Evolution of extreme proboscis lengths in Neotropical Hesperiidae (Lepidoptera).

J A-S Bauder, A D Warren, H W Krenn
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Abstract

Exaggerated morphologies have evolved in insects as adaptations to nectar feeding by natural selection. For example, the suctorial mouthparts of butterflies enable these insects to gain access to floral nectar concealed inside deep floral tubes. Proboscis length in Lepidoptera is known to scale with body size, but whether extreme absolute proboscis lengths of nectar feeding butterflies result from a proportional or disproportional increase with body size that differs between phylogenetic lineages remains unknown. We surveyed the range of variation that occurs in scaling relationships between proboscis length and body size against a phylogenetic background among Costa Rican Hesperiidae. We obtained a new record holder for the longest proboscis in butterflies and showed that extremely long proboscides evolved at least three times independently within Neotropical Hesperiidae. We conclude that the evolution of extremely long proboscides results from allometric scaling with body size, as demonstrated in hawk moths. We hypothesize that constraints on the evolution of increasingly long butterfly proboscides may come from (1) the underlying scaling relationships, i.e., relative proboscis length, combined with the butterfly's flight style and flower-visiting behaviour and/or (2) developmental constraints during the pupal phase. Lastly, we discuss why butterflies did not evolve similar scaling relationships as hawk moths.

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新热带鳞翅目蛾科极端长喙的进化。
昆虫进化出了夸张的形态,以适应自然选择的花蜜。例如,蝴蝶的吸吮口器使这些昆虫能够获得隐藏在深花管中的花蜜。鳞翅目的喙长已知与身体大小成比例,但食蜜蝴蝶的极端绝对喙长是否与身体大小成比例或不成比例地增加,这在不同的系统发育谱系中是不同的,仍然未知。我们调查的变化范围,发生在尺度关系之间的长喙和身体大小对哥斯达黎加的系统发育背景之间的长喙。我们获得了蝴蝶最长喙的新纪录保持者,并表明在新热带蝶科中,极长的喙至少独立进化了三次。我们得出的结论是,如飞蛾所证明的那样,超长喙虫的进化是由身体大小的异速缩放引起的。我们推测,限制蝴蝶长吻喙进化的因素可能来自:(1)潜在的尺度关系,即相对吻喙长度,结合蝴蝶的飞行方式和访花行为,以及/或(2)蛹期的发育限制。最后,我们讨论了为什么蝴蝶没有像鹰蛾那样进化出类似的缩放关系。
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