噪声对鸡的行为、心率变异性和卵巢组织形态的影响
摘要
随着我国城市轨道交通事业的迅猛发展,轨道交通的噪声污染日益成为影响城市环境的突出因素。动物在噪声刺激下产生应激,剖析其行为变化、心动周期和心率变异性对噪声的反应以及卵巢组织形态的变化,可作为评价应激状态及其是否已被动物适应、卵巢组织损伤情况的依据。
第一部分研究利用46日龄的三黄鸡6只,经125分贝(dB)和98dB金属落体声音以每8min 0.2秒节律进行刺激,观察逃避行为及其习惯化。结果表明:在声音刺激之初(125dB),出现了跳跃、奔跑和抬头观望等惊恐行为,随着刺激次数的增加,惊恐行为的次数减少直至消失。三天后将刺激声音强度降低到98dB,发现比较强烈的逃避行为基本消失,抬头观望是最主要的行为。再隔三天后以98 dB声音刺激,得到的结果与之前98 dB刺激的结果相似。惊恐行为的变化可以反映对噪声刺激的反应及其习惯化适应趋势。
第二部分利用心率变异性方法剖析了噪声对动物产生的作用,从心动周期和心率变异性的时域角度探讨噪声对三黄鸡的影响。供试鸡为12只2日龄的健康三黄鸡,发酵床垫料上散养至50日龄后随机分为3个组,分别给予地铁噪声、地震声音和粉碎机噪声进行刺激,强度95dB。结果表明:在播放噪声的过程中三黄鸡的心动周期缩短,自主神经系统调控受抑制,RMSSD减小。上述结果表明三黄鸡在受外界噪声刺激的过程中副交感神经兴奋性降低,自主神经系统受抑制或受损。心率变异性分析可作为判断动物是否处于噪声等应激刺激的指标。
第三部分研究地铁噪声对伊莎褐蛋鸡卵巢组织形态的影响。选用健康100日龄和300日龄伊莎褐蛋鸡各20只,随机分为100日龄试验组、对照组,300日龄试验组、对照组,每组10只鸡,模拟动物园下地铁噪声对试验组进行刺激。蛋鸡卵巢经过组织学观察,所得结果如下:100日龄试验组和对照组相比,次级卵泡较少,闭锁卵泡增多,噪声刺激阻碍了卵巢的发育,影响次级卵泡的生成;300日龄试验组和对照组相比,次级卵泡较少,其他并无明显变化,说明此类噪声对成年蛋鸡影响较小。
With the rapid development of urban rail in China, the noise pollution of rail transport has become a increasing prominent factor which affects the urban environment. Noise would cause noise stress of animals, the present study analyzed the behavior changes, cardiac cycle and the heart rate variability response to noise as well as morphological changes in ovarian tissue, and the results can be used as the theoretical basis to evaluate stress situation and conduct whether it has been adapted to animals as well as the ovarian tissue injury.
In the first part of the research,46-day-old Sanhuang-Chicken were used to stimulate with 125dB and 98dB sound of metal falling body in 8 minutes 0.2 seconds of each rhythm, the act and habituation of escape were observed. In the beginning of the sound Stimulation (125dB), there were some panic behaviors, such as jumping, running. The rise of wait-and-see appeared, with the number of stimulation increased, the number of panic behavior reduced and then disappeared. After three days sound stimulation, the intensity of sound stimulation reduced to 98dB, we found that relatively strong escape acts disappeared; the rise of wait-and-see is the most important act. Stimulated with 98 dB after another three days, the results were similar to the former result which stimulated with98 dB. The changing of panic behavior can reflect the response to noise exposure and the habituation adaptive tendency.
In the second part of the research, the heart rate variability was used to analysis the effect of noise on animals. We also investigated the impact of noise on Sanhuang-Chicken from the cardiac cycle and heart rate variability in time-domain perspective. Twelve healthy 2-day-old experimental chicken, which were feeding on the bio-bed to 50-day-old in the fermentation bedding, were divided into three groups randomly and stimulated with subway noise, seismic noise and grinder voice which intensity was 95dB respectively. The results showed that:during the process of playing noise, the cardiac cycle of Sanhuang-Chicken was shortened, the autonomic nervous control system was inhibited and the RMSSD was decreased. The above results showed that in the process of stimulating with External noise, the parasympathetic excitatory of Sanhuang-Chicken reduced, the autonomic nervous system was inhibited or damaged. Heart rate variability can be used as an index to estimate whether animals were in noise stress or other kinds of stress.
In the third part of research, we figured out that the influence of the noise from subway on ovarian morphology of ISA hens.20 healthy 100-day-old and 20 healthy 300-day-old ISA hens were selected. We divided them into 100-day-old test group and the control group, 300-day-old test group and control group randomly,10 chickens per group each. The test groups were stimulated with subway noise in the zoo.After histology observation of the ovarian of hens, the results were as follows:compared with control group, the chicken in100-day-old test group, had fewer secondary follicles and more follicular atresia. Noise stimulation hindered the development of ovarian as well as influenced of the generation of secondary follicles. Compared with control group, chicken in 300-day-old test group had fewer secondary follicles and other no significant changes, it can be concluded that such noise has less impact on adult hens.
