一种一亿年前身材苗条的昆虫捕食者，有着巨大的毒液注射针——一种来自缅甸琥珀的新型神经翼类幼虫

IF 1.5 3区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Bulletin of Geosciences Pub Date : 2019-12-31 DOI:10.3140/bull.geosci.1753

J. Haug, P. Müller, C. Haug

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引用次数: 33

摘要

包括蜜蜂、苍蝇、蝴蝶、甲虫等在内的多元种群，无论是物种丰富度、生物量还是个体数量，都取得了令人难以置信的成功。这一成功部分归因于幼虫和成虫之间的生态位差异。因此，在大多数情况下，成年全代谢动物避免与自己的后代进行剥削竞争。这显然导致了高度专业化的成虫，也导致了高度专业化的幼虫。鳞翅目蝴蝶和膜翅目锯蝇的毛虫是高效的食草动物，能将植物部分转化为昆虫生物量。其他类群的幼虫具有不同的生态作用。神经翼类动物的幼虫，草蛉，是高度专业化的掠食者(只有少数例外)。它们的口器形成两个向前的(突出的)毒液注射柱(例如Aspöck等人，2001,2012;Beutel et al. 2010);每个下颌骨(上颌)形成一个柱头，具有下一个后口器(上颌骨;下颌)。在神经翅目的不同亚群中，进化出了这种基本模式的许多不同变体。这些发型中有许多是弯曲的。这样，穿孔的尖端就会彼此朝向对方。这种安排几乎是机械挑战的理想解决方案，当刺穿猎物时，需要一个抵消力;否则，这种刺人的动物只会把自己从猎物身边推开。在反作用力口器中，反作用力由其它口器提供。这种机械解决方案不仅在许多神经翼类幼虫中实现，而且在大多数蜈蚣的注射毒液上颌足类(见Haug et al. 2014和其中的参考文献进行了详细讨论)以及唇形蜘蛛的注射毒液螯足类中也实现了。在具有弯曲柱头的神经翼类幼虫中也发生了许多变异。草蛉的幼虫

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A 100-million-year old slim insectan predator with massive venom-injecting stylets - a new type of neuropteran larva from Burmese amber

meta bola – including bees, flies, butterflies, beetles and many more – is incredibly successful by numerous mea sures, be it species richness, biomass, or numbers of individuals. Part of this success has been attributed to the niche differentiation between larvae and adults. Due to this, in most cases, adult holometabolans avoid exploitation competition with their own offspring. This has obviously led to highly specialised adults, but also to highly specialised larval forms. Caterpillars of butterflies (Lepidoptera) and sawflies (Hymenoptera) are highly efficient herbivores, transforming plant parts into insect biomass. Larvae of other groups have different ecological roles. The larval forms of neuropterans, lacewings, are highly specialised predators (with only few exceptions). Their mouthparts form two forward oriented (prognathous) venom-injecting stylets (e.g. Aspöck et al. 2001, 2012; Beutel et al. 2010); each mandible (upper jaw) forms a stylet with an enditic protrusion (generally interpreted as the lacinia) of the next posterior mouthpart (maxilla; lower jaw). Within the diverse subgroups of Neuroptera many different variations of this basic scheme have evolved. Many of these stylets are curved. In this way the piercing tips are facing towards each other. This arrangement is an almost ideal solution for the mechanical challenge that while piercing a prey a counteracting force is necessary; otherwise the piercing animal would simply push itself back from the prey. In counteracting mouthparts, the counteracting force is provided by the other mouthparts. This mechanical solution is not only realised in many neuropteran larvae, but also in the venominjecting maxillipeds of most centipedes (see Haug et al. 2014 and references therein for a detailed discussion) as well as the venominjecting chelicerae of labidognathan spiders. Among the neuropteran larvae with curved stylets also many variations occur. The larvae of green lacewings

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来源期刊

Bulletin of Geosciences 地学-地球科学综合

CiteScore

3.10

自引率

5.30%

发文量

审稿时长

>12 weeks

期刊介绍： The Bulletin of Geosciences is an international journal publishing original research papers, review articles, and short contributions concerning palaeoenvironmental geology, including palaeontology, stratigraphy, sedimentology, palaeogeography, palaeoecology, palaeoclimatology, geochemistry, mineralogy, geophysics, and related fields. All papers are subject to international peer review, and acceptance is based on quality alone.