蝌蚪(Anura)食性和肠道形态的进化与发育考虑。

Q2 Biochemistry, Genetics and Molecular Biology BMC Developmental Biology Pub Date : 2020-07-29 DOI:10.1186/s12861-020-00221-5
Marissa Fabrezi, Julio César Cruz
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摘要

背景:在变态之前,几乎所有有尾类蝌蚪都是杂食动物。某些物种的幼体会食肉,而且与独特的形态有关。与以杂食为主的幼体相比,强制性肉食蝌蚪的胃肠道结构发生了变化。有尾目蝾螈科(三个属)总体上最显著的特征是成体的巨大口器。这一特征增强了它们捕捉体型巨大且活跃的猎物的能力。Ceratophyrid 属的幼虫彼此差异显著,其肉食方式的多样化是其他无尾类动物所未见的。其中一个属(Lepidobatrachus)的幼虫与成虫一样具有巨大的裂口。在此,我们报告了以下瓣鳃纲物种幼虫系列在变态前、变态期间和变态后的发育变化、食性、胃肠道的大体形态和肠道颅段的组织学:结果:结果:我们描述了幼虫的生长发育模式,以及在变态末期最终大小的生长变化。这些模式似乎受到食物数量/质量的影响,其中最主要的是动物蛋白。变质前和变质后鳞鳃蛙的猎物种类相似。Ceratophrys和Chacophrys(以及其他无尾类)的蝌蚪都有一个短的头颅肠段,内有腺体和分泌粘液的上皮,肠道双层盘绕,变态变化顺序也相同(肠道是空的,胃开始分化,肠道突然变短)。与此相反,Lepidobatrachus 的蝌蚪有一个真正的胃,胃在发育过程中逐渐变厚,腺体也越来越复杂。幼体时,它们的肠道很短,没有双线圈,而且在变态过程中肠道没有缩短:结论:与其他自由生活的无尾类幼体相比,鳞鳃蛙幼体胃肠道的发育非常独特。结论:与其他自由生活的无尾类幼体相比,鳞鳃蛙的胃肠道幼体发育非常独特,没有突然的变态转变,大部分成体结构特征在幼体初期就开始逐渐分化。
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Evolutionary and developmental considerations of the diet and gut morphology in ceratophryid tadpoles (Anura).

Background: Before metamorphosis, almost all anuran tadpoles are omnivores. Larval carnivory occurs in some species and, it is associated with distinctive morphotypes. Obligatory carnivorous tadpoles exhibit structural changes in the gastrointestinal tract compared to larvae that are predominately omnivores. The most distinctive feature of the anuran family Ceratophyridae (three genera) overall is the enormous gape of adults. This feature increases their ability to capture extremely large and active prey. The larvae of Ceratophyrid genera are remarkably distinct from each other and carnivory has diversified in a manner unseen in other anurans. The larvae of one genus, Lepidobatrachus, has a massive gape like the adult. Herein, we report on larval developmental variation, diet, gross morphology of the gastrointestinal tract, and histology of the cranial segment of the gut before, during and after metamorphosis in larval series for the following ceratophryid species: Chacophrys pierottii, Ceratophrys cranwelli, Lepidobatrachus laevis and Lepidobatrachus llanensis.

Results: We described patterns of larval development with variation in growth with consequence to the final size at the end of metamorphosis. These patterns seem to be influenced by food quantity/quality, and most predominant by animal protein. Prey items found in pre and post-metamorphic Lepidobatrachus spp. are similar. Tadpoles of Ceratophrys and Chacophrys (and other anurans) share a short cranial segment of the gut with an internal glandular, mucous secreting epithelium, a double coiled intestine and the sequence of metamorphic changes (tract is empty, the stomach differentiates and the intestine shortens abruptly). In contrast, Lepidobatrachus tadpoles have a true stomach that acquires thickness and increased glandular complexity through development. As larvae they have a short intestine without double coils, and the absence of intestine shortening during metamorphosis.

Conclusions: The larval development of the gastrointestinal tract of Lepidobatrachus is unique compared with that of other free-living anuran larvae. An abrupt metamorphic transformation is missing and most of the adult structural features start to differentiate gradually at the beginning of larval stages.

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BMC Developmental Biology
BMC Developmental Biology 生物-发育生物学
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>12 weeks
期刊介绍: BMC Developmental Biology is an open access, peer-reviewed journal that considers articles on the development, growth, differentiation and regeneration of multicellular organisms, including molecular, cellular, tissue, organ and whole organism research.
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