第一部分研究利用46日龄的三黄鸡6只,经125分贝(dB)和98dB金属落体声音以每8min 0.2秒节律进行刺激,观察逃避行为及其习惯化。结果表明:在声音刺激之初(125dB),出现了跳跃、奔跑和抬头观望等惊恐行为,随着刺激次数的增加,惊恐行为的次数减少直至消失。三天后将刺激声音强度降低到98dB,发现比较强烈的逃避行为基本消失,抬头观望是最主要的行为。再隔三天后以98 dB声音刺激,得到的结果与之前98 dB刺激的结果相似。惊恐行为的变化可以反映对噪声刺激的反应及其习惯化适应趋势。
第二部分利用心率变异性方法剖析了噪声对动物产生的作用,从心动周期和心率变异性的时域角度探讨噪声对三黄鸡的影响。供试鸡为12只2日龄的健康三黄鸡,发酵床垫料上散养至50日龄后随机分为3个组,分别给予地铁噪声、地震声音和粉碎机噪声进行刺激,强度95dB。结果表明:在播放噪声的过程中三黄鸡的心动周期缩短,自主神经系统调控受抑制,RMSSD减小。上述结果表明三黄鸡在受外界噪声刺激的过程中副交感神经兴奋性降低,自主神经系统受抑制或受损。心率变异性分析可作为判断动物是否处于噪声等应激刺激的指标。
第三部分研究地铁噪声对伊莎褐蛋鸡卵巢组织形态的影响。选用健康100日龄和300日龄伊莎褐蛋鸡各20只,随机分为100日龄试验组、对照组,300日龄试验组、对照组,每组10只鸡,模拟动物园下地铁噪声对试验组进行刺激。蛋鸡卵巢经过组织学观察,所得结果如下:100日龄试验组和对照组相比,次级卵泡较少,闭锁卵泡增多,噪声刺激阻碍了卵巢的发育,影响次级卵泡的生成;300日龄试验组和对照组相比,次级卵泡较少,其他并无明显变化,说明此类噪声对成年蛋鸡影响较小。
With the rapid development of urban rail in China, the noise pollution of rail transport has become a increasing prominent factor which affects the urban environment. Noise would cause noise stress of animals, the present study analyzed the behavior changes, cardiac cycle and the heart rate variability response to noise as well as morphological changes in ovarian tissue, and the results can be used as the theoretical basis to evaluate stress situation and conduct whether it has been adapted to animals as well as the ovarian tissue injury.
In the first part of the research,46-day-old Sanhuang-Chicken were used to stimulate with 125dB and 98dB sound of metal falling body in 8 minutes 0.2 seconds of each rhythm, the act and habituation of escape were observed. In the beginning of the sound Stimulation (125dB), there were some panic behaviors, such as jumping, running. The rise of wait-and-see appeared, with the number of stimulation increased, the number of panic behavior reduced and then disappeared. After three days sound stimulation, the intensity of sound stimulation reduced to 98dB, we found that relatively strong escape acts disappeared; the rise of wait-and-see is the most important act. Stimulated with 98 dB after another three days, the results were similar to the former result which stimulated with98 dB. The changing of panic behavior can reflect the response to noise exposure and the habituation adaptive tendency.
In the second part of the research, the heart rate variability was used to analysis the effect of noise on animals. We also investigated the impact of noise on Sanhuang-Chicken from the cardiac cycle and heart rate variability in time-domain perspective. Twelve healthy 2-day-old experimental chicken, which were feeding on the bio-bed to 50-day-old in the fermentation bedding, were divided into three groups randomly and stimulated with subway noise, seismic noise and grinder voice which intensity was 95dB respectively. The results showed that:during the process of playing noise, the cardiac cycle of Sanhuang-Chicken was shortened, the autonomic nervous control system was inhibited and the RMSSD was decreased. The above results showed that in the process of stimulating with External noise, the parasympathetic excitatory of Sanhuang-Chicken reduced, the autonomic nervous system was inhibited or damaged. Heart rate variability can be used as an index to estimate whether animals were in noise stress or other kinds of stress.
In the third part of research, we figured out that the influence of the noise from subway on ovarian morphology of ISA hens.20 healthy 100-day-old and 20 healthy 300-day-old ISA hens were selected. We divided them into 100-day-old test group and the control group, 300-day-old test group and control group randomly,10 chickens per group each. The test groups were stimulated with subway noise in the zoo.After histology observation of the ovarian of hens, the results were as follows:compared with control group, the chicken in100-day-old test group, had fewer secondary follicles and more follicular atresia. Noise stimulation hindered the development of ovarian as well as influenced of the generation of secondary follicles. Compared with control group, chicken in 300-day-old test group had fewer secondary follicles and other no significant changes, it can be concluded that such noise has less impact on adult hens.
引文
[1]周祖华.噪声对奶牛的危害[J].中国奶牛,1994,4:38-39.
[2]潘琦,周建强.噪音污染影响种鸡生产性能的探讨[J].中国家禽,2005,27(1):22.
[3]袁衡.噪声污染与听力防护[J].中国个体防护装备,2007,1:51-52.
[4]田玉军,巨天珍,任正武.国内城市环境噪声污染研究进展[J].重庆环境科学,2003,25(3):37-40,
[5]Arana M, Garcia A. A social survey on the effects of environmental noise on the residents of Pamplona, Spain[J]. Applied Acoustics,1998,53, (53):245-253.
[6]周克元.噪声控制技术的现状及其发展方向[J].环境科学动态,1987,3:5-8.
[7]王文奇.阻声消声元件的实验研究[J].环境污染与防治,1986,4:30-34.
[8]方丹群.我国噪声控制的发展[J].环境污染与防治,1986,6:7-10.
[9]Passchier VW, Passchier WF. Noise exposure and public health[J]. Environ Health Perpsect,2000, 108(11):123.
[10]王亚东,杨海燕,陈琛.噪声接触与神经行为功能关系的meta分析[J].实用预防医学,2005,12(2):284-285.
[11]Marks A, Griefahn B. Railway noise-Its effect son sleep, mood, subjective sleep quality, and performance[J], Somnologie,2005,9(2):68-75.
[12]R M Rai. Biochemical Effect of Chronic Exposure to Noise in Man, Int[J]. Arch Occup Environ Health,1981, (43):331.
[13]H. Ising, Health Effect of Traffic Noise, Int[J]. Arch Occup Environ Health,1980, (47):179.
[14]Henderson D, Spongr V, Subramaniam M. Anatomical Effects of Impact Noise[J]. Hear Res. 1994;(76).
[15]王龙义,郭平,毕先伟.强噪声作业人员健康状况的调查[J].中国工业医学杂志,2001,14(1):32-34.
[16]曹煌红,刘卫华.轨枕生产噪声对工人健康影响的调查[J].工业卫生与职业病,2003,29(2):99-101.
[17]邓建和,阮一帆,黄德祥,等.噪声对作业工人健康影响的调查[J].海峡预防医学杂志,2002,8(6):38-9.
[18]Mostlhi N. Am Ind Hyg Assoe J.1979,40(5):424-426.
[19]Patrick A, Sluis-Cremer Gerhard K. Occu-pational noise exposure and blood pressure:longitudinal and cross-sectional observations in a group of underground miners[J]. Archives of environmental health,1994,49(2):128-134.
[20]Tsan-Juchen. Effects of aircraft noise on hearing and auditory pathway function of aircraft employees[J]. J-OccupMed,1992,32(6):613.
[21]J A Conetta. Istological effects of noise in the hearts of laboratory rats exposed to lead and cadmium[J]. Excerpta medica. Environ. Health and Pollution Control,1993,30(4):185.
