dc.description.abstract |
Banana and plantains are important food crops whose production is constrained by
disease and soil fertility. The use of clean planting materials such as tissue cultured
banana could mitigate the losses caused by diseases and pests. However, the low
survival rate of plantlets during the acclimatization phase is as a major constraint.
Inoculation with beneficial microorganisms is one way of protecting tissue cultured
plantlets against environmental stresses, thus improving their growth, health and
survival. Green house and field experiments were conducted to evaluate the efficacy
of selected commercial microbiological products on survival, growth, nutrition and
health of tissue cultured banana. Plantlets were grown in soils sampled from three
banana growing regions in Kenya; a Vertisol (Western Kenya-Bondo), Rhodic
Ferralsol (Coastal Kenya-Kilifi) and a Humic Nitisol (Central Kenya-Meru south)
and inoculated with Bacillus, mycorrhizal and Trichoderma based products at the
acclimatization and nursery phases of growth. A conventional nursery media from
Jomo Kenyatta University of Agriculture and Technology was used as a positive
control. Survival of inoculated plantlets was recorded at the 8 weeks after
deflasking. Growth parameters were assessed every two weeks under green house
conditions and every two months under field conditions up to the flowering stage. A
destructive harvest was carried out at the end of the nursery phase. Shoots were
analysed for plant nutrient uptake using the inductively coupled plasma method.
Root dry weights, root number and total root length were assessed. Soils from the
harvested pots were used for assessing the suppression of Fusarium. Inoculation
with Bacillus enhanced survival of plants in the Vertisol; mycorrhiza and
Trichoderma inoculation in the Rhodic Ferralsol and mycorrhiza in the Humic
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Nitisol and conventional media. Application of Bacillus based products significantly
(p≤0.05) increased plant growth in the Vertisol and Rhodic Ferralsol in the nursery
phase. Application of multiple species mycorrhiza and Trichoderma under field
conditions significantly (p≤0.05) increased apparent volume and leaf surface area in
the Vertisol by over 100% and 25% compared to the control and conventional
practice respectively. Mixed species Bacillus products significantly (p≤0.05)
enhanced uptake of Phosphorous by over 160 and 400% in the Vertisol and Rhodic
Ferralsol respectively. Mycorrhiza inoculation enhanced P uptake by over 170% in
the Rhodic Ferralsol and Vertisol respectively. Mixed species mycorrhiza and
Bacillus significantly (p≤0.05) inoculation enhanced potassium, zinc, iron,
manganese, sulphur, copper and magnesium uptake in the Rhodic Ferralsol and
Vertisol by over 100%. Suppression of Fusarium oxysporum f.sp. cubense by
Bacillus, mycorrhizae and Trichoderma inoculation differed significantly at p≤0.05
within soil types. PHC Biopak, ECO-T and Rhizatech reduced F. oxysporum f.sp.
cubense CFU g-1 by 47, 68% and 55% respectively in the Humic Nitisol. ECO-T
reduced Fusarium CFU g-1 by 6% in the Rhodic Ferralsol and PHC Biopak by 50%
in the Vertisol compared to the non-inoculated soils. Under nursery conditions,
combining Rhizatech and Mavuno and ECO-T and manure increased plant growth
by over 100% in the Rhodic Ferralsol and Vertisol respectively. Under field
conditions, the combined application of Rhizatech and minjingu rock phosphate
enhanced plant growth by 57% in the Rhodic Ferralsol while both sole and
combined application of products did not significantly affect plant growth in the
Vertisol. This study reveals that tissue cultured (TC) banana plant survival, growth,
nutrition and health could be improved by commercial microbiological inoculation. |
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