Co-incorporation of Chinese milk vetch (Astragalus sinicus L.) and chemical fertilizers alters microbial functional genes supporting short-time scale positive nitrogen priming effects in paddy soils

IF 5.2 2区 农林科学 Q1 SOIL SCIENCE
Limin WANG , Chunmei HE , Dongfeng HUANG , Juhua YU , Cailing LIU , Qinghua LI , Yibin HUANG , Juan LI , Fei WANG
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Abstract

Nitrogen (N) priming is a microbially mediated biochemical process as affected by different incorporation practices. However, little information is known about the microbial mechanisms driving the response of N priming to co-operation of Chinese milk vetch (CMV, Astragalus sinicus L.) and different rates of chemical fertilizers in paddy soils in South China. Here, an anaerobic incubation experiment was conducted to study N priming effects (PE) and their relationships with soil microbial functional genes after CMV incorporation alone (M), co-incorporation of CMV with 100% (normal dosage) chemical fertilizers (MC100), and co-incorporation of CMV with 80% chemical fertilizers (MC80). Co-incorporation of CMV and chemical fertilizers enhanced the short-time scale (the first 20 d of incubation) positive PE of N, while no significant differences existed among the three treatments on day 60 or 90 of incubation (P > 0.05). Compared with the M treatment, gross priming effect (GPE) in the MC100 and MC80 treatments significantly increased by 34.0% and 31.3%, respectively, and net priming effect (NPE) increased by 47.7% and 47.8%, respectively, during the first 20 d of incubation (P < 0.05). This was likely attributed to soil nutrient availability and added substrate quality. The MC100 and MC80 treatments increased the gdhA gene abundance by 5.0% and 9.8%, increased the gdh2 gene abundance by 12.7% and 45.7%, and increased the nasB gene abundance by 9.5% and 41.4%, respectively, in comparison with the M treatment on day 20 of incubation. Correlation analyses indicated that soil microbial functional genes involved in N mineralization (gdhA and gdh2), assimilatory nitrate reduction (nasB), and nitrification (amoB) were significantly correlated with N priming under different incorporation practices during the incubation period (P < 0.05). Thus, co-incorporation of CMV and chemical fertilizers can regulate soil microbial community functional gene structure, which may accelerate mineralization and assimilatory nitrate reduction and inhibit nitrification, thereby increasing the short-term positive PE of N in the present study.

黄芪和化肥的联合施用改变了水稻土中支持短时正氮启动效应的微生物功能基因
氮引诱是一个由微生物介导的生化过程,会受到不同施肥方法的影响。然而,关于华南地区水稻土壤中的中国乳薇(CMV,Astragalus sinicus L.)与不同比例化肥合作的氮引诱反应的微生物机制却知之甚少。本文通过厌氧培养实验研究了单独施用CMV(M)、CMV与100%(正常施用量)化肥(MC100)和CMV与80%化肥(MC80)共混施用后的氮引诱效应(PE)及其与土壤微生物功能基因的关系。CMV与化肥的共混增强了氮的短时间(培养的前20天)正向PE,而在培养的第60天或第90天,三种处理之间没有显著差异(P >0.05)。与 M 处理相比,MC100 和 MC80 处理的总引诱效应(GPE)分别显著增加了 34.0% 和 31.3%,净引诱效应(NPE)分别显著增加了 47.7% 和 47.8%(P < 0.05)。这可能归因于土壤养分的可用性和基质质量的提高。与培养第 20 天的 M 处理相比,MC100 和 MC80 处理的 gdhA 基因丰度分别增加了 5.0% 和 9.8%,ghdh2 基因丰度分别增加了 12.7% 和 45.7%,nasB 基因丰度分别增加了 9.5% 和 41.4%。相关分析表明,在培养期间不同的掺入方式下,参与氮矿化(ghdhA 和 gdh2)、硝酸盐同化还原(nasB)和硝化(amoB)的土壤微生物功能基因与氮引诱显著相关(P <0.05)。因此,在本研究中,CMV 与化肥共混可调节土壤微生物群落功能基因结构,从而加速矿化和硝酸盐同化还原,抑制硝化作用,进而增加氮的短期正效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Pedosphere
Pedosphere 环境科学-土壤科学
CiteScore
11.70
自引率
1.80%
发文量
147
审稿时长
5.0 months
期刊介绍: PEDOSPHERE—a peer-reviewed international journal published bimonthly in English—welcomes submissions from scientists around the world under a broad scope of topics relevant to timely, high quality original research findings, especially up-to-date achievements and advances in the entire field of soil science studies dealing with environmental science, ecology, agriculture, bioscience, geoscience, forestry, etc. It publishes mainly original research articles as well as some reviews, mini reviews, short communications and special issues.
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