Seasonal Timing of Spermatogenesis and Mating in Squamates: A Reinterpretation

IF 2.6 Q2 Agricultural and Biological Sciences Copeia Pub Date : 2020-05-04 DOI:10.1643/CH-19-230
R. Aldridge, D. Siegel, S. Goldberg, Alexander Pyron
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引用次数: 9

Abstract

The squamates occur in a variety of climates from tropical to Arctic regions. Being poikilotherms, snakes and lizards in temperate regions, and high elevation tropical environments, must adjust their reproductive biology to reproduce at a time that optimizes offspring survival. The two major components of the reproductive cycle in both males and females are gametogenesis and mating. The reproductive cycle of males is the focus of this study. In snakes in temperate climates, sperm production (spermatogenesis) may occur immediately prior to mating (prenuptial spermatogenesis) or following mating (postnuptial spermatogenesis). In postnuptial spermatogenesis, sperm are produced following the mating season and stored in the efferent testicular ducts (primarily the ductus deferens) until the following spring mating season. Given that most recent phylogenetic reconstructions resolve snakes as a monophyletic group of highly specialized lizards, it is generally assumed that lizards have spermatogenic cycles similar to snakes. Lizard spermatogenic cycles are often described as prenuptial or postnuptial. We propose that the major difference between snake and lizard spermatogenic cycles is the presence of postnuptial spermatogenesis in snakes and the absence of true postnuptial spermatogenesis in lizards. Our interpretation of lizard spermatogenic cycles suggests that all lizards have prenuptial spermatogenesis (i.e., sperm are produced immediately prior to mating). If fertilization occurs months after mating, the female, and not the male, stores the sperm until spring ovulation and fertilization. Using a variety of analytical tools, we analyzed the reproductive strategies of snakes and lizards, and we have concluded that they differ in fundamental ways. Most notably, prenuptial spermatogenesis is the ancestral condition for Squamata with continuous spermatogenesis evolving multiple times independently within lizards and snakes. We also found that postnuptial spermatogenesis evolved early in the evolutionary history of snakes but, we argue, has never evolved in lizards. We suggest that the evolutionary origin of snakes may account for the differences observed in snake versus lizard reproductive cycles, and we present a scenario for the evolution of snake reproductive cycles.
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在鳞片中精子发生和交配的季节时间:一个重新解释
这些小队成员生活在从热带到北极地区的各种气候中。温带地区和高海拔热带环境中的蛇和蜥蜴是嗜热动物,它们必须调整繁殖生物学,以便在优化后代生存的时间繁殖。雄性和雌性生殖周期的两个主要组成部分是配子发生和交配。雄性的生殖周期是本研究的重点。在温带气候的蛇中,精子产生(精子发生)可能发生在交配前(婚前精子发生)或交配后(婚后精子发生)。在婚后精子发生中,精子在交配季节后产生,并储存在传出的睾丸管(主要是输精管)中,直到下一个春季交配季节。鉴于最近的系统发育重建将蛇视为一个高度特化的蜥蜴单系群,人们普遍认为蜥蜴的生精周期与蛇相似。蜥蜴的生精周期通常被描述为婚前或婚后。我们认为,蛇和蜥蜴精子生成周期的主要区别在于蛇存在婚后精子生成,而蜥蜴没有真正的婚后精子生成。我们对蜥蜴精子发生周期的解释表明,所有蜥蜴都有婚前精子发生(即精子在交配前立即产生)。如果受精发生在交配后几个月,雌性而不是雄性会储存精子,直到春季排卵和受精。使用各种分析工具,我们分析了蛇和蜥蜴的繁殖策略,得出的结论是它们在根本上不同。最值得注意的是,婚前精子发生是角鲨的祖先条件,在蜥蜴和蛇体内,连续的精子发生会独立进化多次。我们还发现,婚后精子发生在蛇进化史的早期进化,但我们认为,蜥蜴从未进化过。我们认为,蛇的进化起源可能是蛇与蜥蜴繁殖周期差异的原因,我们提出了蛇繁殖周期进化的场景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Copeia
Copeia 生物-动物学
CiteScore
2.10
自引率
0.00%
发文量
0
审稿时长
6-12 weeks
期刊介绍: Founded in 1913, Copeia is a highly respected international journal dedicated to the publication of high quality, original research papers on the behavior, conservation, ecology, genetics, morphology, evolution, physiology, systematics and taxonomy of extant and extinct fishes, amphibians, and reptiles. Copeia is published electronically and is available through BioOne. Articles are published online first, and print issues appear four times per year. In addition to research articles, Copeia publishes invited review papers, book reviews, and compiles virtual issues on topics of interest drawn from papers previously published in the journal.
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