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四种蜚蠊的呼吸信号特征比较 被引量:1

Characteristic analysis of respiratory signals in four species of cockroaches
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摘要 在20℃下,利用CO2红外分析仪采集了美洲大蠊Periplanetaamericana、褐斑大蠊P.brunnea、澳洲大蠊P.australasiae和德国小蠊Blattellagermanica的呼吸信号。结果表明,它们均具有典型的不连续气体交换循环(discontinuousgasexchangecycle,DGC)呼吸模式,且一个DGC可分为爆发间期和爆发期2个阶段。4种蜚蠊雄性成虫DGC的特征各异:美洲大蠊完成一个DGC周期平均约需24.55min,明显长于褐斑大蠊(11.67min)和澳洲大蠊(10.75min),德国小蠊周期最短,仅为4.41min;对于爆发间期历时在整个DGC历时所占的比例,美洲大蠊最大,平均为57%,德国小蠊次之,为48%,褐斑大蠊和澳洲大蠊比较接近,分别为37%和36%。德国小蠊单位体重的CO2平均释放速率最大,而另外3种蜚蠊的差异不明显。4种蜚蠊爆发期CO2释放体积均随DGC历时增加而增加,美洲大蠊和德国小蠊单位体重的CO2平均释放率随DGC历时增加而减少,在褐斑大蠊和澳洲大蠊中它们关系不明显。美洲大蠊、褐斑大蠊和澳洲大蠊CO2平均释放率和爆发期CO2释放体积与体重呈正相关,在德国小蠊中关系不明显;4种蜚蠊DGC各阶段历时和DGC频率与它们体重的关系均不明显。 In 20℃, respiratory signals of four species of cockroaches including Periplaneta americana, P. brunnea, P. australasiae, Blattella germanica were sampled and analyzed with infrared CO2 analyzer. The results indicated that they all exhibited the respiratory model of discontinuous gas exchange cycle (DGC). A DGC was divided into two periods, including an interburst period and a burst period. There were some differences among DGC characters of different species. A DGC period of P. americana was about 24.55 min, obviously longer than that of P. brunnea (11.67min) and P. australasiae(10.75min), and it was only 4.41min for B. germanica. The proportion of interburst period duration to DGC duration in P. americana was the highest with the mean value 57 %, which was 48 %, 37 % and 36 % for B. germanica, P. brunnea and P. australasiae respectively. The CO2 release rate per body weight in B. germanica was the highest, and there was no obvious difference among the rest three species. The CO2 release volume of burst period increased with the increase of DGC duration in the four species. The CO2 release rate per body weight decreased with the increase of DGC duration in P. americana and B. germanica, but their correlations were not obvious in P. brunnea and P. australasiae. The CO2 release rate and CO2 release volume of burst period had positive correlation with body weight in other three species except B. germanica. Body weight did not influence the durations of DGC, interburst period and burst period and the DGC frequency in all four species.
作者 姚青 赵若琼 沈佐锐
机构地区 中国农业大学农学与生物技术学院
出处 《昆虫学报》 CAS CSCD 北大核心 2006年第1期154-159,共6页 Acta Entomologica Sinica
关键词 蜚蠊 呼吸信号 不连续气体交换循环 特征分析 Cockroaches respiratory signal discontinuous gas exchange cycle characteristic analysis
分类号 Q965 [生物学—昆虫学]
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参考文献29

  • 1Bartholomew GA, Lighton JRB, Louw GN, 1985. Energetics of locomotion and patterns of respiration in tenebfionid beetles from the Namib Desert. J. Comp. Physiol., 155: 155-162.
  • 2Buck J, Keister M, 1955. Cyclic CO2 release in diapausing Agapema pupae. Biol. Bull. Mar. Biol. Lab. Woods Hole, 109: 144-163.
  • 3Davis ALV, Chown SL, Scholtz CH, 1999. Discontinuous gas-exchange cycles in Dcarabaeus dung beetles (Coleoptera: Scarabaeidae): mass scaling and temperature dependence. Physiol. Biochem. Zool., 72 (5) : 555 - 565.
  • 4Duncan FD, Byrne MJ, 2002. Respiratory airflow in a wingless dung beetle. J. Exp. Biol., 205(16): 2489-2497.
  • 5Duncan FD, Krasnov B, McMaster M, 2002. Metabolic rate and respiratory gas-exchange patterns in tenebrionid beetles from the Negev Highlands, Israd. J. Exp. Biol., 205(6): 791- 798.
  • 6Duncan FD, Lighton JRB, 1997. Discontinuous ventilation and energetics of locomotion in the desert dwelling female mutillid wasp Dasymutilla gloriosa. Physiol. Entomol., 22: 310-315.
  • 7Hadley NF, Quinlan MC, 1993. Discontinuous carbon dioxide release in the eastern lubber grasshoppers Romalea guttata and its effect on respiratory transpiration. J. Exp. Biol., 177: 169-180.
  • 8Hamiton AG, 1964. The occurrence of periodic or continuous discharge of carbon dioxide by male desert locusts ( Schistocerca gregaria Forskal) measured by an infra-red gas analyzer. Porc. R. Sec. Lond. Ser. B. Biol. Sci., 160: 373- 395.
  • 9Hetz SK, Bradley TJ, 2005. Insects breathe discontinuously to avoid oxygen toxicity. Nature, 433: 516-519.
  • 10Kanwisher JW, 1966. Tracheal gas dynamics in pupae of the cecropic silkworm. Biol. Bull., 130: 96-105.

二级参考文献67

  • 1周萌霁,杨承亮,卢永仪.德国小蠊对杀虫剂的抗性测定[J].医学动物防制,2001,17(12):624-626. 被引量:5
  • 2孙晨熹,李培羽,曹晓梅,范俊兰.德国产蟑螂诱饵剂(UNGEZIEFER—KDER)对蟑螂诱杀效果初探[J].医学动物防制,2000,16(11):586-587. 被引量:2
  • 3吴福祯.中国常见蜚蠊种类及其危害、利用与防制的调查研究[J].昆虫学报,1987,30(4):430-430.
  • 4胡修元.蟑螂会传播哪些疾病[J].公共卫生与疾病控制,1984,3:22-22.
  • 5林启彬.中国的蜚蠊昆虫化石[J].昆虫学报,1980,21:335-342.
  • 6Bartholomew GA, Lighton JRB, Louw GN, 1985. Energetics of locomotion and patterns of respiration in tenebrionid beetles from the Namib Desert.J. Comp. Physiol. B, Biochemical, Systemic, and Environmental Physiology, 155: 155- 162.
  • 7Buck J, Keister M, 1955. Cyclic CO2 release in diapausing Agapema pupae.Biol. Bull. Mar. Biol. Lab. Woods Hole, 109: 144- 163.
  • 8Chown SL, Holter P, 2000. Discontinuous gas exchange cycles in Aphodius fossor (Scarabaeidae): a test of hypotheses concerning origins and mechanisms. J. Exp. Biol., 203(2): 397 - 403.
  • 9Davis ALV, Chown SL, Scholtz CH, 1999. Discontinuous gas-exchange cycles in Dcarabaeus dung beetles ( Coleoptera: Scarabaeidae): mass scaling and temperature dependence. Physiol. Biochem. Zool., 72(5): 555 - 565.
  • 10Duncan FD, Byrne MJ, 2002a. Respiratory airflow in a wingless dung beetle. J. Exp. Biol. , 205(16): 2 489- 2 497.

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昆虫学报
2006年 第1期

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