Instituto Nacional de Tecnología Agropecuaria, EEA Marcos Juárez, Ruta 12 km 36, 2580, Marcos Juárez, Argentina.
Grupo de Estudios Ambientales (GEA), Instituto de Matemática Aplicada San Luis (IMASL)-CONICET, Universidad Nacional de San Luis, Ejército de los Andes 950, 5700, San Luis, Argentina.
Mycorrhiza. 2019 Jul;29(4):363-373. doi: 10.1007/s00572-019-00895-1. Epub 2019 Apr 23.
The impact of lead (Pb) pollution on native communities of arbuscular mycorrhizal fungi (AMF) was assessed in soil samples from the surroundings of an abandoned Pb smelting factory. To consider the influence of host identity, bulk soil surrounding plant roots soil samples of predominant plant species (Sorghum halepense, Bidens pilosa, and Tagetes minuta) growing in Pb-polluted soils and in an uncontaminated site were selected. Molecular diversity was assessed by sequencing the 18S rDNA region with primers specific to AMF (AMV4.5NF/AMDGR) using Illumina MiSeq. A total of 115 virtual taxa (VT) of AMF were identified in this survey. Plant species did not affect AMF diversity patterns. However, soil Pb content was negatively correlated with VT richness per sample. Paraglomeraceae and Glomeraceae were the predominant families while Acaulosporaceae, Ambisporaceae, Archaeosporaceae, Claroideoglomeraceae, Diversisporaceae, and Gigasporaceae were less abundant. Acaulosporaceae and Glomeraceae were negatively affected by soil Pb, but Paraglomeraceae relative abundance increased under increasing soil Pb content. Overall, 26 indicator taxa were identified; four of them were previously reported in Pb-polluted soils (VT060; VT222; VT004; VT380); and five corresponded to cultured spores of Scutellospora castaneae (VT041), Diversispora spp. and Tricispora nevadensis (VT060), Diversispora epigaea (VT061), Glomus proliferum (VT099), and Gl. indicum (VT222). Even though AMF were present in Pb-polluted soils, community structure was strongly altered via the differential responses of taxonomic groups of AMF to Pb pollution. These taxon-specific differences in tolerance to soil Pb content should be considered for future phytoremediation strategies based on the selection and utilization of native Glomeromycota.
本研究评估了废弃炼铅厂周围土壤样本中铅(Pb)污染对丛枝菌根真菌(AMF)本地群落的影响。为了考虑宿主身份的影响,选择了在 Pb 污染土壤和未污染地点生长的主要植物物种(高粱、鬼针草和万寿菊)的根际土壤样本和根际土壤样本。使用针对 AMF 的引物(AMV4.5NF/AMDGR)通过 Illumina MiSeq 对 18S rDNA 区域进行测序,评估分子多样性。在本次调查中,共鉴定出 115 个 AMF 虚拟分类群(VT)。植物物种不会影响 AMF 多样性模式。然而,土壤 Pb 含量与每个样本的 VT 丰富度呈负相关。球囊霉科和球囊霉科是主要科,而无梗囊霉科、内养囊霉科、古孢囊霉科、裂殖囊霉科、多样化囊霉科和巨囊霉科则较少。无梗囊霉科和球囊霉科受到土壤 Pb 的负面影响,但随着土壤 Pb 含量的增加,球囊霉科的相对丰度增加。总体而言,鉴定出 26 个指示分类群;其中 4 个是以前在 Pb 污染土壤中报道过的(VT060;VT222;VT004;VT380);5 个对应于 Scutellospora castaneae(VT041)、Diversispora spp. 和 Tricispora nevadensis(VT060)、Diversispora epigaea(VT061)、Glomus proliferum(VT099)和 Gl. indicum(VT222)的培养孢子。尽管 AMF 存在于 Pb 污染土壤中,但由于 AMF 分类群对 Pb 污染的不同响应,群落结构发生了强烈改变。在基于对本地丛枝菌根真菌的选择和利用的未来植物修复策略中,应该考虑到对土壤 Pb 含量的耐受性的这些分类群特异性差异。