[22]Peterson E A, Augenstein J S, Hazelton C L,et al. Some cardiovascular effects of noise[J]. J Aud Res,1984,24:35-62.
[23]Regecova V, Kellerova E. Effects of urban noise pollution on blood pressure and heart rate in preschool children[J]. J Hypertens,1995,13:405-412.
[24]唱斗,梁武,王生.高频稳态噪声对心血管系统影响的调查[J].中国职业学,2003,30(2):25-27.
[25]Andren L, Hansson L, Bjorkman M, et al. Noise as a contributory factor in the evelopment of
elevated arterial pressure. A study of the mechanisms by which noise may raise blood pressure in man[J].Acta Med Scand,1980,207:493-498.
[26]刘志发,刘超群,孙 涛,等.强噪声暴露后胃溃疡大鼠的血浆多肽激素水平[J].中华劳动卫生职业病杂志,2003,21(1):48-50.
[27]刘美莲,孟箐,李月梅,等.噪声对脑、心脏、肝脏元素影响的研究[J].中国环境科学,1996,16(4):285-287.
[28]Millar K, Steels M J. Sustained peripher vasoconstriction while working in continuou in tense noise[J]. Aviation, Space and Environ mental Medicine,1990,61(6):690-695.
[29]Tunla N. Female noise exposure, shift wore production[J]. Ournal Occupational and Envronmental Medicine,1995,37(8):943-94.
[30]Stansfeld S A, Berglund B, Clark C. Aircraft and road traffic noise and children's cognition and health:a cross-national study[J]. Lancet.365(9475):1942-9.
[31]Ristovska G, Gjorgjev D, Popjordanova N. Psychosocial efects of community noise:cross sectional study of school children in urban center of skopje, Macedonia[J]. Public Health,2004, 45(4):473-476.
[32]Tremblay S, Macken W J, Jones D M. The impact of broad-band noise on serial memory: changes in band-pass frequency increase disruption[J]. Memory,2001,9(4-6):323.
[33]邬力祥,朱新裘,罗志勇,等.噪声对大鼠学习记忆的影响[J].中国应用生理学杂志,1992,8(2):164-166.
[34]Kim H, Lee MH, Chang HK. Influence of prenatal noise and music on the spatial memory and neurogenesis in the hippocampus of developing rats[J]. Brain-Dev,28(2):109-14.
[35]黎东明,许世同.噪声对海马区神经元电活动及突触超微结构的影响[J].中国应用生理学,1989,5(1):71-74.
[36]欧阳伟,王家同,李金声,等.噪声对大鼠学习记忆中海马区NOS阳性神经元表达的影响[J].中国心里卫生杂志,2003,17(2):80-83.
[37]梁波,许世彤.噪声暴露对大鼠海马习得性长时程突触增强的影响[J].中国应用生理学,1990,6(2):122-126.
[38]钦俊德.动物行为的生理基础[J].生物学通报,1999,34(10):1-4.
[39]尚玉昌.行为生态学[M].北京大学出版社,1998.
[40]尚玉昌.动物行为学[M].北京大学出版社,2005.
[41]蒋志刚.动物行为原理与物种保护方法[M].科学出版社,2004.
[42]王建礼.《动物行为学》课程教学探讨[J].安徽农学通报,2008,14(19):216-217.
[43]张华琦,杨正德.不同泌乳时期荷斯坦奶牛的行为观察[J].中国奶牛,2008,3:19-21.
[44]谷建勇.应激对机体的影响与防制[J].浙江畜牧兽医,2003(1):13-14.
[45]赵云焕.热应激对蛋鸡血液生化指标影响机理的研究进展[J].安徽农业科学,2006,34(7):1364-1365.
[46]俞美子,王德武.猪热应激及其营养调控技术的研究进展[J].南方养猪,2006,199:16-18.
[47]杨雪峰,王艳玲.蛋鸡热应激的研究进展[J].家畜生态,1999,20(1):41-45.
[48]李超英,赵文阁,亓新华.温度、湿度、饲养密度、噪音对实验动物福利的影响[J].河南科技学院学报,2006,34(3):24-25.
[49]郝俊虎,王俊东.应激的类型及其对动物的影响[J].饲料研究,2001,9:22-24.
[50]Rebele, F. Urban ecology and special features of urban ecosystems[J]. Global Ecology and Biogeography Letters,1994,4:173-187.
[51]龚昌超,曾新吾.低频强声对动物及其行为效应的研究[J].中国应用生理学杂志,2008,24(4):492-503.
[52]Frank N, Wilson M D, Garrard Macleod M.D, et al. Electrocardiograms that represent the potential variations of a single electrode [J]. American Heart Journal,1934,9(4):447-458.
[53]张玉生,柳巨雄,刘娜.动物生理学[M].吉林农业出版社,2000:82-83.
[54]Trautwein W, Kameyama M. Intracellular control of calcium and potassium currents in cardiac cells [J]. Jpn Heart J,1986,27:31-50.
[55]Brown H F, DiFrancesco D, Noble S J. How does adrenaline accelerate the heart? [J] Nature. 1979,280:235-236.
[56]DiFrancesco D, Ferroni A, Mazzanti M, et al. Properties of the hyperpolarizing-activated current (If) in cells isolated from the rabbit sino-atrial node [J]. J Physiol (Lond),1986,377:61-88.
[57]Malliani A. Cardiovascular sympathetic afferent fibers [J]. Rev Physiol Biochem Pharmacol,1982, 94:11-74.
[58]Cerati D, Schwartz PJ. Single cardiac vagal fiber activity, acute myocardial ischemia, and risk for sudden death [J]. Circ Res,1991,69:1389-1401.
[59]Levy M N. Sympathetic-parasympathetic interactions in the heart [J]. Circ Res,1971,29: 437-445.
[60]Schwartz PJ, Pagani M, Lombardi F, et al. A cardiocardiac sympathovagal reflex in the cat [J]. Circ Res,1973,32:215-220.
[61]张道斌,杨健红.心率变异性的研究现状[J].海军医高专学报,1998,20(1):31-35.
[62]Bilge A R, Stein P K, Domitrovich P P, et al. Assessment of ultra low frequency band power of heart rate variability:validation of alternative methods [J]. International Journal of Cardiology, 1999,71(1):1-6.
