LettersFine endophytes (Glomus tenue) are related to Mucoromycotina, not GlomeromycotaFine endophytes are arbuscule-producing fungi of unclear phylogenetic placement Fine endophytes (FE), Glomus tenue, are traditionally considered to be arbuscular mycorrhizal fungi (AMF) with distinctive microscopic morphology when stained. FE have fine hyphae (c. 1.5 lm diameter) which branch intra-cellularly in a distinctive fan-like pattern (Gianinazzi-Pearson et al., 1981;Abbott, 1982). The hyphae contain small swellings along their length, sometimes referred to as vesicle-like swellings (Hall, 1977). FE form arbuscules (or arbuscule-like structures) with fine elements in a tapered, conical shape (Greenall, 1963;Merryweather & Fitter, 1998). Spores of FE are very small (< 20 lm) compared to the majority of Glomeromycota, and colourless (Hall, 1977). Morphological variations indicate that FE may consist of multiple species (Thippayarugs et al., 1999), hence we use the term FE to indicate a species group.Within the kingdom Fungi, both morphological and genetic characteristics are used to determine taxonomic classification (St€ urmer, 2012). In 2001, all AMF were placed within the phylum Glomeromycota (Sch€ ußler et al., 2001). In the listing of glomeromycotan species by Sch€ ußler & Walker (2010), some members of the genus Glomus were not revised due to insufficient taxonomic knowledge, and this included FE. A key reason for classifying FE within the Glomeromycota was the presence of arbuscules, considered apomorphic for the phylum (Morton, 1990). However, the morphological features of root colonization by FE are distinct from other, coarse, AMF so their placement within the genus Glomus and the Glomeromycota was questioned (Hall, 1977;Sch€ ußler & Walker, 2010), and their status as mycorrhizal fungi is ambivalent.Accurate determination of FE usually requires magnification ≥ 9100, hence, where assessments of AMF colonization use lower magnifications they may not be identified. Furthermore, FE may be undetected if samples are not processed within 2 d of harvesting (Orchard et al., 2016a). Nevertheless, FE are globally distributed and prolific within many ecosystems, examples include: pastures and native bushland of New Zealand (Crush, 1973) and Australia (Abbott & Robson, 1982;McGee, 1989), Venezuelan cloud forests (Rabatin et al., 1993), riverine and alpine regions of Europe (Read & Haselwandter, 1981;Turnau et al., 1999;Binet et al., 2011) and an old-field in the United States (Hilbig & Allen, 2015). However, the difficulty of isolating and, hence, genetically characterizing FE has hindered the determination of their phylogenetic placement.
A novel method to enrich colonization by fine endophytesTo clarify the identity of FE, we targeted the SSU (18S) ribosomal RNA gene using roots from two independent glasshouse experiments where individual pots contained multiple plants. For each pot we used one root system for DNA extraction and one root system to visually assess the percentage of total root length colonized (%TRL; see Sup...
