Therefore, understanding the role of NO in underground plant physiology is very important, especially in relation to the plant’s interaction with the rhizospheric microbiome. This will help devise new ...

这项开创性研究从小麦根际 (rhizospheric)和内生 (endophytic)微环境中分离出101株细菌，通过多维度筛选鉴定出三株高效功能菌：具固氮能力的欧文氏菌 (Erwinia aphidicola EU-WRN-1)、溶磷特性的冻土类芽孢杆菌 (Paenibacillus tundra EU-WRN-5)以及溶钾功能的纺锤形赖氨酸芽孢杆菌 (Lysinibacillus ...

土壤细菌与共生根瘤菌协同促进苜蓿固氮及生物量积累的机制研究——水分胁迫下不改变原生根际微生物群的结构与功能 《Applied Soil Ecology》：Soil bacteria and symbiotic rhizobia synergistically promote nitrogen fixation and biomass production of alfalfa ( Medicago ...

Additionally, microbes present in the rhizospheric region share a special relationship with plants and immobilize heavy metals to improve plant health. Thus, the precise detection of heavy metals in ...

This study comprehensively investigated the impact of titanium dioxide nanomaterials (nTiO2) exposure on cell growth, nitrogen fixation activity, and nitrogen storage dynamics in the primary producer ...