[63]Vybiral T, Glaser D H, Morris G, et al. Effects of low dose scopolamine on heart rate variability in acute myocardial infarction [J]. J Am Coll Cardiol,1993,22:1320-1326.
[64]庹焱.心率变异性研究进展[J].国外医学生理、病理科学与临床分册.2001,21(4):305-308.
[65]薛薇.SPSS统计分析方法及应用[M].北京:电子工业出版社,2004:405-406.
[66]Sudhir, Ken, Mehta, et al. Heart Rate Variability in Hearlthy Newborn Infants [J]. The American Journal of Cardiology,2002,89:50-53.
[67]Camm A J, Malik M, Bigger J T, et al. Heart Rate Variability:standards of measurement, physiological interpretation, and clinical use [J]. Circulation,1996,93(5)12-15.
[68]Kay S M, Marple S L. Spectrum analysis:a modern-perspective [J]. Proc IEEE,1981,69: 1380-1419.
[69]孙瑞龙,吴宁,杨世豪,等.心率变异性检测临床应用的建议[J].中华心血管病杂志,1998,26(4):252-255.
[70]杨雪琴,邢华雄,李炜,等.心率变异性作为植物神经功能检查方法的探讨[J].北京生物医学工程,1996,15(2):65-70.
[71]陆再英.心率变异分析方法学的标准化及结果的正确评价[J].中国心脏起搏与心电生理杂志,1996,10(4):222-224.
[72]王树迎,王政富.动物组织学与胚胎学[M].中国农业科技出版社,2002:186.
[73]陈杰.家畜生理学[M].中国农业出版社,2005:461-463.
[74]韩正康.家禽生理学[M].江苏科学出版社,1986:153.
[75]陈北亨,王建辰.兽医产科学[M].中国农业出版社,2001.
[76]王建辰.动物生殖调控[M].安徽科学技术出版社,1998.
[77]Vishwanath R, Lingappa M D, Krista Farey. Physiological Medicine[M]. Technoligy press, 2001:511-736.
[78]汪琳仙.同源GnRH对无血清培养鸡卵泡颗粒细胞孕酮分泌的作用[J].畜牧兽医学报,1996,27(4):330-335.
[79]赵畅.鸡GnRH对卵泡膜细胞分泌雌二醉的影响[J].北京农业大学学报,1993,19(2):88-91.
[80]汪琳仙,苏有强,李莹辉.鸡卵泡细胞GnRH受体定量和定位分析[J].畜牧兽医学报,1999,30(4):320-324.
[81]王建辰,张孝荣,王光亚,等.动物生殖调控[M].安徽科学技术出版社,1998:18-48.
[82]魏智清.促性腺激素对禽类卵泡类固醇激素合成的调节作用及其作用机制[J].宁夏农学院学报,1999,20(4):71-74.
[83]渊锡藩,张一玲.动物繁殖学[M].天则出版社,1993:16-40.
[84]Palmer S S, Bahr J M. Follicle stimulating hormone increase serum oestradiol-17 beta concentration, number of growing follicle and folk deposition in aging hens(Gallus domesticus) with decreased egg production[J]. Br Poult Sci,1992,33(2):403-414.
[85]郭亮星.家禽繁殖学[M].中国农业大学出版社,1996,19-21.
[86]黄炎坤,王彩铃,赵金艳.激素对家禽卵泡发育的调节[J].动物医学进展,2002,23(5):40-42.
[87]张美莉,王剑平.家禽生殖激素的研究进展[J].畜牧兽医杂志,1999,18(1):11-14.
[88]Maktigiannakis A, Coukos G, Christofidou-SolomidouM, et al. Progesterone is an autocrine-paracrine regulator of hum an granulose cell survival in vitro[J]. Ann N Y Acad Sci, 2000,900:6-25.
[1]葛世平.城市轨道交通的振动和噪声对环境的影响及其对策[J].城市轨道交通研究,2003,3:30-34.
[2]Vadillo E G. Subjective reaction to structurally radiated sound from underground railway:Field results[J]. J Sound & Vibr,1996,193(1).
[3]Jones D M. Performance effects. In:Jones D M, Chapman A J, eds[J]. Noise and Society. New York: Wiley,1984:155-184.
[4]侯公林.非稳态噪声对动物行为及心脏自由基损伤的影响[J].应用心理学,2002,8(4):47-50.
[5]谭艳芳,张石蕊,周映华,等.畜禽应激的研究进展[J].贵州畜牧兽医,2002,26(3):9-11.
[6]Tuula Nurminen, Kari Kurppa. Occupational noise exposure and course of pregnancy [J]. Scand J Work Environ Health,1989,15:117.
[7]Marta Weinstock, Erlena Matlina, Gilmor I Maor, et al. Prenatal stress selectively alters the reactivity of the hypothala-mic-pituitary adrenal system in the female rat[J]. Brain Research,1992,595:195.
[8]董宏彬,李清亚.孕鼠噪声暴露对子代行为发育的影响[J].铁道劳动安全卫生与环保,1996,23(4):263-266.
[9]吾布力·沙地克,沙尔山别克.强噪音应激对鸡的危害及防制措施[J].新疆畜牧业,2006,6:58.
[10]Millar K, Steels M J. Sustained peripheral vasoconstriction while working in continuous in tense noise[J]. Aviation, Space and Environ-mental Medicine,1990,61(6):690-695.
[11]Tunla, N. Female noise exposure, shift work reproduction[J]. Journal Occupational and Environmental Medicine,1995,37(8):943-947.
[12]侯公林,章志量,吴晓山.心理应激对大白鼠记忆及行为影响的实验研究[J].杭州医学高等专科学校学报,1998,19(4):3-7.
[1]周祖华.噪声对奶牛的危害[J].中国奶牛,1994,4:38-39.
[2]潘琦,周建强.噪音污染影响种鸡生产性能的探讨[J].中国家禽,2005,27(1):22.
[3]赖建民,王致,刘移民.职业性噪音暴露对心血管系统影响研究进展[J].华南预防医学,2006,32(2):19-22.
[4]Camm A J, Malik M, Bigger J T, et al. Heart Rate Variability:standards of measurement, physiological interpretation, and clinical use [J]. Circulation,1996,93(5):34-45.
[5]Evrengvl H, Tanriverdi H, Dursunoglu D, et al. Time and frequency domain analyses of heart rate variability in patients with epilepsy [J]. Epilepsy Research,2005,63:131-139.
