鼠类超声通讯在鼠害防治中的应用

doi:10.11853/j.issn.1003.8280.2016.04.026

摘要/Abstract

摘要：

鼠类针对不同刺激或不同目的可发出超声波，且超声信号的频率和时程随年龄、性别、种类、自然和社会环境的不同而出现差异性变化，同时可接收超声波信号。该文介绍了鼠类超声信号的研究成果，并阐述当前超声波驱鼠器的使用状况及存在问题，为新型高效超声驱鼠产品的研发和使用提供建议，从而更好地开展鼠害防治工作。

关键词: 鼠类, 超声波信号, 超声波驱鼠器

Abstract:

Rodents emit and perceive calls in the ultrasonic range, i.e., above the human hearing threshold of about 20 kHz: so-called ultrasonic vocalizations(USV). They emit USV, which differ in frequencies and durations according to their age, sex, species, and the physical and social behaviors, in response to different stimuli and for different purposes. This paper describes the characteristics and functions of the USV in rodents, and also elaborates current status of ultrasonic rodent repellent devices. It is very important for the research and development of the new, efficient ultrasonic rodent deterrent devices.

Key words: Rodents, Ultrasonic vocalizations, Ultrasonic rodent deterrent

中图分类号:

S443

陈毅, 刘全生. 鼠类超声通讯在鼠害防治中的应用[J]. 中国媒介生物学及控制杂志, 2016, 27(4): 407-410.

CHEN Yi, LIU Quan-sheng. Application of ultrasonic communication in rodent management and control[J]. Chines Journal of Vector Biology and Control, 2016, 27(4): 407-410.

