根瘤菌
固氮
磷
细菌
磷酸盐
共生
根瘤
生物
营养物
氮气
化学
植物
接种
钙
草原
16S核糖体RNA
氮气循环
核糖体RNA
食品科学
拉伤
溶磷菌
生物化学
缺磷
农学
根瘤菌
磷矿
土壤微生物学
土壤水分
根瘤菌科
豆类
重氮
生物矿化
固定(群体遗传学)
根毛
生态系统
作者
Yunjian Xu,Fulan Zhang,Xin Chen,Meiyan Zhang,Zhe Chen
标识
DOI:10.1021/acs.jafc.5c08432
摘要
The synergistic interaction between symbiotic nitrogen (N) fixation and phosphorus (P) nutrition in legumes remains poorly understood yet critical for mitigating grassland degradation under nutrient limitations. Using 16S rRNA sequencing, we compared bacterial communities in root nodules, rhizosphere, and bulk soils of three wild legumes (Trifolium repens L., Medicago sativa L., and Indigofera amblyantha Craib). Nodules showed reduced bacterial diversity but shared core microbes derived from soil reservoirs, including Ensifer. We isolated an Ensifer strain (En1) and genomic analysis revealed genes specifically involved in nitrogen fixation and phosphate uptake. Functionally, En1 solubilized and mineralized phosphate (calcium phytate and calcium phosphate). Inoculation experiments confirmed that En1 enhances plant P acquisition. Our findings demonstrate a mechanism whereby nitrogen-fixing rhizobia directly facilitate P uptake, establishing a self-sustaining N–P coprovision system in legume–microbe symbiosis, offering a novel strategy for grassland restoration by concurrently addressing N and P limitations.
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