[6]Iwanaga M, Kobayashi A, Kawasaki C. Heart rate variability with repetitive exposure to music [J]. Biological Psychology,2005:1-6.
[7]Longin E, Schaible T, Lenz T, et al. Short term heart rate variability in healthy neonates: Normative data and physiological observations [J]. Early Human Development,2005,81:663-671.
[8]Mehta S K, Dennis M, Connuck D, et al. Heart Rate Variability in Healthy Newborn Infants [J]. The American journal of cardiology,2002(89):50-53.
[9]Carter Ⅲ R, Cheuvront S N, Wray D W, et al. The influence of hydration status on heart rate variability after exercise heat stress [J]. Journal of Thermal Biology,2005,30:495-502.
[10]牛惠燕, 张代富, 梁波, 等.运动试验对冠心病患者短程心率变异性的影响[J].同济大学学报(医学版),2005,26(3):33-36.
[11]Sausser S, Waller R J. A model for music therapy with students with emotional and behavioral disorders [J]. The Arts in Psychotherapy,2006,33:1-10.
[12]张复生, 闫晓霞.北京航天医学工程研究所[J].心脏杂志,2000,2:122-125.
[13]薛薇.SPSS统计分析方法及应用[M].北京:电子工业出版社,2004:405—406.
[14]Levy MN. Sympathetic-parasympathetic interactions in the heart [J]. Circ Res.1971,29: 437-445.
[15]Schwartz PJ, Pagani M, Lombardi F, et al. A cardiocardiac sympathovagal reflex in the cat [J]. Circ Res,1973,32:215-220.
[16]黄敏.黄芪及其复方液对噪声引起免疫功能变化的影响[J].辐射与环境生物物理研究(第1集),中国第四届辐射与环境生物物理学学术会议,1992.
[17]黄敏.麻纺噪音对小鼠干扰素影响的研究.辐射与环境生物物理研究(第2集),中国第五届辐射与环境生物物理学学术会议,1993.
[18]R. M. Rai, Biochemical Effect of Chronic Exposure to Noise in Man[J]. Int Arch Occup. Environ Health,1981, (43):331.
[19]H. Ising, Health Effect of Traffic Noise[J]. Int Arch Occup Environ Health,1980, (47):179.
[20]Henderson D, Spongr V, Subramaniam M. Anatomical Effects of Impact Noise[J]. Hear Res. 1994,76.
[1]侯炳.城市轨道交通噪声的评价及控制研究[J].西南交通大学硕士研究生学位论文,2008,6.
[2]Dittrich M G, Janssens M H A. Measurement procedures for determining railway noise emission as input to calculation schemes[R]. TNO, TPD, The Netherlands, Sep.2000.
[3]江波.城市轨道交通轨道结构噪声分析与减振降噪措施[J].铁道建筑,2004(2):62.
[4]刘加华,练松良.城市轨道交通振动与噪声[J].交通运输学报,2002,2(1):29-31.
[5]Lowry MM. Compensatory testicular adjustments following the injection of small quantities of androgen into unilaterally castrated White Leghorn cockerels[J]. Poultry Science,1958,37: 1129-1136.
[6]Snapir N, Nir I, Furuta F, et al. Effect of administered testosterone propionate on cocks functionally castrated by hypothalamic lesions[J]. Endocrinology,1969,84:611-618.
[7]Rozenboim I, Gvaryahu G, Robinzon B, et al. Inductionof precocious development of reproductive function in cockerels by Tamoxifen administration[J]. Poultry Science,1986,65: 1980-1983.
[8]Rozenboim I, Snapir N, Arnon E, et al. Precocious puberty in tamoxifen treated cockerels: hypothalamic gonadotropin-releasing hormone-I and plasma luteinizing hormone, prolactin, growth hormone and testosterone[J]. Br Poult Sci,1993,34:533-542.
[9]Jacoby S, Snapir N, Rozenboim I, et al. Tamoxifen advances puberty in the White Leghorn hen[J]. Br Poult Sci,1992,33:101-111.
[10]Etches R J. Reproduction in poultry:Reproduction in Domesticated Animals[J]. World Animal Science B9-Amsterdam, The Netherlands:Elsevier Science Publishers,1993:493-530
[11]Bruggeman V, nagbesan O. D'Hondt E, et al. Effects of timing and duration of feed restriction during rearing on reproductive characteristics in broiler breeder females[J]. Poultry Science, 1999,78:1424-1434.
[12]韩正康.家畜生理学[M].中国农业出版社,1980:350-372.
[13]杨增明,孙青原,夏国良,等.生殖生物学[M].科学出版社,2005:11.
[14]黄建珍.成鸡卵巢嗜酸性细胞、卵泡外腺细胞和卵泡膜腺细胞微细结构的研究[J].兽医大学学报,1987,7(1):21-27.
[15]陈秋生.兽医比较组织学[M].中国农业出版社,2002:315-319.
[16]李新人,赵长清,李绍珠,等.强噪声对小鼠生殖细胞超微结构的影响[J].中华劳动卫生职业病杂志,1984,2(5):278-279.
[2]潘琦,周建强.噪音污染影响种鸡生产性能的探讨[J].中国家禽,2005,27(1):22.
[3]袁衡.噪声污染与听力防护[J].中国个体防护装备,2007,1:51-52.
[4]田玉军,巨天珍,任正武.国内城市环境噪声污染研究进展[J].重庆环境科学,2003,25(3):37-40,
[5]Arana M, Garcia A. A social survey on the effects of environmental noise on the residents of Pamplona, Spain[J]. Applied Acoustics,1998,53, (53):245-253.
[6]周克元.噪声控制技术的现状及其发展方向[J].环境科学动态,1987,3:5-8.
[7]王文奇.阻声消声元件的实验研究[J].环境污染与防治,1986,4:30-34.
[8]方丹群.我国噪声控制的发展[J].环境污染与防治,1986,6:7-10.
[9]Passchier VW, Passchier WF. Noise exposure and public health[J]. Environ Health Perpsect,2000, 108(11):123.
[10]王亚东,杨海燕,陈琛.噪声接触与神经行为功能关系的meta分析[J].实用预防医学,2005,12(2):284-285.
[11]Marks A, Griefahn B. Railway noise-Its effect son sleep, mood, subjective sleep quality, and performance[J], Somnologie,2005,9(2):68-75.
[12]R M Rai. Biochemical Effect of Chronic Exposure to Noise in Man, Int[J]. Arch Occup Environ Health,1981, (43):331.
