The Last Piece of the Puzzle? Phylogenetic Position and Natural History of the Monotypic Fungus-Farming Ant Genus Paramycetophylax (Formicidae: Attini)

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY
P. E. Hanisch, J. Sosa‐Calvo, T. Schultz
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引用次数: 5

Abstract

Abstract The evolutionary history of fungus-farming ants has been the subject of multiple morphological, molecular phylogenetic, and phylogenomic studies. Due to its rarity, however, the phylogenetic position, natural history, and fungal associations of the monotypic genus Paramycetophylax Kusnezov have remained enigmatic. Here we report the first excavations of colonies of Paramycetophylax bruchi (Santschi) and describe its nest architecture and natural history. Utilizing specimens from these collections, we generated ultraconserved-element (UCE) data to determine the evolutionary position of Paramycetophylax within the fungus-farming ants and ribosomal ‘fungal barcoding’ ITS sequence data to identify the fungal cultivar. A maximum-likelihood phylogenomic analysis indicates that the genus Paramycetophylax is the sister group of the yeast-cultivating Cyphomyrmex rimosus group, an unexpected result that renders the genus Cyphomyrmex Mayr paraphyletic. A Bayesian divergence-dating analysis indicates that Paramycetophylax diverged from its sister group around 36 mya (30–42 mya, HPD) in the late Eocene-early Oligocene, a period of global cooling, expansion of grasslands, and large-scale extinction of tropical organisms. Bayesian analysis of the fungal cultivar ITS gene fragment indicates that P. bruchi practices lower agriculture and that the cultivar grown by P. bruchi belongs to the Clade 1 group of lower-attine fungi, a clade that, interestingly, also includes the C. rimosus-group yeast cultivars. Based on these results, we conclude that a better understanding of P. bruchi and its fungal cultivar, including whole-genome data, is critical for reconstructing the origin of yeast agriculture, a major transition in the evolution of fungus-farming ants.
最后一块拼图?单型真菌养殖蚁属Paraycetophylax的系统发育地位和自然历史(蚁科:Attini)
摘要真菌养殖蚁的进化史一直是多种形态、分子系统发育和系统发育学研究的主题。然而,由于其稀有性,单型副ycetophylax Kusnezov属的系统发育位置、自然历史和真菌组合仍然是个谜。在这里,我们报道了首次对水豚(Santschi)群落的挖掘,并描述了其巢穴结构和自然历史。利用这些标本,我们生成了超保守元素(UCE)数据,以确定副菌门在真菌养殖蚂蚁中的进化位置,并生成了核糖体“真菌条形码”ITS序列数据,以识别真菌品种。一项最大似然系统发育学分析表明,Paramycetophylax属是酵母培养Cyphomyrmex rimosus群的姐妹群,这一意外结果使Cyphomylmex Mayr属成为副系。贝叶斯分歧定年分析表明,在始新世晚期-渐新世早期,即全球降温、草原扩张和热带生物大规模灭绝的时期,副ycetophylax在36 mya(30–42 mya,HPD)左右与其姊妹群分化。对真菌品种ITS基因片段的贝叶斯分析表明,P.bruchi从事低级农业,并且P.bruchie种植的品种属于低级attine真菌的分支1组,有趣的是,该分支还包括C.rimosus组酵母品种。基于这些结果,我们得出结论,更好地了解布鲁奇P.bruchi及其真菌品种,包括全基因组数据,对于重建酵母农业的起源至关重要,酵母农业是真菌养殖蚂蚁进化的一个重要转变。
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
CiteScore
5.30
自引率
8.80%
发文量
34
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