Biotremology is the study of production, dispersion and reception of mechanical vibrations by organisms, and their effect on behavior. This involves neurophysiological and anatomical basis of vibration production and detection, and relation of vibrations to the medium they disperse through. Vibrations can represent either signals used in vibrational (seismic) communication or inadvertent cues used, for example, in locating prey (in some cases even both). In almost all known cases, they are transmitted as surface waves along the boundary of a medium, i.e. Rayleigh waves or bending waves.[2][3] While most attention is directed towards the role of vibrations in animal behavior, plants actively respond to sounds and vibrations as well, so this subject is shared with plant bioacoustics.[4] Other groups of organisms (such as nematodes[5]) are also postulated to either actively produce or at least use vibrations to sense their environment, but those are currently far less studied.
Elephants produce low-frequency rumbles which travel over long distances as seismic waves and are detected by sense organs in the elephant's feet.[1]
Traditionally regarded part of bioacoustics, the discipline has recently begun to actively diverge on its own, because of the many peculiarities of the studied modality compared with sound.[2] Vibrational communication has been recognized as evolutionarily older than sound and much more prevalent, at least among arthropods,[6][7] although the two modalities are closely related and sometimes overlap.[8] While many experimental approaches are shared between the two disciplines, scientists in the field of biotremology often use special equipment, such as laser vibrometers, for detecting faint vibrational emissions by animals and electromagnetic transducers in contact with the substrate for artificial playback experiments.[9]
History
Leafhoppers are a group of insects known for using only vibrational signals during courtship. They also comprise numerous pests (the American grapevine leafhopper pictured), so biotremologists are developing alternative methods of pest control on this basis.[10]
People have observed vibrational communication by animals for hundreds of years, although the idea that vibrations may convey information dates to the middle of the 20th century. Swedish entomologist Frej Ossiannilsson pioneered the field in 1949 by suggesting vibrations transmitted through plants play a role in insect communication. His work demonstrating this suggestion was not heeded by contemporaries because many zoologists believed that such small animals are physically incapable of conveying information through solid substrates. Only with the advent of accessible signal processing technology decades later did the work by other pioneering individuals and groups, such as the Slovenian zoologist Matija Gogala, establish the basis of biotremology. It remains a relatively understudied discipline, at least compared to bioacoustics, partly because most of animal-produced signals are undetectable to non-augmented human senses.[2]
Nevertheless, several instances of practical utilization of the knowledge obtained are already in use or are being actively developed, such as mating disruption using vibrational noise for non-chemical pest control and detection of concealed arthropod pests (such as wood-boring insects).[10][11]
References
^Günther, R.H.; O'Connell-Rodwell, C.E.; Klemperer, S.L. (2004). "Seismic waves from elephant vocalizations: A possible communication mode?". Geophysical Research Letters. 31 (11): L11602. Bibcode:2004GeoRL..3111602G. doi:10.1029/2004GL019671.
^ abcHill, Peggy S.M.; Wessel, Andreas (2016). "Biotremology". Current Biology. 26 (5): R187–R191. doi:10.1016/j.cub.2016.01.054. PMID 26954435.
^Virant-Doberlet, Meta; Čokl, Andrej; Zorović, Maja (2006). "Use of Substrate Vibrations for Orientation: From Behaviour to Physiology". In Drosopoulos, Sakis; Claridge, Michael F. (eds.). Insect Sounds and Communication. Boca Raton: CRC Press. pp. 81–98. doi:10.1201/9781420039337.ch5. ISBN978-0-8493-2060-6.
^Holbrook, Robert I.; Mortimer, Beth (2018). "Vibration sensitivity found in Caenorhabditis elegans". The Journal of Experimental Biology. 221 (15): jeb178947. doi:10.1242/jeb.178947. PMID 29903836.
^Cocroft, Reginald B.; Rodríguez, Rafael L. (2005). "The behavioral ecology of insect vibrational communication". BioScience. 55 (4): 323–334. doi:10.1641/0006-3568(2005)055[0323:TBEOIV]2.0.CO;2.
^Hill, Peggy S.M. (2008). Vibrational Communication in Animals. Harvard University Press. ISBN9780674027985.
^Caldwell, Michael S. (2014). "Interactions Between Airborne Sound and Substrate Vibration in Animal Communication". In Cocroft, Reginald B.; Gogala, Matija; Hill, Peggy S.M.; Wessel, Andreas (eds.). Studying vibrational communication. Animal Signals and Communication. Vol. 3. Springer. pp. 65–92. doi:10.1007/978-3-662-43607-3_6. ISBN978-3-662-43606-6.
^Michelsen, Axel (2014). "Physical Aspects of Vibrational Communication". In Cocroft, Reginald B.; Gogala, Matija; Hill, Peggy S.M.; Wessel, Andreas (eds.). Studying vibrational communication. Animal Signals and Communication. Vol. 3. Springer. pp. 199–213. doi:10.1007/978-3-662-43607-3_11. ISBN978-3-662-43606-6.
^ abPolajnar, Jernej; Eriksson, Anna; Lucchi, Andrea; Anfora, Gianfranco; Virant-Doberlet, Meta; Mazzoni, Valerio (2015). "Manipulating behaviour with substrate-borne vibrations – potential for insect pest control" (PDF). Pest Management Science. 17 (1): 15–23. doi:10.1002/ps.3848. PMID 24962656.
^Mankin, Richard W. (2012). "Applications of acoustics in insect pest management". CAB Reviews. 7 (1): 1–7. doi:10.1079/PAVSNNR20127001.