[13]H. Ising, Health Effect of Traffic Noise, Int[J]. Arch Occup Environ Health,1980, (47):179.
[14]Henderson D, Spongr V, Subramaniam M. Anatomical Effects of Impact Noise[J]. Hear Res. 1994;(76).
[15]王龙义,郭平,毕先伟.强噪声作业人员健康状况的调查[J].中国工业医学杂志,2001,14(1):32-34.
[16]曹煌红,刘卫华.轨枕生产噪声对工人健康影响的调查[J].工业卫生与职业病,2003,29(2):99-101.
[17]邓建和,阮一帆,黄德祥,等.噪声对作业工人健康影响的调查[J].海峡预防医学杂志,2002,8(6):38-9.
[18]Mostlhi N. Am Ind Hyg Assoe J.1979,40(5):424-426.
[19]Patrick A, Sluis-Cremer Gerhard K. Occu-pational noise exposure and blood pressure:longitudinal and cross-sectional observations in a group of underground miners[J]. Archives of environmental health,1994,49(2):128-134.
[20]Tsan-Juchen. Effects of aircraft noise on hearing and auditory pathway function of aircraft employees[J]. J-OccupMed,1992,32(6):613.
[21]J A Conetta. Istological effects of noise in the hearts of laboratory rats exposed to lead and cadmium[J]. Excerpta medica. Environ. Health and Pollution Control,1993,30(4):185.
[22]Peterson E A, Augenstein J S, Hazelton C L,et al. Some cardiovascular effects of noise[J]. J Aud Res,1984,24:35-62.
[23]Regecova V, Kellerova E. Effects of urban noise pollution on blood pressure and heart rate in preschool children[J]. J Hypertens,1995,13:405-412.
[24]唱斗,梁武,王生.高频稳态噪声对心血管系统影响的调查[J].中国职业学,2003,30(2):25-27.
[25]Andren L, Hansson L, Bjorkman M, et al. Noise as a contributory factor in the evelopment of
elevated arterial pressure. A study of the mechanisms by which noise may raise blood pressure in man[J].Acta Med Scand,1980,207:493-498.
[26]刘志发,刘超群,孙 涛,等.强噪声暴露后胃溃疡大鼠的血浆多肽激素水平[J].中华劳动卫生职业病杂志,2003,21(1):48-50.
[27]刘美莲,孟箐,李月梅,等.噪声对脑、心脏、肝脏元素影响的研究[J].中国环境科学,1996,16(4):285-287.
[28]Millar K, Steels M J. Sustained peripher vasoconstriction while working in continuou in tense noise[J]. Aviation, Space and Environ mental Medicine,1990,61(6):690-695.
[29]Tunla N. Female noise exposure, shift wore production[J]. Ournal Occupational and Envronmental Medicine,1995,37(8):943-94.
[30]Stansfeld S A, Berglund B, Clark C. Aircraft and road traffic noise and children's cognition and health:a cross-national study[J]. Lancet.365(9475):1942-9.
[31]Ristovska G, Gjorgjev D, Popjordanova N. Psychosocial efects of community noise:cross sectional study of school children in urban center of skopje, Macedonia[J]. Public Health,2004, 45(4):473-476.
[32]Tremblay S, Macken W J, Jones D M. The impact of broad-band noise on serial memory: changes in band-pass frequency increase disruption[J]. Memory,2001,9(4-6):323.
[33]邬力祥,朱新裘,罗志勇,等.噪声对大鼠学习记忆的影响[J].中国应用生理学杂志,1992,8(2):164-166.
[34]Kim H, Lee MH, Chang HK. Influence of prenatal noise and music on the spatial memory and neurogenesis in the hippocampus of developing rats[J]. Brain-Dev,28(2):109-14.
[35]黎东明,许世同.噪声对海马区神经元电活动及突触超微结构的影响[J].中国应用生理学,1989,5(1):71-74.
[36]欧阳伟,王家同,李金声,等.噪声对大鼠学习记忆中海马区NOS阳性神经元表达的影响[J].中国心里卫生杂志,2003,17(2):80-83.
[37]梁波,许世彤.噪声暴露对大鼠海马习得性长时程突触增强的影响[J].中国应用生理学,1990,6(2):122-126.
[38]钦俊德.动物行为的生理基础[J].生物学通报,1999,34(10):1-4.
[39]尚玉昌.行为生态学[M].北京大学出版社,1998.
[40]尚玉昌.动物行为学[M].北京大学出版社,2005.
[41]蒋志刚.动物行为原理与物种保护方法[M].科学出版社,2004.
[42]王建礼.《动物行为学》课程教学探讨[J].安徽农学通报,2008,14(19):216-217.
[43]张华琦,杨正德.不同泌乳时期荷斯坦奶牛的行为观察[J].中国奶牛,2008,3:19-21.
[44]谷建勇.应激对机体的影响与防制[J].浙江畜牧兽医,2003(1):13-14.
[45]赵云焕.热应激对蛋鸡血液生化指标影响机理的研究进展[J].安徽农业科学,2006,34(7):1364-1365.
[46]俞美子,王德武.猪热应激及其营养调控技术的研究进展[J].南方养猪,2006,199:16-18.
[47]杨雪峰,王艳玲.蛋鸡热应激的研究进展[J].家畜生态,1999,20(1):41-45.
[48]李超英,赵文阁,亓新华.温度、湿度、饲养密度、噪音对实验动物福利的影响[J].河南科技学院学报,2006,34(3):24-25.
[49]郝俊虎,王俊东.应激的类型及其对动物的影响[J].饲料研究,2001,9:22-24.
[50]Rebele, F. Urban ecology and special features of urban ecosystems[J]. Global Ecology and Biogeography Letters,1994,4:173-187.
[51]龚昌超,曾新吾.低频强声对动物及其行为效应的研究[J].中国应用生理学杂志,2008,24(4):492-503.
[52]Frank N, Wilson M D, Garrard Macleod M.D, et al. Electrocardiograms that represent the potential variations of a single electrode [J]. American Heart Journal,1934,9(4):447-458.
[53]张玉生,柳巨雄,刘娜.动物生理学[M].吉林农业出版社,2000:82-83.
[54]Trautwein W, Kameyama M. Intracellular control of calcium and potassium currents in cardiac cells [J]. Jpn Heart J,1986,27:31-50.