参考文献

[1] Anderson JW. The production of ultrasonic sounds by laboratory rats and other mammals[J]. Science, 1954, 119(3101): 808-809.
[2] Costantini F, D'amato FR. Ultrasonic vocalizations in mice and rats:social contexts and functions[J]. Acta Zool Sin, 2006, 52 (4):619-633.
[3] Marsh BT, Jackson WB, Beck JR. Use of ultrasonics in elevator rat contro[l J]. Grain Age, 1962, 3(11):27-31.
[4] Lavoie GK, Glahn JF. Ultrasound as a deterrent to Rattus norvegicus[J]. J Stored Prod Res, 1977, 13(1):23-28.
[5] Briggs JR, Kalcounis-Rueppell MC. Similar acoustic structure and behavioural context of vocalizations produced by male and female California mice in the wild[J]. Anim Behav, 2011, 82 (6):1263-1273.
[6] Inagaki H, Kuwahara M, Kikusui T, et al. The influence of social environmental condition on the production of stress - induced 22 kHz calls in adult male Wistar rats[J]. Physiol Behav, 2005, 84(1):17-22.
[7] Brudzynski SM. Ultrasonic calls of rats as indicator variables of negative or positive states:acetylcholine-dopamine interaction and acoustic coding[J]. Behav Brain Res, 2007, 182(2): 261-273.
[8] Hammerschmidt K, Radyushkin K, Ehrenreich H, et al. Female mice respond to male ultrasonic‘songs'with approach behaviour[J]. Biol Lett, 2009, 5(5):589-592.
[9] Musolf K, Hoffmann F, Penn DJ. Ultrasonic courtship vocalizations in wild house mice, Mus musculus musculus[J]. Anim Behav, 2010, 79(3):757-764.
[10] Nyby J, Whitney G. Ultrasonic communication of adult myomorph rodents[J]. Neurosci Biobehav Rev, 1978, 2(1): 1-14.
[11] Wöhr M, Schwarting RKW. Affective communication in rodents: ultrasonic vocalizations as a tool for research on emotion and motivation[J]. Cell Tissue Res, 2013, 354(1):81-97.
[12] Brudzynski SM, Kehoe P, Callahan M. Sonographic structure of isolation-induced ultrasonic calls of rat pups[J]. Dev Psychobiol, 1999, 34(3):195-204.
[13] Zippelius HM, Schleidt WM. Ultraschall-Laute bei jungen Möusen[J]. Naturwissenschaften, 1956, 43(21):502.
[14] Takahashi A, Yap JJ, Bohager DZ, et al. Glutamatergic and GABAergic modulations of ultrasonic vocalizations during maternal separation distress in mouse pups [J]. Psychopharmacology, 2009, 204(1):61-71.
[15] Sewell GD. Ultrasonic communication in rodents[J]. Nature, 1970, 227(5256):410.
[16] Sewell GD. Ultrasound in adult rodents[J]. Nature, 1967, 215 (5100):512.
[17] Whitney G, Alpern M, Dizinno G, et al. Female odors evoke ultrasounds from male mice[J]. Anim Learn Behav, 1974, 2(1): 13-18.
[18] Wang HR, Liang SY, Burgdorf J, et al. Ultrasonic vocalizations induced by sex and amphetamine in M2, M4, M5 muscarinic and D2 dopamine receptor knockout mice[J]. PLoS One, 2008, 3(4):e1893.
[19] White NR, Prasad M, Barfield RJ, et al. 40- and 70-kHz vocalizations of mice (Mus musculus) during copulation[J]. Physiol Behav, 1998, 63(4):467-473.
[20] Jamain S, Radyushkin K, Hammerschmidt K, et al. Reduced social interaction and ultrasonic communication in a mouse model of monogenic heritable autism[J]. Proc Natl Acad Sci USA, 2008, 105(5):1710-1715.
[21] Radyushkin K, Hammerschmidt K, Boretius S, et al. Neuroligin-3-deficient mice:model of a monogenic heritable form of autism with an olfactory deficit[J]. Genes Brain Behav, 2009, 8(4):416-425.
[22] D'amato FR. Courtship ultrasonic vocalizations and social status in mice[J]. Anim Behav, 1991, 41(5):875-885.
[23] Roullet FI, Wöhr M, Crawley JN. Female urine-induced male mice ultrasonic vocalizations, but not scent - marking, is modulated by social experience[J]. Behav Brain Res, 2011, 216 (1):19-28.
[24] Vivian JA, Miczek KA. Morphine attenuates ultrasonic vocalization during agonistic encounters in adult male rats[J]. Psychopharmacology, 1993, 111(3):367-375.
[25] Blanchard RJ, Blanchard DC, Agullana R, et al. Twenty-two kHz alarm cries to presentation of a predator, by laboratory rats living in visible burrow systems[J]. Physiol Behav, 1991, 50(5): 967-972.
[26] Kaltwasser MT. Acoustic signaling in the black rat(Rattus rattus)[J]. J Comp Psychol, 1990, 104(3):227-232.
[27] Wöhr M, Borta A, Schwarting RKW. Overt behavior and ultrasonic vocalization in a fear conditioning paradigm:a dose- response study in the rat[J]. Neurobiol Learn Mem, 2005, 84 (3):228-240.
[28] Borta A, Wöhr M, Schwarting RKW. Rat ultrasonic vocalization in aversively motivated situations and the role of individual differences in anxiety-related behavior[J]. Behav Brain Res, 2006, 166(2):271-280.
[29] Yee N, Schwarting RKW, Fuchs E, et al. Increased affective ultrasonic communication during fear learning in adult male rats exposed to maternal immune activation[J]. J Psychiatr Res, 2012, 46(9):1199-1205.
[30] Wöhr M, Schwarting RKW. Ultrasonic calling during fear conditioning in the rat:no evidence for an audience effect[J]. Anim Behav, 2008, 76(3):749-760.
[31] Wöhr M, Schwarting RKW. Ultrasonic communication in rats: can playback of 50-kHz calls induce approach behavior？[J]. PLoS One, 2007, 2(12):e1365.
[32] Sadananda M, Wöhr M, Schwarting RKW. Playback of 22-kHz and 50-kHz ultrasonic vocalizations induces differential c-fos expression in rat brain[J]. Neurosci Lett, 2008, 435(1):17-23.
