Thinopyrum intermedium

Through the study of the host range of grasses, a new host range in central Iran was obtained. The Epichloë bromicola strain was found in Thinopyrum intermedium in Poland, which contains the gene cluster (LOL) for synthesizing insect-resistant alkaloids.

Epichloë bromicola

Insect pest

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Agropyron cristatum

Through high-throughput sequencing, the composition and functional diversity of the microbial community in the root sheath of Agropyron cristatum growing in sandy land were analyzed. It was found that the rhizosphere microbial community of Agropyron cristatum growing in sandy land is rich and diverse, and the dominant fungal population is Mycothermus.

Mycothermus

normal

normal

Agropyron cristatum

Research was carried out focusing on the dark septate endophytic fungi (DSE) and arbuscular mycorrhizal fungi (AMF) in the roots of grassland grasses. By comprehensively applying traditional microbiological and molecular techniques, the diversity, host specificity, spatiotemporal distribution of these two types of fungi and their interaction with environmental stress were revealed.

Agropyron cristatum

A systematic investigation was conducted on endophytic fungi (genera Neotyphodium and Epichloë) in 41 species of grasses in the grasslands of northern China. This revealed the distribution characteristics and host specificity of these endophytic fungi, as well as the potential impacts of the interactions between the endophytic fungi and grasses on the grassland ecosystems and livestock in northern China.

Epichloë, Neotyphodium

normal

normal

Leymus chinensis

The endophytic fungus Epichloë enhances the insect resistance of the host grass Leymus chinensis by influencing the emission of volatile organic compounds.

Epichloë

insect

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Leymus chinensis

The endophytic fungus Epichloë bromicola can enhance the tolerance of Leymus chinensis to neutral salt and alkaline salt stresses, and improve its growth and ion balance.

Epichloë bromicola

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neutral and alkali salt

Leymus chinensis

The interaction effects of endophytic fungi and arbuscular mycorrhizal fungi on Leymus chinensis vary depending on the fungal species, which affects the growth of the host.

Epichloë bromicola

normal

normal

Leymus chinensis

The study found that the endophytic fungus Epichloë promotes the growth of Leymus chinensis by facilitating the infection of arbuscular mycorrhizal fungi (AMF) and increasing the spore density.

Epichloë

AMF

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