[55]Brown H F, DiFrancesco D, Noble S J. How does adrenaline accelerate the heart? [J] Nature. 1979,280:235-236.
[56]DiFrancesco D, Ferroni A, Mazzanti M, et al. Properties of the hyperpolarizing-activated current (If) in cells isolated from the rabbit sino-atrial node [J]. J Physiol (Lond),1986,377:61-88.
[57]Malliani A. Cardiovascular sympathetic afferent fibers [J]. Rev Physiol Biochem Pharmacol,1982, 94:11-74.
[58]Cerati D, Schwartz PJ. Single cardiac vagal fiber activity, acute myocardial ischemia, and risk for sudden death [J]. Circ Res,1991,69:1389-1401.
[59]Levy M N. Sympathetic-parasympathetic interactions in the heart [J]. Circ Res,1971,29: 437-445.
[60]Schwartz PJ, Pagani M, Lombardi F, et al. A cardiocardiac sympathovagal reflex in the cat [J]. Circ Res,1973,32:215-220.
[61]张道斌,杨健红.心率变异性的研究现状[J].海军医高专学报,1998,20(1):31-35.
[62]Bilge A R, Stein P K, Domitrovich P P, et al. Assessment of ultra low frequency band power of heart rate variability:validation of alternative methods [J]. International Journal of Cardiology, 1999,71(1):1-6.
[63]Vybiral T, Glaser D H, Morris G, et al. Effects of low dose scopolamine on heart rate variability in acute myocardial infarction [J]. J Am Coll Cardiol,1993,22:1320-1326.
[64]庹焱.心率变异性研究进展[J].国外医学生理、病理科学与临床分册.2001,21(4):305-308.
[65]薛薇.SPSS统计分析方法及应用[M].北京:电子工业出版社,2004:405-406.
[66]Sudhir, Ken, Mehta, et al. Heart Rate Variability in Hearlthy Newborn Infants [J]. The American Journal of Cardiology,2002,89:50-53.
[67]Camm A J, Malik M, Bigger J T, et al. Heart Rate Variability:standards of measurement, physiological interpretation, and clinical use [J]. Circulation,1996,93(5)12-15.
[68]Kay S M, Marple S L. Spectrum analysis:a modern-perspective [J]. Proc IEEE,1981,69: 1380-1419.
[69]孙瑞龙,吴宁,杨世豪,等.心率变异性检测临床应用的建议[J].中华心血管病杂志,1998,26(4):252-255.
[70]杨雪琴,邢华雄,李炜,等.心率变异性作为植物神经功能检查方法的探讨[J].北京生物医学工程,1996,15(2):65-70.
[71]陆再英.心率变异分析方法学的标准化及结果的正确评价[J].中国心脏起搏与心电生理杂志,1996,10(4):222-224.
[72]王树迎,王政富.动物组织学与胚胎学[M].中国农业科技出版社,2002:186.
[73]陈杰.家畜生理学[M].中国农业出版社,2005:461-463.
[74]韩正康.家禽生理学[M].江苏科学出版社,1986:153.
[75]陈北亨,王建辰.兽医产科学[M].中国农业出版社,2001.
[76]王建辰.动物生殖调控[M].安徽科学技术出版社,1998.
[77]Vishwanath R, Lingappa M D, Krista Farey. Physiological Medicine[M]. Technoligy press, 2001:511-736.
[78]汪琳仙.同源GnRH对无血清培养鸡卵泡颗粒细胞孕酮分泌的作用[J].畜牧兽医学报,1996,27(4):330-335.
[79]赵畅.鸡GnRH对卵泡膜细胞分泌雌二醉的影响[J].北京农业大学学报,1993,19(2):88-91.
[80]汪琳仙,苏有强,李莹辉.鸡卵泡细胞GnRH受体定量和定位分析[J].畜牧兽医学报,1999,30(4):320-324.
[81]王建辰,张孝荣,王光亚,等.动物生殖调控[M].安徽科学技术出版社,1998:18-48.
[82]魏智清.促性腺激素对禽类卵泡类固醇激素合成的调节作用及其作用机制[J].宁夏农学院学报,1999,20(4):71-74.
[83]渊锡藩,张一玲.动物繁殖学[M].天则出版社,1993:16-40.
[84]Palmer S S, Bahr J M. Follicle stimulating hormone increase serum oestradiol-17 beta concentration, number of growing follicle and folk deposition in aging hens(Gallus domesticus) with decreased egg production[J]. Br Poult Sci,1992,33(2):403-414.
[85]郭亮星.家禽繁殖学[M].中国农业大学出版社,1996,19-21.
[86]黄炎坤,王彩铃,赵金艳.激素对家禽卵泡发育的调节[J].动物医学进展,2002,23(5):40-42.
[87]张美莉,王剑平.家禽生殖激素的研究进展[J].畜牧兽医杂志,1999,18(1):11-14.
[88]Maktigiannakis A, Coukos G, Christofidou-SolomidouM, et al. Progesterone is an autocrine-paracrine regulator of hum an granulose cell survival in vitro[J]. Ann N Y Acad Sci, 2000,900:6-25.
[1]葛世平.城市轨道交通的振动和噪声对环境的影响及其对策[J].城市轨道交通研究,2003,3:30-34.
[2]Vadillo E G. Subjective reaction to structurally radiated sound from underground railway:Field results[J]. J Sound & Vibr,1996,193(1).
[3]Jones D M. Performance effects. In:Jones D M, Chapman A J, eds[J]. Noise and Society. New York: Wiley,1984:155-184.
[4]侯公林.非稳态噪声对动物行为及心脏自由基损伤的影响[J].应用心理学,2002,8(4):47-50.
[5]谭艳芳,张石蕊,周映华,等.畜禽应激的研究进展[J].贵州畜牧兽医,2002,26(3):9-11.
[6]Tuula Nurminen, Kari Kurppa. Occupational noise exposure and course of pregnancy [J]. Scand J Work Environ Health,1989,15:117.
[7]Marta Weinstock, Erlena Matlina, Gilmor I Maor, et al. Prenatal stress selectively alters the reactivity of the hypothala-mic-pituitary adrenal system in the female rat[J]. Brain Research,1992,595:195.
[8]董宏彬,李清亚.孕鼠噪声暴露对子代行为发育的影响[J].铁道劳动安全卫生与环保,1996,23(4):263-266.