[33] Endres T, Widmann K, Fendt M. Are rats predisposed to learn 22 kHz calls as danger-predicting signals？[J]. Behav Brain Res, 2007, 185(2):69-75.
[34] Bang SJ, Allen TA, Jones LK, et al. Asymmetrical stimulus generalization following differential fear conditioning [J]. Neurobiol Learn Mem, 2008, 90(1):200-216.
[35] Kim EJ, Kim ES, Covey E, et al. Social transmission of fear in rats:the role of 22-kHz ultrasonic distress vocalization[J]. PLoS One, 2010, 5(12):e15077.
[36] Otterbein S, Borta A, Schwarting RKW. Adolescence in rats: monitoring of rough-and-tumble play and its relations to ultrasound vocalization[J]. J Psychophysiol, 2005, 19(2): 135-136.
[37] Wöhr M, Kehl M, Borta A, et al. New insights into the relationship of neurogenesis and affect: tickling induces hippocampal cell proliferation in rats emitting appetitive 50-kHz ultrasonic vocalizations[J]. Neuroscience, 2009, 163(4): 1024-1030.
[38] Brudzynski SM, Pniak A. Social contacts and production of 50-kHz short ultrasonic calls in adult rats[J]. J Comp Psychol, 2002, 116(1):73-82.
[39] McGinnis MY, Vakulenko M. Characterization of 50-kHz ultrasonic vocalizations in male and female rats[J]. Physiol Behav, 2003, 80(1):81-88.
[40] Panksepp J, Burgdorf J.“Laughing”rats and the evolutionary antecedents of human joy？[J]. Physiol Behav, 2003, 79(3): 533-547.
[41] Knutson B, Burgdorf J, Panksepp J. High-frequency ultrasonic vocalizations index conditioned pharmacological reward in rats[J]. Physiol Behav, 1999, 66(4):639-643.
[42] Bialy M, Rydz M, Kaczmarek L. Precontact 50-kHz vocalizations in male rats during acquisition of sexual experience[J]. Behav Neurosci, 2000, 114(5):983-990.
[43] Knutson B, Burgdorf J, Panksepp J. Anticipation of play elicits high-frequency ultrasonic vocalizations in young rats[J]. J Comp Psychol, 1998, 112(1):65-73.
[44] Burgdorf J, Knutson B, Panksepp J. Anticipation of rewarding electrical brain stimulation evokes ultrasonic vocalization in rats[J]. Behav Neurosci, 2000, 114(2):320-327.
[45] Panksepp J, Burgdorf J, Turner C, et al. Modeling ADHD-type arousal with unilateral frontal cortex damage in rats and beneficial effects of play therapy[J]. Brain Cognit, 2003, 52(1): 97-105.
[46] Wöhr M, Schwarting RKW. Testing social acoustic memory in rats:effects of stimulus configuration and long-term memory on the induction of social approach behavior by appetitive 50-kHz ultrasonic vocalizations[J]. Neurobiol Learn Mem, 2012, 98(2): 154-164.
[47] Wöhr M, Schwarting RKW. Ultrasonic communication in rats: effects of morphine and naloxone on vocal and behavioral responses to playback of 50-kHz vocalizations[J]. Pharmacol Biochem Behav, 2009, 94(2):285-295.
[48] Panksepp JB, Jochman KA, Kim JU, et al. Affiliative behavior, ultrasonic communication and social reward are influenced by genetic variation in adolescent mice[J]. PLoS One, 2007, 2(4): e351.
[49] Scattoni ML, Ricceri L, Crawley JN. Unusual repertoire of vocalizations in adult BTBR T+tf/J mice during three types of social encounters[J]. Genes Brain Behav, 2011, 10(1):44-56.
[50] D'amato FR, Moles A. Ultrasonic vocalizations as an index of social memory in female mice[J]. Behav Neurosci, 2001, 115 (4):834-840.
[51] Knight JJ. Effects of airborne ultrasound on man[J]. Ultrasonics, 1968, 6(1):39-41.
[52] Fay RR. Hearing in vertebrates:a psychophysics databook[M]. Winnetka:Hill-Fay Associates, 1988:1-3.
[53] Parrack HO. Effect of air-borne ultrasound on humans[J]. Int Audiol, 1966, 5(3):294-308.
[54] Kent E, Grossman SP. An ultrasonic UCS[J]. Physiol Behav, 1968, 3(2):361-362.
[55] Belluzzi JD, Grossman SP. Avoidance learning motivated by high- frequency sound and electric shock[J]. Physiol Behav, 1969, 4 (3):371-373.
[56] Pinel JPJ. High-intensity, ultrasonic sound:a better rat trap[J]. Psychol Rep, 1972, 31(2):427-432.
[57] Milanovich PJ. Ultrasonic and/or infrasonic animal repellent horn powered by compressed air canister combined with a strobe light:US, 7841291[P]. 2010-11-30.
[58] Schumake SA. Electronic rodent repellent devices:a review of efficacy test protocols and regulatory actions[C]. National wildlife research center repellents conference. Lincoln: University of Nebraska, 1995:253-270.
[59] Schumake SA, LaVoie GK, Crane K. Efficacy test protocols for evaluation of ultrasonic rodent repellent devices [C]/ Proceedings of the eleventh vertebrate pest conference. Lincoln: University of Nebraska, 1984:85-88.
[60] 汪诚信. 电子猫与超声驱鼠器[J]. 中国农村医学, 1982(6): 4-5.
[61] 刘宗义, 徐玉萍, 陈虹, 等. 超声波驱鼠、驱蟑效果观察[J]. 中国媒介生物学及控制杂志, 1997, 8(2):134-135.
[62] 郭绶衡, 蒋新祥, 胡尚红. 超声波驱鼠器现场驱鼠效果观察[J]. 中国热带医学, 2005, 5(4):917.
[63] 李红梅, 于戈, 李兵, 等. 电子驱鼠器在养殖场使用效果观察[J]. 医学动物防制, 2008, 24(9):659-660.
[64] Seffer D, Schwarting RKW, Wöhr M. Ultrasonic communication in rats:insights from playback studies[C]/Spink AJ, Grieco F, Krips OE, et al. Proceedings of measuring behavior. Utrecht, The Netherlands:[s.n.], 2012:143-148.
[65] 孟凤霞, 刘起勇, 宋秀平, 等. 超声波驱鼠器对鼠活动行为的影响及其应用探讨[J]. 中国媒介生物学及控制杂志, 2007, 18(3):181-184.