The narrow zone of soil directly su

The narrow zone of soil directly surrounding the root system is
referred to as rhizosphere (Walker et al., 2003), while the term
‘rhizobacteria’ implies a group of rhizosphere bacteria competent
in colonizing the root environment (Kloepper et al., 1991).
In addition to providing the mechanical support and facilitating
water and nutrient uptake, plant roots also synthesize,
accumulate, and secrete a diverse array of compounds (Walker
et al., 2003). These compounds secreted by plant roots act as
chemical attractants for a vast number of heterogeneous, diverse
and actively metabolizing soil microbial communities.
The chemicals which are secreted by roots into the soils are
generally called as root exudates. The exudation of a wide
range of chemical compounds (Table 1) modifies the chemical
and physical properties of the soil and thus, regulates the structure
of soil microbial community in the immediate vicinity of
root surface (Dakora and Phillips, 2002). In fact, some of
the exudates act as repellants against microorganisms while
others act as attractants to lodge the microbes. The composition
of these exudates is dependent upon the physiological status
and species of plants and microorganisms (Kang et al.,
2010). Moreover, these exudates also promote the plant-beneficial
symbiotic interactions and inhibit the growth of the competing
plant species (Nardi et al., 2000). Also, microbial
activity in the rhizosphere affects rooting patterns and the supply
of available nutrients to plants, thereby modifying the
quality and quantity of root exudates. A fraction of these
plant-derived small organic molecules is further metabolized
by microorganisms in the vicinity as carbon and nitrogen
sources, and some microbe-oriented molecules are subsequently
re-taken up by plants for growth and development
(Kang et al., 2010). Indeed, carbon fluxes are critical determinants
of rhizosphere function. It is reported that approximately
5–21% of photosynthetically fixed carbon is