[9]吾布力·沙地克,沙尔山别克.强噪音应激对鸡的危害及防制措施[J].新疆畜牧业,2006,6:58.
[10]Millar K, Steels M J. Sustained peripheral vasoconstriction while working in continuous in tense noise[J]. Aviation, Space and Environ-mental Medicine,1990,61(6):690-695.
[11]Tunla, N. Female noise exposure, shift work reproduction[J]. Journal Occupational and Environmental Medicine,1995,37(8):943-947.
[12]侯公林,章志量,吴晓山.心理应激对大白鼠记忆及行为影响的实验研究[J].杭州医学高等专科学校学报,1998,19(4):3-7.
[1]周祖华.噪声对奶牛的危害[J].中国奶牛,1994,4:38-39.
[2]潘琦,周建强.噪音污染影响种鸡生产性能的探讨[J].中国家禽,2005,27(1):22.
[3]赖建民,王致,刘移民.职业性噪音暴露对心血管系统影响研究进展[J].华南预防医学,2006,32(2):19-22.
[4]Camm A J, Malik M, Bigger J T, et al. Heart Rate Variability:standards of measurement, physiological interpretation, and clinical use [J]. Circulation,1996,93(5):34-45.
[5]Evrengvl H, Tanriverdi H, Dursunoglu D, et al. Time and frequency domain analyses of heart rate variability in patients with epilepsy [J]. Epilepsy Research,2005,63:131-139.
[6]Iwanaga M, Kobayashi A, Kawasaki C. Heart rate variability with repetitive exposure to music [J]. Biological Psychology,2005:1-6.
[7]Longin E, Schaible T, Lenz T, et al. Short term heart rate variability in healthy neonates: Normative data and physiological observations [J]. Early Human Development,2005,81:663-671.
[8]Mehta S K, Dennis M, Connuck D, et al. Heart Rate Variability in Healthy Newborn Infants [J]. The American journal of cardiology,2002(89):50-53.
[9]Carter Ⅲ R, Cheuvront S N, Wray D W, et al. The influence of hydration status on heart rate variability after exercise heat stress [J]. Journal of Thermal Biology,2005,30:495-502.
[10]牛惠燕, 张代富, 梁波, 等.运动试验对冠心病患者短程心率变异性的影响[J].同济大学学报(医学版),2005,26(3):33-36.
[11]Sausser S, Waller R J. A model for music therapy with students with emotional and behavioral disorders [J]. The Arts in Psychotherapy,2006,33:1-10.
[12]张复生, 闫晓霞.北京航天医学工程研究所[J].心脏杂志,2000,2:122-125.
[13]薛薇.SPSS统计分析方法及应用[M].北京:电子工业出版社,2004:405—406.
[14]Levy MN. Sympathetic-parasympathetic interactions in the heart [J]. Circ Res.1971,29: 437-445.
[15]Schwartz PJ, Pagani M, Lombardi F, et al. A cardiocardiac sympathovagal reflex in the cat [J]. Circ Res,1973,32:215-220.
[16]黄敏.黄芪及其复方液对噪声引起免疫功能变化的影响[J].辐射与环境生物物理研究(第1集),中国第四届辐射与环境生物物理学学术会议,1992.
[17]黄敏.麻纺噪音对小鼠干扰素影响的研究.辐射与环境生物物理研究(第2集),中国第五届辐射与环境生物物理学学术会议,1993.
[18]R. M. Rai, Biochemical Effect of Chronic Exposure to Noise in Man[J]. Int Arch Occup. Environ Health,1981, (43):331.
[19]H. Ising, Health Effect of Traffic Noise[J]. Int Arch Occup Environ Health,1980, (47):179.
[20]Henderson D, Spongr V, Subramaniam M. Anatomical Effects of Impact Noise[J]. Hear Res. 1994,76.
[1]侯炳.城市轨道交通噪声的评价及控制研究[J].西南交通大学硕士研究生学位论文,2008,6.
[2]Dittrich M G, Janssens M H A. Measurement procedures for determining railway noise emission as input to calculation schemes[R]. TNO, TPD, The Netherlands, Sep.2000.
[3]江波.城市轨道交通轨道结构噪声分析与减振降噪措施[J].铁道建筑,2004(2):62.
[4]刘加华,练松良.城市轨道交通振动与噪声[J].交通运输学报,2002,2(1):29-31.
[5]Lowry MM. Compensatory testicular adjustments following the injection of small quantities of androgen into unilaterally castrated White Leghorn cockerels[J]. Poultry Science,1958,37: 1129-1136.
[6]Snapir N, Nir I, Furuta F, et al. Effect of administered testosterone propionate on cocks functionally castrated by hypothalamic lesions[J]. Endocrinology,1969,84:611-618.
[7]Rozenboim I, Gvaryahu G, Robinzon B, et al. Inductionof precocious development of reproductive function in cockerels by Tamoxifen administration[J]. Poultry Science,1986,65: 1980-1983.
[8]Rozenboim I, Snapir N, Arnon E, et al. Precocious puberty in tamoxifen treated cockerels: hypothalamic gonadotropin-releasing hormone-I and plasma luteinizing hormone, prolactin, growth hormone and testosterone[J]. Br Poult Sci,1993,34:533-542.
[9]Jacoby S, Snapir N, Rozenboim I, et al. Tamoxifen advances puberty in the White Leghorn hen[J]. Br Poult Sci,1992,33:101-111.
[10]Etches R J. Reproduction in poultry:Reproduction in Domesticated Animals[J]. World Animal Science B9-Amsterdam, The Netherlands:Elsevier Science Publishers,1993:493-530
[11]Bruggeman V, nagbesan O. D'Hondt E, et al. Effects of timing and duration of feed restriction during rearing on reproductive characteristics in broiler breeder females[J]. Poultry Science, 1999,78:1424-1434.
[12]韩正康.家畜生理学[M].中国农业出版社,1980:350-372.
[13]杨增明,孙青原,夏国良,等.生殖生物学[M].科学出版社,2005:11.
[14]黄建珍.成鸡卵巢嗜酸性细胞、卵泡外腺细胞和卵泡膜腺细胞微细结构的研究[J].兽医大学学报,1987,7(1):21-27.
[15]陈秋生.兽医比较组织学[M].中国农业出版社,2002:315-319.
[16]李新人,赵长清,李绍珠,等.强噪声对小鼠生殖细胞超微结构的影响[J].中华劳动卫生职业病杂志,1984,2(5):278-279.