National Research Council, Plant Genetics Institute, Perugia Division, Via Madonna Alta 130, 06128 Perugia, Italy.
Mycorrhiza. 2011 Jan;21(1):17-25. doi: 10.1007/s00572-010-0308-4. Epub 2010 Mar 27.
Belowground ectomycorrhizal communities are often species rich. Characterization of the ectomycorrhizas (ECMs) underneath native truffle areas and/or cultivation sites is particularly relevant to identifying fungal species that might interfere with or promote truffle propagation and fruiting. Fungal identification at the genus/species level can now be achieved by combining detailed morphological and anatomical descriptions with molecular approaches. In a survey of the mycorrhizal biodiversity of Tuber melanosporum orchards and inoculated host plants in nurseries, we repeatedly sampled ECMs with morphological features resembling those of the ECMs widely known as the AD type. Despite the fact that the AD type is regarded as one of the most competitive fungal species towards Tuber spp., its taxonomical rank has yet to be resolved. By analyzing the 28S and internal transcribed spacer (ITS) rDNA regions, here, we show that AD-type ECMs result from host plant colonization by the pyronemataceous species Trichophaea woolhopeia. Further to this, the 28S and ITS phylogenetic trees built from the AD-type ECMs analyzed sustain the hypothesis that T. woolhopeia is a species complex.
地下外生菌根群落通常具有丰富的物种多样性。对本地块菌区和/或种植点下的外生菌根(ECM)进行特征描述,对于鉴定可能干扰或促进块菌繁殖和结实的真菌物种尤为重要。现在,通过将详细的形态学和解剖学描述与分子方法相结合,可以在属/种水平上进行真菌鉴定。在对 Tuber melanosporum 果园和苗圃中接种宿主植物的菌根生物多样性进行调查时,我们反复用形态特征与被广泛认为是 AD 型的 ECM 相似的 ECM 进行采样。尽管 AD 型被认为是对 Tuber spp. 最具竞争力的真菌物种之一,但它的分类地位尚未得到解决。通过分析 28S 和内部转录间隔区(ITS)rDNA 区域,我们在这里表明,AD 型 ECM 是由 pyronemataceous 物种 Trichophaea woolhopeia 对宿主植物的定殖引起的。此外,从分析的 AD 型 ECM 构建的 28S 和 ITS 系统发育树支持 Trichophaea woolhopeia 是一个物种复合体的假设。
