Microbial consortia inoculation of woody legume Erythrina brucei increases nodulation and shoot nitrogen and phosphorus under greenhouse conditions

•All the Bradyrhizobium species were effective; but, B. shewense was the most effective.•Inoculation of Erythrina brucei with all inoculants increased shoot length and dry weight.•E. brucei inoculated with B. shewense +A. soli increased the shoot N by 260%.•E. brucei inoculated with B. shewense + Gl...

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Published in:Biotechnology reports (Amsterdam, Netherlands) Netherlands), 2022-03, Vol.33, p.e00707-e00707, Article e00707
Main Authors: Berza Beyene, Belay, Pagano, Marcela C, Vaiyapuri R, Prabavathy, Assefa Tuji, Fassil
Format: Article
Language:English
Subjects:
A. soli
Acaulospora
Acinetobacter
B. shewense
biotechnology
Bradyrhizobium
Erythrina brucei
Glomus
greenhouses
legumes
Microbial inoculants
nitrogen
nitrogen fixation
nodulation
phosphorus
plant growth
symbiosis
Synergistic effect
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Summary:•All the Bradyrhizobium species were effective; but, B. shewense was the most effective.•Inoculation of Erythrina brucei with all inoculants increased shoot length and dry weight.•E. brucei inoculated with B. shewense +A. soli increased the shoot N by 260%.•E. brucei inoculated with B. shewense + Glomus sp.1 increased shoot P by 1200%. The legume-rhizobium symbiosis provides Nitrogen (N), while Legume-AMF symbiosis improves Phosphorus (P) supply to plants. This research was conducted to evaluate the symbiotic effectiveness of the Bradyrhizobium spp. and consortial inoculation of plant growth promoting bacteria -Bradyrhizobium shewense (AU27) and Acinetobacter soli (AU4), and arbuscular mycorrhizhal fungi Glomus sp.1 (AMF1) and Acaulospora sp.1 (AMF2), on growth, production and shoot N and P content of Erythrina brucei.The bacterial and mycorrhizal species were evaluated for phyto-beneficial properties in the greenhouse as individual as well as consortial inoculation.. All Bradyrhizobium species were effective for symbiotic nitrogen fixation. Consortial inoculations comprising of B. shewense (AU27) + A. soli (AU4) + Glomus sp.1 (AMF1) + Acaulospora sp.1 (AMF2) (T7) increased shoot length and shoot dry weight by 140% and 268%, respectively compared to un-inoculated control. Inoculations that involved B. shewense (AU27) + A. soli (AU4) increased shoot nitrogen by 260%, and 1200% increment of shoot P was recorded with inoculations of B. shewense (AU27) + Glomus sp.1 (AMF1) compared to un-inoculated control. These microbial inputs could be candidates for growth enhancement and shoot nitrogen and phosphorus improvement in Erythrina brucei and also as sustainable and eco-friendly agriculture input.
ISSN:2215-017X
2215-017X
DOI:10.1016/j.btre.2022.e00707