Rhizobacteria promoting Glycine max L. development and increased productivity

Rhizobacteria promoting Glycine max L. development and increased productivity

Agricultural soils for the cultivation of short-cycle plant species, lack organic matter as a result of the excessive use of agrochemicals. These soil fertilizers of chemical origin cause changes in soil structure and biodiversity. The use of rhizobacteria in agriculture improves legume crop product...

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Glavni avtor: Cedeño Saavedra, Damián Antonio (author)
Drugi avtorji: Canchignia Martínez, Hayron Fabricio (author), Cruz Rosero, Nicolás (author), Guerra Cuenca, Feliberto Fernando (author), Gaibor Fernández, Ramiro (author), Cedeño Moreira, Ángel Virgilio (author)
Format: article
Jezik:eng
Izdano: 2017
Teme:
B. JAPONICUM
NÓDULOS
P. VERONII R4
P. FLUORESCENS CHA0
SIMBIOSIS.
NODULES
SYMBIOSIS.
Online dostop:https://revistas.uteq.edu.ec/index.php/cyt/article/view/198
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Izvleček:Agricultural soils for the cultivation of short-cycle plant species, lack organic matter as a result of the excessive use of agrochemicals. These soil fertilizers of chemical origin cause changes in soil structure and biodiversity. The use of rhizobacteria in agriculture improves legume crop productivity through the formation of a rhizobia-plant symbiosis allowing nitrogen fixation. The aim of this study was to evaluate the effect of Bradyrhizobium japonicum, Pseudomonas fluorescens CHA0 and Pseudomonas veronii R4 in promoting soybean: ICA-P34; INIAP-308; INIAP-307 development and increased productivity. At 7 and 30 days, root growth and nodule formation was evaluated, by co-inoculation of rhizobacteria and without inoculants, performance was also determined in kgha-1. Under in vitro conditions root tissue increases with 5, 3 and 9 cm, per B. japonicum in, ICA-P34, INIAP-308 and INIAP-307. In seedling, 21 and 20 cm roots were observed in INIAP-307 with P. veronii R4 and P. fluorescens CHA0. 10, 14 and 10 nodules per plant were obtained in the three varieties with B. japonicum. No nodule formation was observed after Pseudomonas spp application. Grain yield per hectare was 3700, 2890, and 3929 kgha-1, with B. japonicum and without bacterial inoculum yields fall to 2006, 1611 and 1842 kgha-1. B. japonicum colonizes the root system and generates morphological and physiological changes, which positively increase yield in soybean seeds.

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