Morphological spore-based characterisation and molecular approaches reveal comparable patterns in glomeromycotan communities [0.03%]
形态学孢子鉴定和分子方法揭示了球囊菌群落的相似模式
Noelia Cofré,Gabriel Grilli,Nicolás Marro et al.
Noelia Cofré et al.
Traditionally, characterisation and comparison of AMF communities has been carried out by morphological identification of asexual spores in soil. In recent decades, molecular methods such as soil metabarcoding have become more popular than ...
Arbuscular mycorrhizal fungi strongly influence the endorhizosphere of grapevine rootstock with soil type as a key factor [0.03%]
丛枝菌根真菌强烈影响葡萄砧木的内根际,土壤类型是其关键因素
K Štůsková,A Vavřiník,E Hakalová et al.
K Štůsková et al.
Arbuscular mycorrhizal fungi (AMF) play a crucial role in enhancing the health and productivity of host plants, including grapevine. By forming symbiotic relationships with plant roots, AMF significantly improve water uptake and nutrient ab...
Synonymization of three species of Rhizophagus based on morphological and molecular evidence and biogeography of Rhizophagus clarus [0.03%]
基于形态和分子证据以及Rhizophagus clarus的生物地理学对三种Rhizophagus的同名处理
Sidney Luiz Stürmer,Karl Kemmelmeier,Coline Deveautour et al.
Sidney Luiz Stürmer et al.
Taxonomy of arbuscular mycorrhizal fungi (Glomeromycota) historically has been based mostly on analyses of spore morphology. Molecular evidence has been widely used in phylogeny since the turn of the century and has contributed to the nomen...
The synergistic effect of Rhizophagus irregularis and Biochar on the growth of Switchgrass under sodium-saline-alkali stress: insights from soil mechanical property analysis [0.03%]
丛枝菌根真菌(Rhizophagus irregularis)和生物炭对苏打盐碱胁迫下芒草生长的协同效应--土壤力学性质分析视角
Yuqiang Wen,Tianle Xu,Wei Chang et al.
Yuqiang Wen et al.
Under saline-alkali stress conditions, inoculation with Rhizophagus irregularis or the application of biochar can both promote plant growth and improve soil physicochemical properties. However, the effects of their combined use on switchgra...
Enhancing consistency in arbuscular mycorrhizal trait-based research to improve predictions of function [0.03%]
增强丛枝菌根特性研究的一致性以提高功能预测的准确性
Pedro M Antunes,Sidney L Stürmer,James D Bever et al.
Pedro M Antunes et al.
Arbuscular mycorrhizal (AM) fungi (phylum Glomeromycota) are obligate symbionts with plants influencing plant health, soil a(biotic) processes, and ecosystem functioning. Despite advancements in molecular techniques, understanding the role ...
Intricate phytohormonal orchestration mediates mycorrhizal symbiosis and stress tolerance [0.03%]
复杂的植物激素相互作用调节菌根共生和逆境耐受性
Kaushiki N Kandalgaonkar,Vitthal T Barvkar
Kaushiki N Kandalgaonkar
Arbuscular mycorrhizal fungi (AMF) are an essential symbiotic partner colonizing more than 70% of land plants. In exchange for carbon sources, mycorrhizal association ameliorates plants' growth and yield and enhances stress tolerance and/or...
Gavin Kernaghan,Britanie LeFait,Ayesha Hussain
Gavin Kernaghan
Ectomycorrhizae (ECM) and their hyphae may account for up to one-third of forest productivity, but we know little about their patterns of decomposition and recruitment. ECM decomposition rates are governed in part by the identity of the sym...
Paraglomus and Glomus arbuscular mycorrhizal fungi induce the green tea catechin quality index and phosphorus bioavailability in tropical soils [0.03%]
丛枝菌根真菌paraglomus和glomus提高热带土壤中绿茶的儿茶素品质指数和磷有效性
Pei Yuan,Yingzi Wang,Jianwei Peng et al.
Pei Yuan et al.
The quality of green tea is influenced by soil microbes in addition to soil conditions and the Camellia sinensis cultivar. Arbuscular mycorrhizal (AM) fungi can significantly improve soil quality and crop productivity; however, the specific...
Bacterial community in the hyphosphere of an arbuscular mycorrhizal fungus differs from that in the surrounding environment and is influenced by hyphal disruption [0.03%]
丛枝菌根真菌的菌丝圈中的细菌群落与周围环境中的不同,并受菌丝破坏的影响
Zexing Jin,Shilong Duan,Stéphane Declerck et al.
Zexing Jin et al.
Bacterial composition and functions in the hyphosphere of arbuscular mycorrhizal (AM) fungi are complex because AM fungal hyphae transport carbon compounds from plant photosynthesis which feed bacteria and act as signaling molecules. This f...
The tiny-leaved orchid Disperis neilgherrensis primarily obtains carbon from decaying litter via saprotrophic Ceratobasidium [0.03%]
具微小叶的兰科球齿兰通过腐生Ceratobasidium从凋落物中获取碳素
Kenji Suetsugu,Ryuta Yagi,Hidehito Okada et al.
Kenji Suetsugu et al.
While most green orchids establish associations with non-ectomycorrhizal rhizoctonias belonging to Ceratobasidiaceae, Tulasnellaceae, and Serendipitaceae, fully mycoheterotrophic orchids-excluding albino mutants-primarily depend on either e...