Mattoni Camilo I, García-Hernández Solimary, Botero-Trujillo Ricardo, Ochoa José A, Ojanguren-Affilastro Andrés A, Pinto-da-Rocha Ricardo, Prendini Lorenzo
Universidad Nacional de Córdoba, Córdoba, Argentina.
Universidad Industrial de Santander, Bucaramanga, Colombia; Universidade de São Paulo, São Paulo, Brazil.
PLoS One. 2015 Jan 28;10(1):e0116639. doi: 10.1371/journal.pone.0116639. eCollection 2015.
Autotomy, the voluntary shedding or detachment of a body part at a determined cleavage plane, is a common anti-predation defense mechanism in several animal taxa, including arthropods. Among arachnids, autotomy has been observed in harvestmen, mites, and spiders, always involving the loss of legs. Autotomy of the opisthosoma (abdomen) was recently reported in a single species of the Neotropical buthid scorpion genus Ananteris Thorell, 1891, but few details were revealed. Based on observations in the field and laboratory, examination of material in museum collections, and scanning electron microscopy, we document autotomy of the metasoma (the hind part of the opisthosoma, or 'tail') in fourteen species of Ananteris. Autotomy is more common in males than females, and has not been observed in juveniles. When the scorpion is held by the metasoma, it is voluntarily severed at the joints between metasomal segments I and II, II and III, or III and IV, allowing the scorpion to escape. After detachment, the severed metasoma moves (twitches) automatically, much like the severed tail of a lizard or the severed leg of a spider, and reacts to contact, even attempting to sting. The severed surface heals rapidly, scar tissue forming in five days. The lost metasomal segments and telson cannot be regenerated. Autotomy of the metasoma and telson results in permanent loss of the posterior part of the scorpion's digestive system (the anus is situated posteriorly on metasomal segment V) and the ability to inject venom by stinging. After autotomy, scorpions do not defecate and can only capture small prey items. However, males can survive and mate successfully for up to eight months in the laboratory. In spite of diminished predation ability after autotomy, survival allows males to reproduce. Autotomy in Ananteris therefore appears to be an effective, adaptive, anti-predation escape mechanism.
自割,即动物在特定的分裂平面上主动脱落或分离身体的一部分,是包括节肢动物在内的几个动物类群中常见的一种反捕食防御机制。在蛛形纲动物中,已在盲蛛、螨类和蜘蛛中观察到自割现象,且总是涉及腿部的丢失。最近有报道称,在新热带地区的单一种类的毒蝎属(Ananteris Thorell,1891)中出现了后体(腹部)自割现象,但细节披露较少。基于野外和实验室观察、对博物馆馆藏标本的检查以及扫描电子显微镜观察,我们记录了14种毒蝎属动物的后体(后体的后部,即“尾巴”)自割现象。自割现象在雄性中比雌性更常见,在幼体中未观察到。当毒蝎的后体被抓住时,它会在第Ⅰ和第Ⅱ节、第Ⅱ和第Ⅲ节或第Ⅲ和第Ⅳ节后体节之间的关节处自动切断,从而使毒蝎得以逃脱。分离后,切断的后体会自动移动(抽搐),很像蜥蜴被切断的尾巴或蜘蛛被切断的腿,并且对接触有反应,甚至试图蜇刺。切断的表面愈合迅速,五天内形成瘢痕组织。丢失的后体节和尾节无法再生。后体和尾节自割会导致毒蝎消化系统后部永久性丧失(肛门位于后体节Ⅴ的后部),以及通过蜇刺注入毒液的能力丧失。自割后,毒蝎不再排便,只能捕获小型猎物。然而,雄性在实验室中最多可存活并成功交配八个月。尽管自割后捕食能力下降,但存活下来使雄性能够繁殖。因此,毒蝎属动物的自割似乎是一种有效的、适应性的反捕食逃脱机制。
