Abstract
Cyrtarachne is an orb-weaving spider of the sub-family Cyrtarachninae (Araneidae), which includes the triangle-web-building Pasilobus and the bolas spiders. We found that web and thread characteristics of Cyrtarachne differed greatly from those of typical orb-webs. Web diameter, sticky spiral spacing, breaking strength and stickiness of thread, thread diameter and droplet diameter were significantly different from those of other members of Araneidae. It is especially worth noting that the diameter was approximately four times, and the breaking strength seven to ten times larger in Cyrtarachne viscid threads than in those of other araneids. Kinetic energy-absorbing ability of Cyrtarachne threads was much greater than in that of other species, and close to the amount of kinetic energy generated by flying moths. Viscid material of threads was peculiar because its adhesiveness decreased to zero in a few hours. Moreover, SEM photos revealed them to be covered with thin scales of material, while threads of other araneids were smooth. These two facts suggest that the viscid material of Cyrtarachne threads may be different from those of other orb-weavers. As web-building, hunting behaviour and prey composition of different species of Cyrtarachninae arc quite similar to each other, we hypothesize that these extraordinary web and thread characteristics of Cyrtarachne are shared by the other members of this sub-family. Because these characteristics differ in many ways from those of typical araneid orb-webs, there appears to have been a great leap in evolution between Cyrtarachne and the other Araneidae.
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