Synergistic Effects of Plant Growth Promoting Rhizobacteria and Chitosan on In Vitro Seeds Germination, Greenhouse Growth, and Nutrient Uptake of Maize (Zea mays L.)

Biotechnology Research International Pub Date : 2016-01-20 DOI:10.1155/2016/7830182

N. Agbodjato, Pacôme A. Noumavo, A. Adjanohoun, Léonce Agbessi, L. Baba-Moussa

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引用次数: 72

Abstract

This study aimed to assess the effects of three plant growth promoting rhizobacteria (PGPR) and chitosan either singly or in combination on maize seeds germination and growth and nutrient uptake. Maize seeds were treated with chitosan and bacterial solution. The germination and growth tests were carried out in square Petri dishes and plastic pots. The combination chitosan-A. lipoferum-P. fluorescens has increased the seeds vigor index up to 36.44% compared to the control. In comparison to the control, P. putida has significantly improved root weight (44.84%) and germinated seed weight (31.39%) whereas chitosan-P. putida has increased the shoot weight (65.67%). For the growth test, the maximal heights (17.66%) were obtained by plants treated with the combination A. lipoferum-P. fluorescens-P. putida. Chitosan-P. fluorescens induced the highest increases of leaves per plant (50.09%), aerial (84.66%), and underground biomass (108.77%) production. The plants inoculated with A. lipoferum had the large leaf areas with an increase of 54.08%, while combinations P. fluorescens-P. putida and chitosan-A. lipoferum improved the aerial and underground dry matter of plants to 26.35% and 18.18%. The nitrogen content of the plants was increased by chitosan-A. lipoferum-P. fluorescens-P. putida with an increasing of 41.61%. The combination of chitosan and PGPR can be used as biological fertilizers to increase maize production.

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促根菌和壳聚糖对玉米种子萌发、温室生长及养分吸收的协同效应

研究了三种促生菌(PGPR)和壳聚糖单独或联合施用对玉米种子萌发、生长和养分吸收的影响。用壳聚糖和细菌溶液处理玉米种子。在方形培养皿和塑料瓶中进行发芽和生长试验。壳聚糖a的组合。lipoferum-P。荧光剂可使种子活力指数较对照提高36.44%。与对照相比，腐皮菌显著提高了根重(44.84%)和发芽种子重(31.39%);Putida使芽重增加65.67%。在生长试验中，黄芪与黄芪联合处理的植株最高，达到17.66%。fluorescens-P。putida。Chitosan-P。荧光诱导单株叶片产量(50.09%)、地上生物量(84.66%)和地下生物量(108.77%)增加最多。接种黄芪的植株叶面积最大，增加了54.08%;putida和壳聚糖a。Lipoferum使植物地上、地下干物质分别提高26.35%和18.18%。壳聚糖a能提高植株的氮素含量。lipoferum-P。fluorescens-P。Putida增加了41.61%。壳聚糖与PGPR复合可作为生物肥料提高玉米产量。

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Biotechnology Research International

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