Functional traits of Asteraceae species vary with arbuscular mycorrhizal fungal identity and phylogeny [0.03%]
丛枝菌根真菌身份和系统发育决定了菊科植物功能特征的不同
Cem Turanoglu,Héloïse Ancel,Cécile Le Lann et al.
Cem Turanoglu et al.
Plants interact closely with arbuscular mycorrhizal (AM) fungi. They allocate photosynthates to AM fungi in exchange for nutrients, thereby influencing plant fitness. Although plant phenotypes result from multiple traits constrained by trad...
Antoine Sportès,Mathilde Hériché,Damien Inès et al.
Antoine Sportès et al.
Nutrient exchanges are a key feature of arbuscular mycorrhizal (AM) symbiosis. Grapevine (Vitis vinifera), one of the most economically important crops worldwide, relies heavily on AM symbiosis for its growth and development. Since the phyl...
Development of a high-throughput spore germination test to assess the toxicity of pesticides on arbuscular mycorrhizal fungi [0.03%]
一种用于评估农药对丛枝菌根真菌毒性影响的高通量孢子萌发试验方法的研究与发展
Marjan Roshanfekrrad,Christos Papadopoulos,Maryline Calonne-Salmon et al.
Marjan Roshanfekrrad et al.
Pesticides are essential agricultural inputs that help securing crop yields. However, they can affect non-target soil microorganisms, including arbuscular mycorrhizal (AM) fungi, that are potential indicators of the toxicity of pesticides o...
Integrative transcriptomic and physiological analyses uncover mechanisms by which arbuscular mycorrhizal fungi mitigate salt stress in sugar beet [0.03%]
整合转录组和生理分析揭示了泡囊丛枝菌根真菌缓解糖用甜菜盐胁迫的机制
Zeyuan Cui,Xiaodong Li,Pingan Han et al.
Zeyuan Cui et al.
Sugar beet (Beta vulgaris L.) is cultivated extensively worldwide as an important cash crop, and soil salinity is a critical factor influencing both its yield and sugar content. Consequently, enhancing the salt tolerance of sugar beet is of...
Diverse mycorrhizal associations and nutrition in Didymoplexis orchids [0.03%]
Didymoplexis兰属的菌根多样性及其营养方式
Yung-I Lee,Franziska E Zahn,Qiao-Yi Xie et al.
Yung-I Lee et al.
Fully mycoheterotrophic (FMH) orchids rely entirely on mycorrhizal fungi for carbon and nutrients, with tropical Asian FMH orchids typically associating with saprotrophic fungi, though some known relationships also with ectomycorrhizal fung...
The potential of earthworms and arbuscular mycorrhizal fungi to enhance phytoremediation in heavy metal-contaminated soils: a review [0.03%]
蚯蚓和丛枝菌根真菌在重金属污染土壤植物修复中的应用潜力:综述
Zipeng Chen,Rakhwe Kama,Yiming Cao et al.
Zipeng Chen et al.
Earthworms and arbuscular mycorrhizal fungi (AMF) are two different organisms playing crucial role in soil mechanisms. The integration of earthworms and AMF in phytoremediation strategies leverages their combined ability to improve soil str...
Morphological and molecular development of Terfezia claveryi ectendomycorrhizae exhibits three well-defined stages [0.03%]
特夫izia克拉弗里亚菌根发育的形态和分子特征显示三个明显的阶段
Ángel Luigi Guarnizo,José Eduardo Marqués-Gálvez,Francisco Arenas et al.
Ángel Luigi Guarnizo et al.
The normal development of mycorrhizal symbiosis is a dynamic process, requiring elaborately regulated interactions between plant roots and compatible fungi, mandatory for both partners´ survival. In the present study, we further elucidated...
Saprotrophic-mycorrhizal divide in stable isotope composition throughout the whole fungus: from mycelium to hymenophore [0.03%]
子实体到菌丝体的地衣营养型真菌同位素组成差异性分析贯穿整个真菌体内稳定同位素组成的分解-共生分界点分析从菌丝体到子实体
A G Zuev,A V Alexandrova,V A Litvinskiy et al.
A G Zuev et al.
Mycorrhizal and saprotrophic macromycetes contribute strongly to the carbon and nitrogen cycles of forest ecosystems, often studied by tracing stable isotope composition of carbon and nitrogen. The phenomenon of the saprotrophic-mycorrhizal...
Impact of agricultural systems on arbuscular mycorrhizal fungi community composition in robusta coffee roots in the Democratic Republic of congo [0.03%]
农业系统对刚果民主共和国罗布斯塔咖啡根系菌根真菌群落组成的影响
Ieben Broeckhoven,Arne Devriese,Olivier Honnay et al.
Ieben Broeckhoven et al.
Robusta coffee, grown by 25 million farmers across more than 50 countries, plays an important role in smallholder farmers' livelihoods and the economies of many low-income countries. Coffee establishes a mutualistic symbiosis with arbuscula...
High mycorrhizal specificity in the monotypic mycoheterotrophic genus Relictithismia (Thismiaceae) [0.03%]
单种菌异养属Relictithismia(Thismiaceae)的高菌根特异性
Kenji Suetsugu,Hidehito Okada
Kenji Suetsugu
Mycoheterotrophic plants, which depend entirely on mycorrhizal fungi for carbon acquisition, often exhibit high specificity toward their fungal partners. Members of Thismiaceae are generally recognized for their extreme mycorrhizal speciali...