Potential of Biostimulants Based on PGPR Rhizobacteria Native to Benin’s Soils on the Growth and Yield of Maize (Zea mays L.) under Greenhouse Conditions

M. Adoko, H. Sina, O. Amogou, N. Agbodjato, Pacôme A. Noumavo, Ricardos M. Aguégué, S. Assogba, N. A. Adjovi, G. Dagbénonbakin, A. Adjanohoun, L. Baba-Moussa
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引用次数: 4

Abstract

The application of biostimulants in agriculture represents an environmentally friendly alternative while increasing agricultural production. The aims of the study were to develop solid biostimulants based on five rhizobacteria native to Benin’s soils and to evaluate their efficacy on the growth and biomass yield of maize under greenhouse conditions on ferrallitic and ferruginous soils. Clay and peat were used as a conservation binder for the preparation of the biostimulants. These binders were used alone or combined in the different formulations with maize flour and sucrose. 10 g of biostimulants were applied at sowing in pots containing five kilograms of sterilised soil. The experimental design was a completely randomised block of 24 treatments with three replicates. The results obtained showed significant improvements (P Pseudomonas putida biostimulant compared to the control. On the other hand, the use of the peat biostimulant + Pseudomonas syringae was more beneficial for plant growth on ferruginous soil. The height, stem diameter, leaf area, above-ground biomass and below-ground biomass of the plants under the influence of this biostimulant were improved by 83.06%, 44.57%, 102.94%, 86.84% and 42.68%, respectively, compared to the control. Therefore, these results confirm that Rhizobacteria express their potential through biostimulants formulated on maize. The formulated biostimulants can later be used by producers to improve crop productivity for sustainable agriculture.
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基于贝宁土壤原生PGPR根瘤菌的生物刺激剂对温室条件下玉米生长和产量的影响
生物刺激素在农业中的应用代表了一种环境友好的替代方案,同时增加了农业产量。本研究的目的是利用贝宁土壤中5种原生根瘤菌开发固体生物刺激素,并评价其对温室条件下铁质和含铁质土壤下玉米生长和生物量产量的影响。用粘土和泥炭作为保存粘合剂制备生物刺激素。这些粘合剂单独使用或与玉米粉和蔗糖以不同的配方组合使用。播种时,在装有5公斤无菌土壤的花盆中施用10克生物刺激剂。试验设计为完全随机分组,共24个处理,3个重复。结果表明,与对照相比,恶臭假单胞菌的生物刺激素有显著改善。另一方面,使用泥炭生物刺激素+丁香假单胞菌更有利于植物在含铁土壤上的生长。在该生物刺激素的作用下,植株的株高、茎粗、叶面积、地上生物量和地下生物量分别比对照提高了83.06%、44.57%、102.94%、86.84%和42.68%。因此,这些结果证实了根杆菌通过在玉米上制备生物刺激素来表达它们的潜力。配方的生物刺激剂以后可以被生产者用来提高可持续农业的作物生产力。
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