Phylogenetic classification of arbuscular mycorrhizal fungi: new species and higher-ranking taxa in Glomeromycota and Mucoromycota (class Endogonomycetes)

IF 4.7 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-09 DOI:10.3897/mycokeys.107.125549

L. Tedersoo, F. Magurno, Saad Alkahtani, Vladimir Mikryukov

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Abstract

Arbuscular mycorrhizal (AM) fungi - Glomeromycota and Endogonomycetes - comprise multiple species and higher-level taxa that have remained undescribed. We propose a mixed morphology- and DNA-based classification framework to promote taxonomic communication and shed light into the phylogenetic structure of these ecologically essential fungi. Based on eDNA samples and long reads as type materials, we describe 15 new species and corresponding genera (Pseudoentrophospora kesseensis, Hoforsa rebekkae, Kahvena rebeccae, Kelottijaervia shannonae, Kungsaengena shadiae, Langduoa dianae, Lehetua indrekii, Lokruma stenii, Moostea stephanieae, Nikkaluokta mahdiehiae, Parnigua craigii, Riederberga sylviae, Ruua coralieae, Tammsaarea vivikae and Unemaeea nathalieae), the genus Parvocarpum as well as 19 families (Pseudoentrophosporaceae, Hoforsaceae, Kahvenaceae, Kelottijaerviaceae, Kungsaengenaceae, Langduoaceae, Lehetuaceae, Lokrumaceae, Moosteaceae, Nikkaluoktaceae, Parniguaceae, Riederbergaceae, Ruuaceae, Tammsaareaceae, Unemaeeaceae, Bifigurataceae, Planticonsortiaceae, Jimgerdemanniaceae and Vinositunicaceae) and 17 orders (Hoforsales, Kahvenales, Kelottijaerviales, Kungsaengenales, Langduoales, Lehetuales, Lokrumales, Moosteales, Nikkaluoktales, Parniguales, Riederbergales, Ruuales, Tammsaareales, Unemaeeales, Bifiguratales and Densosporales), and propose six combinations (Diversispora bareae, Diversispora nevadensis, Fuscutata cerradensis, Fuscutata reticulata, Viscospora deserticola and Parvocarpum badium) based on phylogenetic evidence. We highlight further knowledge gaps in the phylogenetic structure of AM fungi and propose an alphanumeric coding system for preliminary communication and reference-based eDNA quality-filtering of the remaining undescribed genus- and family-level groups. Using AM fungi as examples, we hope to offer a sound, mixed framework for classification to boost research in the alpha taxonomy of fungi, especially the “dark matter fungi”.

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丛枝菌根真菌的系统发育分类：球菌门（Glomeromycota）和粘菌门（Mucoromycota）（Endogonomycetes 类）中的新种和高等类群

丛枝菌根（AM）真菌（Glomeromycota 和 Endogonomycetes）包括多个尚未描述的物种和更高层次的类群。我们提出了一个基于形态学和 DNA 的混合分类框架，以促进分类学交流，并揭示这些生态上不可或缺的真菌的系统发育结构。基于 eDNA 样本和长读数作为模式材料，我们描述了 15 个新种和相应的属（Pseudoentrophospora kesseensis、Hoforsa rebekkae、Kahvena rebeccae、Kelottijaervia shannonae、Kungsaengena shadiae、Langduoa dianae、Lehetua indrekii、Lokruma stenii、Moostea stephanieae、Nikkaluokta mahdie、Nikkaluokta mahdie、Nikkaluokta mahdie、Nikkaluokta mahdie、Nikkaluokta mahdie）、Nikkaluokta mahdiehiae、Parnigua craigii、Riederberga sylviae、Ruua coralieae、Tammsaarea vivikae 和 Unemaeea nathalieae）、Parvocarpum 属以及 19 个科（Pseudoentrophosporaceae、Hoforsaceae、Kahvenaceae、Kelottijaerviaceae、Kungsaengenaceae、Langduoaceae、Lehetuaceae、Lokrumaceae、Moosteaceae、(Nikkaluoktaceae、Parniguaceae、Riederbergaceae、Ruaceae、Tammsaareaceae、Unemaeeaceae、Bifigurataceae、Planticonsortiaceae、Jimgerdemanniaceae 和 Vinositunicaceae) 和 17 个目（Hoforsales、Kahvenales、Kelottijaerviales、Kungsaengenales、Langduoales、Lehetuales、Lokrumales、Moosteales、Nikkaluoktales、Parniguales、Riederbergaceae、Ruaceae、Tammsaareaceae、Unemaeeaceae、Bifigurataceae、Planticonsortiaceae、Jimgerdemanniaceae 和 Vinositunicaceae）、Parniguales、Riederbergales、Ruuales、Tammsaareales、Unemaeeales、Bifiguratales 和 Densosporales），并根据系统发育证据提出了六个组合（Diversispora bareae、Diversispora nevadensis、Fuscutata cerradensis、Fuscutata reticulata、Viscospora deserticola 和 Parvocarpum badium）。我们强调了在上午真菌系统发育结构方面存在的进一步知识差距，并提出了一种字母数字编码系统，用于初步交流和基于参考的 eDNA 质量筛选剩余的未描述属级和科级类群。我们希望以AM真菌为例，提供一个完善的混合分类框架，以促进真菌阿尔法分类学的研究，尤其是 "暗物质真菌 "的研究。

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464

期刊介绍： ACS Applied Bio Materials is an interdisciplinary journal publishing original research covering all aspects of biomaterials and biointerfaces including and beyond the traditional biosensing, biomedical and therapeutic applications. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrates knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important bio applications. The journal is specifically interested in work that addresses the relationship between structure and function and assesses the stability and degradation of materials under relevant environmental and biological conditions.