Potential of Native Rhizobia in Enhancing Nitrogen Fixation and Yields of Climbing Beans (Phaseolus vulgaris L.) in Contrasting Environments of Eastern Kenya
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Date
2017
Authors
Koskey, Gilbert
Mburu, Simon W.
Njeru, Ezekiel M.
Kimiti, Jacinta M.
Ombori, Omwoyo
Maingi, John M.
Journal Title
Journal ISSN
Volume Title
Publisher
Frontiers Media
Abstract
Climbing bean (Phaseolus vulgaris L.) production in Kenya is greatly undermined by
low soil fertility, especially in agriculturally prolific areas. The use of effective native
rhizobia inoculants to promote nitrogen fixation could be beneficial in climbing bean
production. In this study, we carried out greenhouse and field experiments to evaluate
symbiotic efficiency, compare the effect of native rhizobia and commercial inoculant on
nodulation, growth and yield parameters of mid-altitude climbing bean (MAC 13 and
MAC 64) varieties. The greenhouse experiment included nine native rhizobia isolates, a
consortium of native isolates, commercial inoculant Biofix, a mixture of native isolates
+ Biofix, nitrogen treated control and a non-inoculated control. In the field experiments,
the treatments included the best effective native rhizobia isolate ELM3, a consortium of
native isolates, a commercial inoculant Biofix, a mixture of native isolates + Biofix, and
a non-inoculated control. Remarkably, four native rhizobia isolates ELM3, ELM4, ELM5,
and ELM8 showed higher symbiotic efficiencies compared to the Biofix. Interestingly,
there was no significant difference in symbiotic efficiency between the two climbing bean
varieties. Field results demonstrated a significant improvement in nodule dry weight and
seed yields of MAC 13 and MAC 64 climbing bean varieties upon rhizobia inoculation
when compared to the non-inoculated controls. Inoculation with ELM3 isolate resulted to
the highest seed yield of 4,397.75 kg ha−1
, indicating 89% increase over non-inoculated
control (2,334.81 kg ha−1
) and 30% increase over Biofix (3,698.79 kg ha−1
). Farm site
significantly influenced nodule dry weight and seed yields. This study, therefore, revealed
the potential of native rhizobia isolates to enhance delivery of agroecosystem services
including nitrogen fixation and bean production. Further characterization and mapping
of the native isolates will be imperative in development of effective and affordable
commercial inoculants.
Description
Research Article
Keywords
Native rhizobia, Ecosystem services, Biological nitrogen fixation, Climbing beans, Eastern Kenya
Citation
Koskey G, Mburu SW, Njeru EM, Kimiti JM, Ombori O and Maingi JM (2017) Potential of Native Rhizobia in Enhancing Nitrogen Fixation and Yields of Climbing Beans (Phaseolus vulgaris L.) in Contrasting Environments of Eastern Kenya. Front. Plant Sci. 8:443. doi: 10.3389/fpls.2017.00443