External links
1st International Symposium on Biotremology that was held on 5-7 July 2016 in San Michele all'Adige, Italy
December 27, 2022
biotremology, study, production, dispersion, reception, mechanical, vibrations, organisms, their, effect, behavior, this, involves, neurophysiological, anatomical, basis, vibration, production, detection, relation, vibrations, medium, they, disperse, through, . Biotremology is the study of production dispersion and reception of mechanical vibrations by organisms and their effect on behavior This involves neurophysiological and anatomical basis of vibration production and detection and relation of vibrations to the medium they disperse through Vibrations can represent either signals used in vibrational seismic communication or inadvertent cues used for example in locating prey in some cases even both In almost all known cases they are transmitted as surface waves along the boundary of a medium i e Rayleigh waves or bending waves 2 3 While most attention is directed towards the role of vibrations in animal behavior plants actively respond to sounds and vibrations as well so this subject is shared with plant bioacoustics 4 Other groups of organisms such as nematodes 5 are also postulated to either actively produce or at least use vibrations to sense their environment but those are currently far less studied source source source source source source source source source source source source source source Elephants produce low frequency rumbles which travel over long distances as seismic waves and are detected by sense organs in the elephant s feet 1 Traditionally regarded part of bioacoustics the discipline has recently begun to actively diverge on its own because of the many peculiarities of the studied modality compared with sound 2 Vibrational communication has been recognized as evolutionarily older than sound and much more prevalent at least among arthropods 6 7 although the two modalities are closely related and sometimes overlap 8 While many experimental approaches are shared between the two disciplines scientists in the field of biotremology often use special equipment such as laser vibrometers for detecting faint vibrational emissions by animals and electromagnetic transducers in contact with the substrate for artificial playback experiments 9 History Edit Leafhoppers are a group of insects known for using only vibrational signals during courtship They also comprise numerous pests the American grapevine leafhopper pictured so biotremologists are developing alternative methods of pest control on this basis 10 People have observed vibrational communication by animals for hundreds of years although the idea that vibrations may convey information dates to the middle of the 20th century Swedish entomologist Frej Ossiannilsson pioneered the field in 1949 by suggesting vibrations transmitted through plants play a role in insect communication His work demonstrating this suggestion was not heeded by contemporaries because many zoologists believed that such small animals are physically incapable of conveying information through solid substrates Only with the advent of accessible signal processing technology decades later did the work by other pioneering individuals and groups such as the Slovenian zoologist Matija Gogala establish the basis of biotremology It remains a relatively understudied discipline at least compared to bioacoustics partly because most of animal produced signals are undetectable to non augmented human senses 2 Nevertheless several instances of practical utilization of the knowledge obtained are already in use or are being actively developed such as mating disruption using vibrational noise for non chemical pest control and detection of concealed arthropod pests such as wood boring insects 10 11 References Edit Gunther R H O Connell Rodwell C E Klemperer S L 2004 Seismic waves from elephant vocalizations A possible communication mode Geophysical Research Letters 31 11 L11602 Bibcode 2004GeoRL 3111602G doi 10 1029 2004GL019671 a b c Hill Peggy S M Wessel Andreas 2016 Biotremology Current Biology 26 5 R187 R191 doi 10 1016 j cub 2016 01 054 PMID 26954435 Virant Doberlet Meta Cokl Andrej Zorovic Maja 2006 Use of Substrate Vibrations for Orientation From Behaviour to Physiology In Drosopoulos Sakis Claridge Michael F eds Insect Sounds and Communication Boca Raton CRC Press pp 81 98 doi 10 1201 9781420039337 ch5 ISBN 978 0 8493 2060 6 Gagliano Monica Mancuso Stefano Robert Daniel 2012 Towards understanding plant bioacoustics Trends in Plant Science 17 6 323 325 doi 10 1016 j tplants 2012 03 002 PMID 22445066 Holbrook Robert I Mortimer Beth 2018 Vibration sensitivity found in Caenorhabditis elegans The Journal of Experimental Biology 221 15 jeb178947 doi 10 1242 jeb 178947 PMID 29903836 Cocroft Reginald B Rodriguez Rafael L 2005 The behavioral ecology of insect vibrational communication BioScience 55 4 323 334 doi 10 1641 0006 3568 2005 055 0323 TBEOIV 2 0 CO 2 Hill Peggy S M 2008 Vibrational Communication in Animals Harvard University Press ISBN 9780674027985 Caldwell Michael S 2014 Interactions Between Airborne Sound and Substrate Vibration in Animal Communication In Cocroft Reginald B Gogala Matija Hill Peggy S M Wessel Andreas eds Studying vibrational communication Animal Signals and Communication Vol 3 Springer pp 65 92 doi 10 1007 978 3 662 43607 3 6 ISBN 978 3 662 43606 6 Michelsen Axel 2014 Physical Aspects of Vibrational Communication In Cocroft Reginald B Gogala Matija Hill Peggy S M Wessel Andreas eds Studying vibrational communication Animal Signals and Communication Vol 3 Springer pp 199 213 doi 10 1007 978 3 662 43607 3 11 ISBN 978 3 662 43606 6 a b Polajnar Jernej Eriksson Anna Lucchi Andrea Anfora Gianfranco Virant Doberlet Meta Mazzoni Valerio 2015 Manipulating behaviour with substrate borne vibrations potential for insect pest control PDF Pest Management Science 17 1 15 23 doi 10 1002 ps 3848 PMID 24962656 Mankin Richard W 2012 Applications of acoustics in insect pest management CAB Reviews 7 1 1 7 doi 10 1079 PAVSNNR20127001 External links Edit1st International Symposium on Biotremology that was held on 5 7 July 2016 in San Michele all Adige Italy Retrieved from https en wikipedia org w index php title Biotremology amp oldid 1021741001, wikipedia, wiki, book, books, library,
