the stonefly genus Zwicknia (Plecoptera: Capniidae).

Author

Orci, Kirill Márk and Murányi, Dávid

Subjects

*STONEFLIES, *DRUM playing, *FEMALES, *MALES, *SPECIES

Abstract

This study examines the rate of female answers to conspecific versus heterospecific male vibratory calls in three, closely related stonefly species: Zwicknia bifrons, Z. acuta, and Z. rupprechti. In a previous study those three species were recognized on the basis of their distinct male drumming calls along with differences in genital morphology and genetic divergence. During this study no‐choice playback experiments using original male call samples from each species were performed, and the answer rate of females to conspecific and heterospecific signal variants was measured. Mixed effect logistic regression models were used to test if male call species identity had a statistically significant effect on female answer probability. Females answered conspecific male calls with significantly higher probability than heterospecific calls in all the three examined species, suggesting that the divergence of vibrational communication can be an important component of the prezygotic isolation between them. Low, but well detectable responsiveness to heterospecific calls was observable between Z. bifrons and Z. acuta, the two species closest to each other regarding mitochondrial genetic divergence and male call pattern similarity. Thus, our results are most congruent with a tight, gradual coevolution of male calls and female preferences. [ABSTRACT FROM AUTHOR]

Published

2021

45. Complex interactions between temperature, sexual signals and mate choice in a desert-dwelling jumping spider.

Author

Brandt, Erin E., Rosenthal, Malcolm F., and Elias, Damian O.

Subjects

*JUMPING spiders, *TELECOMMUNICATION systems, *ANIMAL communication, *BODY temperature, *TEMPERATURE effect, *HIGH temperatures

Abstract

Environmental context is a crucial factor that influences sexual communication systems. Particularly in ectotherms, which cannot metabolically regulate their body temperature, temperature has an outsized effect on these intraspecific interactions. Using the desert-dwelling jumping spider Habronattus clypeatus , we assessed how temperature impacts various parts of the male signal and female mate choice for the signal. These spiders have multimodal, temporally structured courtship displays that begin with visual-only 'sidling' displays and proceed to multimodal visual and vibratory displays. To examine temperature effects, we performed sequential choice mating experiments (N = 45 trials) at two temperature treatments: hot (∼50 °C) and room temperature (∼25 °C). We found first that variation in the different stages of courtship segregated onto different principal components. The only aspect of male courtship that females expressed preference for was sidling courtship, but only at the higher temperature. Females also preferred to mate with heavier males at all temperatures. Specifically, females preferred to mate with males that performed shorter sidling displays. This is reflected by shorter copulation times in the warm treatment as well. We also found that temperature impacted only vibratory courtship and not sidling courtship. Our results highlight the importance of understanding environmental context in studies of animal communication. We also stress how a holistic, rather than reductive, approach to complex communication systems is vital in order to understand how selection acts upon them. • Temperature affected vibratory, not visual, courtship in a desert jumping spider. • Male mass and visual, not vibratory, courtship impacted female mate choice. • Females preferred shorter visual displays, but only at high temperatures. • Reductive approaches examining sexual signals cannot explain mate choice patterns. [ABSTRACT FROM AUTHOR]

Published

2020

46. Condition-dependent differences in male vibratory pre-copulatory and copulatory courtship in a nuptial gift-giving spider.

