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蜣螂与壁虎刚毛的比较及改形对其功能的影响 被引量:12

Comparison of the setae between the dung beetle Copris ochus and the gecko Gekko gecko and the effects of deformation on their functions
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摘要 Scanning electron microscopy(SEM)and histological techniques were used to observe and study the structure of setae on the integument surface of the dung beetle Copris ochus Motschulsky and on the foot pad of the gecko Gekko gecko and their relationship to anti-adherent and adherent functions respectively.There are very distinctive comparison between the structures and the constructs of the setae on the dung beetle and the gecko:the setae of the dung beetle are ramification of the integument,mainly distributing on the body abdomen surface and the lateral side of the legs,loosely arranging,having different length with many buds and sticks along the whole seta body but without side branches,uprightly directing to the contacting dung face.The setae of the gecko are protuberances from the skin,arranging in order and densely,regularly directing,branching in twice with curved top.The histological observation found that dung beetle’s setae are empty inside with lots micro-foramens communicating to the inner side on the base of the buds and sticks on the seta and also connecting with the oil glands below the integument,but without the erect muscle. Gecko setae are surrounded by fat cells and muscles.Results from functional experiments suggest that deformation of the setae of the bung beetle integument could reduce the anti-adherent function and also the same kind of change could reduce the adherent function of the gecko setae on the leg bottom.These results offer important information for preparation of the soil machine and components imitating dung beetle setae flexible non-adherence and for designing artificial setae imitating the gecko’s adherent setae. Scanning electron microscopy (SEM) and histological techniques were used to observe and study the structure of setae on the integument surface of the dung beetle Copris ochus Motschulsky and on the foot pad of the gecko Gekko gecko and their relationship to anti-adherent and adherent functions respectively. There are very distinctive comparison between the structures and the constructs of the setae on the dung beetle and the gecko: the setae of the dung beetle are ramification of the integument, mainly distributing on the body abdomen surface and the lateral side of the legs, loosely arranging, having different length with many buds and sticks along the whole seta body but without side branches, uprightly directing to the contacting dung face. The setae of the gecko are protuberances from the skin, arranging in order and densely, regularly directing, branching in twice with curved top. The histological observation found that dung beetle's setae are empty inside with lots micro-foramens communicating to the inner side on the base of the buds and sticks on the seta and also connecting with the oil glands below the integument, but without the erect muscle. Gecko setae are surrounded by fat cells and muscles. Results from functional experiments suggest that deformation of the setae of the bung beetle integument could reduce the anti-adherent function and also the same kind of change could reduce the adherent function of the gecko setae on the leg bottom. These results offer important information for preparation of the soil machine and components imitating dung beetle setae flexible non-adherence and for designing artificial setae imitating the gecko's adherent setae [Acta Zoologica Sinica 51 (4) : 761-767, 2005].
出处 《动物学报》 SCIE CAS CSCD 北大核心 2005年第4期761-767,共7页 ACTA ZOOLOGICA SINICA
基金 国家科技部项目(No.2002CCA01200) 国家自然科学基金项目(No.30470230 No.30400086)~~
关键词 蜣螂 壁虎 刚毛 粘附 脱附 仿生学 改形 工程作业 机械 充气法 Dung beetle, Copris ochus, Gecko, Gekko gecko, Setae, Adhesion, Anti-adhesion, Bionics
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  • 1北京农业大学.昆虫学通论[M].北京:农业出版社,1981.645-655.
  • 2沈震亚.土壤黏附的机理和应用.地面-机械系统学会第一届会议论文集[M].,1983.19-25.
  • 3张际先.土壤对固体材料黏附和摩擦性能的研究.江苏工学院博士学位论文[M].,1985..
  • 4Ashhurst D E, 1982. The structure and development of insect connective tissues. In: King R C, Alkai H eds. Insect Ultrestrueture. Vol. I. New York: Plenum. 313 - 330.
  • 5Chapman R F, 1982. The Insects-Structure and Function. 3rd ed. Cambridge MA: Harvard University Press. 415 - 420.
  • 6Crowson R A, 1981. The Biology of the Coleoptera. New York: Academic Press. 215 - 680.
  • 7Dennell R, 1976. The fine structure of the cuticle of some Phasmida. In: Hepburn H R ed. The Insect Integument. Elsevier Scientific Publishing Company. 177- 192.
  • 8Filshie B K, 1976. The structure and deposition of the epicuticle of the adult female cattle tick. In: Hepburn H R ed. The Insect Integument. Elsevier Scientific Publishing Company. 193 - 206.
  • 9Filshie B K, 1982. Fine structure of the cutucle of insect and other Arthropods. In: King R C, Alkai H eds. Insect Ultrastructure. Vol. I. New York: Plenum. 181 - 312.
  • 10Locke M, 1976. The role of plasma membrane plaques and Golgi complex vesicles in cuticle deposition during the moult/intermoult cycle. In: Hepburn H R ed. The Insect Integument. Elsevier Scientific Publishing Company. 237 - 358.

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