conditions (Smith and Read, 1997) a

conditions (Smith and Read, 1997) and may facilitate plant adaptation
to nursery (reviewed by Rai, 2001).
It is known that some auxin-type phytohormones (indole-acetic
acid, IAA) produced by plant growth promoting bacteria (PGPB)
strains, promote lateral and primary root elongation and production,
with positive effects on root system development (Kloepper
et al., 1989, 1991) and promotion of plant growth (Kloepper, 1996).
Significant increases in crop yields following application of PGPB
have been documented under diverse field conditions (Bashan,
1998). Trichoderma spp. have been reported to promote plant
growth (Inbar et al., 1994) in addition to their biocontrol activities
(De La Cruz et al., 1992; Haran et al., 1996; Dennis and Webster,
1971; Whipps, 1987). In a field experiment, Indigenous Trichoderma
harzianum isolate promoted growth of primary root length
and root branching in maize and beans by inducing lateral root
growth (Okoth et al., 2011). Previous research has focused on isolation
and evaluation of indigenous microbes on their efficacy on
banana plant growth, and nutrition (Juma, 2011). Further, evaluation
of microbes for banana growth has mainly been conducted
using sterile nursery media in to which special nutrients such as
the Hewitt nutrient mixture (Hewitt, 1966) is added thus limiting
decentralization of commercial nurseries. A wide range of commercial
products that enhance plant growth and production exist in the
markets and the conditions of effective functioning of the products
are variable (Smith and Read, 1997; Nowak, 1998; Kloepper, 1996).
The emerging commercial products need to be evaluated under different
soil conditions to understand their functionality in post flask
management and subsequent field establishment and performance
of TC banana.
This study aimed to validate the efficacy of selected microorganisms
based commercial products on growth of tissue cultured
banana cv. Gros Michel.