Insight into the differential response of functional denitrifiers to novel formulated organic amendments in soybean agroecosystem

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-09-01 DOI:10.1016/j.rhisph.2024.100954
Ugochi Uzoamaka Egbeagu , Yue Zhang , Yuanhang Wang , Ayodeji Bello , Liting Deng , Yu Sun , Yue Han , Liyan Zhao , Shuai Shi , Huajing Liu , Xiuhong Xu
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Abstract

Fertilizer application has been known to cause substantial changes in the microbial composition of agricultural soil. Therefore, there is a need for more fertilizer management practices that will improve nitrogen (N) content, which is the key restrictive factor for microbial growth. To elucidate the characteristics of these fertilizers in the soil, samples were collected from a soybean field of control (S0) with no addition of organic amendment, biochar made from rice straw (S1), compost made from cattle manure and maize straw at a ratio of 5:1 (S2), composting S2 + 10 % S1 (S3), and mixture of S2 + 10 % S1 without composting (S4). The soil functional denitrifiers (nirS and nirK) were unravelled using Illumina high-throughput sequencing. It was observed that S3 (66.56 %) and S4 (61.14 %) increased the NO3-N, while S2 increased the total Kjeldahl nitrogen (TKN) by 15.79 % compared to S0. OTU847_norank_p_environmental_samples in nirS and OTU112_unclassified_f_Bradyrhizobiaceae in nirK were the most abundant genera in S1-S4 while S2 and S3 had the highest unique OTUs in nirK and nirS communities, respectively. The canonical correspondence analysis (CCA) showed that NO2-N and nitrate reductase (NIR) enzyme-shaped nirS and nirK denitrifiers. Also, from the structural equation model (SEM), TKN showed a higher negative significant effect on nirK alpha and beta diversities, while S4 showed the lowest positive network in nirS and nirK- denitrifiers. Meanwhile, Bradyrhizobium was observed as a common genus in the multivariate co-occurrence network in nirS- and nirK-type denitrifiers. This study provides the theoretical basis and technical support that single and combined fertilizers could influence nirS and nirK denitrifiers in soybean-grown soil.

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大豆农业生态系统中功能性反硝化细菌对新型配方有机添加剂的不同反应透视
众所周知,施肥会导致农业土壤中的微生物组成发生重大变化。因此,有必要采取更多肥料管理措施来提高氮(N)含量,因为氮(N)是限制微生物生长的关键因素。为了阐明这些肥料在土壤中的特性,研究人员从大豆田中采集了样品,包括未添加有机肥料的对照组(S0)、由稻草制成的生物炭(S1)、由牛粪和玉米秸秆以 5:1 的比例制成的堆肥(S2)、堆肥 S2 + 10 % S1(S3)以及 S2 + 10 % S1 未堆肥的混合物(S4)。利用 Illumina 高通量测序技术揭示了土壤功能性反硝化菌(nirS 和 nirK)。结果表明,与 S0 相比,S3(66.56%)和 S4(61.14%)增加了 NO3--N,而 S2 增加了 15.79%的凯氏总氮(TKN)。nirS 群落中的 OTU847_norank_p_environmental_samples 和 nirK 群落中的 OTU112_unclassified_f_Bradyrhizobiaceae 是 S1-S4 群落中最丰富的菌属,而 S2 和 S3 群落中的独特 OTU 在 nirK 和 nirS 群落中分别最高。典型对应分析(CCA)结果表明,NO2--N 和硝酸还原酶(NIR)形成了 nirS 和 nirK 的反硝化物。此外,从结构方程模型(SEM)来看,TKN对nirK的α和β多样性有较高的负向显著影响,而S4对nirS和nirK-反硝化细菌的正向网络影响最小。同时,在 nirS 型和 nirK 型反硝化菌的多元共现网络中观察到 Bradyrhizobium 是常见的菌属。本研究为单一肥料和复合肥料可影响大豆种植土壤中的 nirS 和 nirK 型反硝化细菌提供了理论依据和技术支持。
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567
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