蜘蛛丝光谱特性的进化转变

EVOLUTIONARY SHIFTS IN THE SPECTRAL PROPERTIES OF SPIDER SILKS.

作者信息

Craig Catherine L, Bernard Gary D, Coddington Jonathan A

机构信息

Department of Biology, Osborn Memorial Laboratories, Yale University, New Haven, Connecticut, 06511.

Department of Electrical Engineering, University of Washington, Seattle, Washington, 98195.

出版信息

Evolution. 1994 Apr;48(2):287-296. doi: 10.1111/j.1558-5646.1994.tb01312.x.

DOI:10.1111/j.1558-5646.1994.tb01312.x

PMID:28568294

Abstract

We measured the reflectance properties of unpigmented silks spun by a systematic array of primitive (Deinopoidea) and derived (Araneoidea) aerial, web-spinning spiders, as well as silks spun by Araneomorphae and Mygalomorphae spiders that do not spin aerial webs. Our data show that all of the primitive aerial web spinners produce catching silks with a spectral peak in the ultraviolet (UV), and cladistic analysis suggests that high UV reflection is the primitive character state for silk spectral properties. In contrast, all of the derived aerial web spinners produce silks that are spectrally flat or characterized by reduced reflectance in the UV. Correlated with the evolution of these catching silks is a 37-fold increase in species number and apparent habitat expansion. This suggests that the unique silk proteins spun by the araneoids have been important to their ecological and evolutionary diversity.

摘要

我们测量了一系列原始（漏斗蛛总科）和衍生（园蛛总科）的在空中结网的蜘蛛所纺出的无色素丝的反射特性，以及不结空中网的新蛛亚目和原蛛亚目蜘蛛所纺出的丝的反射特性。我们的数据表明，所有原始的空中结网蜘蛛所产生的捕捉丝在紫外光（UV）波段有一个光谱峰值，而分支系统分析表明，高紫外反射是丝光谱特性的原始性状状态。相比之下，所有衍生的空中结网蜘蛛所产生的丝在光谱上是平坦的，或者其特征是在紫外波段反射率降低。与这些捕捉丝的进化相关的是物种数量增加了37倍以及明显的栖息地扩张。这表明园蛛所纺出的独特丝蛋白对它们的生态和进化多样性很重要。

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蜘蛛丝光谱特性的进化转变

EVOLUTIONARY SHIFTS IN THE SPECTRAL PROPERTIES OF SPIDER SILKS.

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