Short-term continuous monocropping reduces peanut yield mainly via altering soil enzyme activity and fungal community
Continuous monocropping can lead to soil sickness and increase of soil-borne disease,
which finally reduces crop yield. Microorganisms benefit plants by increasing nutrient …
which finally reduces crop yield. Microorganisms benefit plants by increasing nutrient …
[HTML][HTML] Characteristics of the microbial communities regulate soil multi-functionality under different cover crop amendments in Ultisol
G Li, X Chen, W Qin, J Chen, K Leng, L Sun… - Journal of Integrative …, 2024 - Elsevier
The use of cover crops is a promising strategy for influencing the soil microbial consortium,
which is essential for the delivery of multiple soil functions (ie, soil multifunctionality) …
which is essential for the delivery of multiple soil functions (ie, soil multifunctionality) …
Effects of water-soluble chitosan on Hylotelephium spectabile and soybean growth, as well as Cd uptake and phytoextraction efficiency in a co-planting cultivation …
YF Li, GD Zheng, JX Yang, JM Guo… - International Journal of …, 2023 - Taylor & Francis
Intercropping a Cd-accumulator with economically valuable crops is common in slightly or
moderately Cd-polluted farmland soils. A field experiment was conducted to evaluate the …
moderately Cd-polluted farmland soils. A field experiment was conducted to evaluate the …
The relationship between core rhizosphere taxa and peanut nodulation capacity under different cover crop amendments
K Leng, J Liu, G Li, P Wang, P Zhou, M Sun, K Liu… - Agronomy, 2023 - mdpi.com
Adequate exploitation of legume–rhizobia symbiosis for nitrogen fixation may help to
alleviate the overuse of chemical nitrogen fertilizer and aid in sustainable agricultural …
alleviate the overuse of chemical nitrogen fertilizer and aid in sustainable agricultural …
氮素调控花生共生结瘤的机制研究进展
曾瑞儿, 耿庆辉, 高恒宽, 潘晴晴, 陈婷婷, 陈勇, 张雷 - 遗传, 2023 - chinagene.cn
氮是花生生长发育所需的大量元素, 共生结瘤固氮是花生获取氮素的主要方式之一.
花生共生结瘤固氮涉及复杂的调控机理, 揭示氮素对根瘤固氮的调控机制对发挥生物固氮潜力 …
花生共生结瘤固氮涉及复杂的调控机理, 揭示氮素对根瘤固氮的调控机制对发挥生物固氮潜力 …
七彩花生根瘤内生菌对氮添加的响应及其与植物化学计量学特征的关系
李林, 孙毅, 杨晓琼, 方海东, 闫帮国 - 植物生态学报 - plant-ecology.com
豆科植物根瘤是根瘤菌生物固氮的场所, 含有多种微生物, 即根瘤内生菌, 其对植物的生长和营养
具有重要作用. 但根瘤内生菌群落结构对氮素的响应及其与植物生态化学计量学特征之间的关系 …
具有重要作用. 但根瘤内生菌群落结构对氮素的响应及其与植物生态化学计量学特征之间的关系 …