Increasing Italian ryegrass (Lolium multiflorum Lam.) regrowth via inoculation with an ammonia-oxidizing bacterial strain

IF 1.1 4区 农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY
Di Wu, Ke Ma, Xiao-Ling Wang, Lin Qi, Yu-Hua Liu, Peng Song, Wei Liu, Ming-Ming Zhang, Wei Zhao, Cheng-Wei Song
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引用次数: 3

Abstract

This study aimed to investigate the effect of a soil ammonia-oxidizing bacterial (AOB) strain on Italian ryegrass (Lolium multiflorum Lam.) regrowth. Potted Italian ryegrass was used as test material. We isolated and screened an AOB strain from the soil for use in inoculation of other soils to increase nitrification. The sequence of the two isolated and screened AOB strains (S2_8_1 and S2_7_25) were 100% similar to that of Ensifer sesbaniae and Acinetobacter pittii. The nitrification inhibitor 3,4-dimethylpyrazole phosphate (DMPP) was also added to the soil to inhibit nitrification. The experimental design involving the inoculation of the soils with the AOB strain included seven treatments: (1) regrowth without any additives, (2) regrowth with blank enrichment medium added to the soil, (3) regrowth with S2_8_1 strain inoculation, (4) regrowth with S2_7_25 strain inoculation, (5) regrowth with DMPP added to the soil, (6) regrowth with DMPP added to the soil and with S2_8_1 strain inoculation, and (7) regrowth with DMPP added to the soil and with S2_7_25 strain inoculation. Compared with regrowth treatment without any additives, the regrowth treatment with S2_8_1 and S2_7_25 inoculations significantly increased leaf biomass by 23.5–48.6%, the leaf net photosynthetic rate by 27.9–48.5%, the rhizosphere soil nitrification rate by 43.0–144.2%, leaf cytokinin concentrations by 23.7–24.9%, and xylem sap cytokinin concentrations by 32.5–43.2%. The increase of nitrate nitrogen content in rhizosphere soil induced by S2_8_1 and S2_7_25 promoted the transfers of cytokinin from roots to leaves, resulting in the increase of cytokinin concentration in leaves. This increase in leaf cytokinin concentrations improved Italian ryegrass regrowth. However, the S2_8_1 and S2_7_25-induced increases in the nonrhizosphere soil nitrification rate were not closely related to Italian ryegrass regrowth. The tested AOB strains have considerable potential to increase Italian ryegrass regrowth.

通过接种氨氧化菌株增加意大利黑麦草(Lolium multiflorum Lam.)的再生
研究了一株土壤氨氧化细菌(AOB)对意大利黑麦草(Lolium multiflorum Lam.)再生的影响。以盆栽意大利黑麦草为试验材料。我们从土壤中分离和筛选了一株AOB菌株,用于接种其他土壤以增加硝化作用。分离和筛选的两株AOB菌株(S2_8_1和S2_7_25)的序列与田菁杆菌和pittiacinetobacter的序列相似度为100%。在土壤中添加硝化抑制剂3,4-二甲基吡唑磷酸盐(DMPP),抑制硝化作用。AOB菌株接种土壤的试验设计包括7个处理:(1)不添加任何添加剂再生,(2)在土壤中添加空白富集培养基再生,(3)接种S2_8_1株再生,(4)接种S2_7_25株再生,(5)土壤中添加DMPP再生,(6)在土壤中添加DMPP并接种S2_8_1株再生,(7)在土壤中添加DMPP并接种S2_7_25株再生。与不添加任何添加剂的再生处理相比,接种S2_8_1和S2_7_25的再生处理叶片生物量提高23.5 ~ 48.6%,叶片净光合速率提高27.9 ~ 48.5%,根际土壤硝化速率提高43.0 ~ 144.2%,叶片细胞分裂素浓度提高23.7 ~ 24.9%,木质部汁液细胞分裂素浓度提高32.5 ~ 43.2%。S2_8_1和S2_7_25诱导根际土壤硝态氮含量增加,促进了细胞分裂素从根向叶的转移,导致叶片中细胞分裂素浓度升高。叶片细胞分裂素浓度的增加促进了意大利黑麦草的再生。S2_8_1和s2_7_25诱导的非根际土壤硝化速率的增加与黑麦草的再生关系不密切。所试AOB菌株具有促进黑麦草再生的潜力。
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
Grassland Science
Grassland Science Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
2.70
自引率
7.70%
发文量
38
审稿时长
>12 weeks
期刊介绍: Grassland Science is the official English language journal of the Japanese Society of Grassland Science. It publishes original research papers, review articles and short reports in all aspects of grassland science, with an aim of presenting and sharing knowledge, ideas and philosophies on better management and use of grasslands, forage crops and turf plants for both agricultural and non-agricultural purposes across the world. Contributions from anyone, non-members as well as members, are welcome in any of the following fields: grassland environment, landscape, ecology and systems analysis; pasture and lawn establishment, management and cultivation; grassland utilization, animal management, behavior, nutrition and production; forage conservation, processing, storage, utilization and nutritive value; physiology, morphology, pathology and entomology of plants; breeding and genetics; physicochemical property of soil, soil animals and microorganisms and plant nutrition; economics in grassland systems.
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