摩西斗管囊霉改善连作花生根际土壤的微环境

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崔利^1,^2,³,郭峰^1,^2,³,张佳蕾^1,^2,³,杨莎^1,^2,³,王建国^1,^2,³,孟静静^1,^2,³,耿耘^1,^2,³,李新国^1,^2,^3,^*(

),万书波^2,^3,^4,^*(

)

Improvement of continuous microbial environment in peanut rhizosphere soil by Funneliformis mosseae

CUI Li^1,^2,³,GUO Feng^1,^2,³,ZHANG Jia-Lei^1,^2,³,YANG Sha^1,^2,³,WANG Jian-Guo^1,^2,³,MENG Jing-Jing^1,^2,³,GENG Yun^1,^2,³,LI Xin-Guo^1,^2,^3,^*(

),WAN Shu-Bo^2,^3,^4,^*(

)

图2. 接种和未接种摩西斗管囊霉对花生连作土壤真菌群落结构及多度的影响。A, 不同时期不同处理间真菌分类操作单元丰度的韦恩图。B, 接种摩西斗管囊霉改变花生连作土壤真菌门的多度。C, 接种摩西斗管囊霉对盛花期花生根际土壤真菌属影响不显著(平均值±标准误差, n = 3)。D, 接种摩西斗管囊霉对收获期花生根际土壤真菌属影响显著(平均值±标准误差, n = 3)。-AMF, 未接种摩西斗管囊霉; +AMF, 接种摩西斗管囊霉。F(-AMF), 未接种摩西斗管囊霉的盛花期花生根际土壤; F(+AMF), 接种摩西斗管囊霉的盛花期花生根际土壤; H(-AMF), 未接种摩西斗管囊霉的收获期花生根际土壤; H(+AMF), 接种摩西斗管囊霉的收获期花生根际土壤。*, p < 0.05; **, p < 0.01。

Fig. 2. Effects of with and without Funneliformis mosseae inoculation on the structure and abundance of soil fungi community under continuing cropping of peanut. A, The Venn figure shows the number of fungal operational taxonomic units in different treatments. B, Abundance of soil fungi in continuing cropping of peanut was changed by F. mosseae. C, Abundance of fungal genera were not significantly different between with and without F. mosseae inoculation in the flowering period of continuing cropping peanuts (mean ± SE, n = 3). D, Abundance of some fungal genera were significantly different between with and without F. mosseae inoculation at harvest period (mean ± SE, n = 3). -AMF, without F. mosseae inoculation; +AMF, F. mosseae inoculation. F(-AMF), peanut rhizosphere soil without F. mosseae inoculation during the flowering period; F(+AMF), rhizosphere soil of peanut with F. mosseae inoculation; H(-AMF), peanut rhizosphere soil without F. mosseae inoculation during the harvest period; H(+AMF), peanut rhizosphere soil with F. mosseae inoculation during the harvest period. *, p < 0.05; **, p < 0.01.