Author

Eberhard, Monika J. B., Machnis, Alexandra, and Uhl, Gabriele

Subjects

COURTSHIP, SPIDER webs, SPIDERS, ANIMAL species, SILKWORMS, JUMPING spiders

Abstract

Condition-dependent secondary sexual traits and signals are often crucial for mate choice decisions. Nuptial gifts, provided by the male to the female during mating, may represent an indicator of male condition, especially if production of the gift is energetically costly. Additionally, other signalling modalities may well play a role in mate choice in such systems. Females of the nursery web spider Pisaura mirabilis preferably mate with males that provide a prey item wrapped in silk. Apart from the nuptial gift, vibrational signals employed during courtship and mating may reveal additional information about male condition. We tested condition-dependence of male vibrational signals of well-fed versus starved males, when in contact with female dragline silk and during mating trials. Our results show that vibrational signals are produced in P. mirabilis, both during pre-copulatory courtship and during copulation. Male courtship signals were condition-dependent: males in good condition initiated signalling earlier and emitted more vibrational pulses than poor-condition males. They were also more likely to be accepted by the female for copulation. We additionally identified vibrational signals during copulation. These signals were different from pre-copulatory courtship vibrations but did not differ between the treatment groups. This study shows that vibrational communication plays an important role before and during copulation in P. mirabilis. It sets the stage for further experiments on spider biotremology associated with nuptial gift giving behaviour. Significance statement: Male courtship behaviour can indicate a male's condition and quality and be subject to female mate choice. Vibrational communication during mating plays a crucial role in many animal species. Spiders are known to be extremely sensitive towards vibrations, and there is evidence that vibratory signals are also used during courtship. Here, we study the nuptial gift-giving spider Pisaura mirabilis in which courtship entails providing a nuptial gift by the male to the female. The gift quality determines on the probability and duration of mating. We investigated the role of vibrational behaviour in this species by standardizing nuptial gifts. Our study demonstrates that vibratory signals comprise information about the male's condition, that signals are also produced during mating and that courtship and copulatory signals are strikingly different. We suggest that vibrational communication provides important condition-dependent traits for female mate choice in addition to the nuptial gift. [ABSTRACT FROM AUTHOR]

Published

2020

47. Variation in plant leaf traits affects transmission and detectability of herbivore vibrational cues.

Author

Velilla, Estefania, Polajnar, Jernej, Virant‐Doberlet, Meta, Commandeur, Daniel, Simon, Ralph, Cornelissen, Johannes H. C., Ellers, Jacintha, and Halfwerk, Wouter

Subjects

PLANT variation, FOLIAGE plants, BEET armyworm, AIRBORNE infection, FORAGE plants, CABBAGE, PLANT defenses

Abstract

Many insects use plant‐borne vibrations to obtain important information about their environment, such as where to find a mate or a prey, or when to avoid a predator. Plant species can differ in the way they vibrate, possibly affecting the reliability of information, and ultimately the decisions that are made by animals based on this information. We examined whether the production, transmission, and possible perception of plant‐borne vibrational cues is affected by variation in leaf traits. We recorded vibrations of 69 Spodoptera exigua caterpillars foraging on four plant species that differed widely in their leaf traits (cabbage, beetroot, sunflower, and corn). We carried out a transmission and an airborne noise absorption experiment to assess whether leaf traits influence amplitude and frequency characteristics, and background noise levels of vibrational chewing cues. Our results reveal that species‐specific leaf traits can influence transmission and potentially perception of herbivore‐induced chewing vibrations. Experimentally‐induced vibrations attenuated stronger on plants with thicker leaves. Amplitude and frequency characteristics of chewing vibrations measured near a chewing caterpillar were, however, not affected by leaf traits. Furthermore, we found a significant effect of leaf area, water content and leaf thickness—important plant traits against herbivory, on the vibrations induced by airborne noise. On larger leaves higher amplitude vibrations were induced, whereas on thicker leaves containing more water airborne noise induced higher peak frequencies. Our findings indicate that variation in leaf traits can be important for the transmission and possibly detection of vibrational cues. [ABSTRACT FROM AUTHOR]

Published

2020

48. Female competition for availability of males in insects: the Nezara viridula (Linnaeus, 1758) model.

Author

Čokl, Andrej, Žunič Kosi, Alenka, Laumann, Raul Alberto, and Virant‐Doberlet, Meta

Subjects

*BIRDSONGS, *ANIMAL courtship, *MALES, *INSECTS, *HEMIPTERA, *STINKBUGS, *INFORMATION sharing

Abstract

Multimodal communication in solitary stinkbugs enables them to meet, mate and copulate. Many plant‐dwelling species exchange information during the calling phase of mating behavior using substrate‐borne vibratory signals. A female‐biased gender ratio induces rivalry and competition for a sexual partner. Female competition for males, first described among Heteroptera in three stinkbug species, revealed species specific differences and opened the question of plasticity in individually emitted temporal and frequency signal characteristics during calling and rival alternation. To address this question and gain an insight into the mechanisms underlying stinkbug female rivalry, we compared the characteristics of alternated signals in the southern green stinkbug Nezara viridula (Linnaeus, 1758) (Hemiptera: Pentatomidae). Compared to male rivalry, female rivalry is more complex, lasts longer and runs through successive phases by a combination of different song types. The male pheromone triggers alternation between females, producing song pulses that occasionally overlap each other. One female initiates the rivalry by changing individual pulses into pulse trains of three different types. The competing female alternates with pulses of changed temporal characteristics at lower levels of rivalry and by varying the frequency characteristics of pulse trains at higher levels. During female rivalry, the male either stops responding or occasionally emits calling and courtship signals in response to the female that has produced signals of steady temporal characteristics. Female rivalry shows complex and species specific patterns of information exchange at different levels with a broad‐range variation of temporal and frequency characteristics of, until now, unidentified vibratory emissions. [ABSTRACT FROM AUTHOR]

Published

2020

49. Tap dancers in the wild: field observations of multimodal courtship displays in socially monogamous songbirds.

Author

Ota, Nao

Abstract

Multimodal signaling systems are shaped not only by a signaler's physical abilities but also by external factors such as the position of signal receivers and the properties of the medium through which the signals are transmitted. To fully understand the evolution and function of multimodal communication, it is essential to investigate the behavior in the wild. Here, I present evidence that socially monogamous songbirds perform complex courtship displays that can produce multimodal and multicomponent signals in wild conditions. Cordon-bleus (Uraeginthus spp.) are socially monogamous songbirds from East Africa. Both sexes of cordon-bleus perform multimodal courtship displays by holding a piece of nest material, bobbing up and down, and singing. My previous laboratory study using high-speed video cameras revealed that courtship bobbing includes multiple rapid steps similar to human tap-dancing, which presumably contributes to producing non-vocal sounds and/or vibrations in addition to visual signals. As a result of field observation and behavioral analysis, I found that wild cordon-bleus perform tap-dance like displays just as captive cordon-bleus. I also observed that wild cordon-bleus produced non-vocal sounds and shook branches during courtship, which can contribute to multimodal signal production (i.e., visual, acoustic, and vibrational signals). My findings imply that the courtship displays of cordon-bleus are an ideal candidate for investigating the role and function of multimodal communication in animals, and demonstrate the importance of further quantitative studies in both laboratory and field. [ABSTRACT FROM AUTHOR]

Published

2020

50. Stink Bug Communication and Signal Detection in a Plant Environment

Author

Andrej Čokl, Alenka Žunič-Kosi, Nataša Stritih-Peljhan, Maria Carolina Blassioli-Moraes, Raúl Alberto Laumann, and Miguel Borges

Subjects

plant-dwelling insects, biotremology, Pentatominae stink bugs, host plants, evolution, communication, Science

Abstract

Plants influenced the evolution of plant-dwelling stink bugs’ systems underlying communication with chemical and substrate-borne vibratory signals. Plant volatiles provides cues that increase attractiveness or interfere with the probability of finding a mate in the field. Mechanical properties of herbaceous hosts and associated plants alter the frequency, amplitude, and temporal characteristics of stink bug species and sex-specific vibratory signals. The specificity of pheromone odor tuning has evolved through highly specific odorant receptors located within the receptor membrane. The narrow-band low-frequency characteristics of the signals produced by abdomen vibration and the frequency tuning of the highly sensitive subgenual organ vibration receptors match with filtering properties of the plants enabling optimized communication. A range of less sensitive mechanoreceptors, tuned to lower vibration frequencies, detect signals produced by other mechanisms used at less species-specific levels of communication in a plant environment. Whereas the encoding of frequency-intensity and temporal parameters of stink bug vibratory signals is relatively well investigated at low levels of processing in the ventral nerve cord, processing of this information and its integration with other modalities at higher neuronal levels still needs research attention.

Published

2021