As agricultural production has inte

As agricultural production has intensified over the past few
decades, producers have become more dependent on agrochemicalsagrochemicals,
for plant disease management. The increased
usage of such chemical inputs has several negative effects viz.,
the development of pathogen resistance to the applied chemicals
and the environmental impact on non target organisms
(De Weger et al. 1995; Gerhardson 2002). Furthermore, the
growing costs of agro-chemicals, particularly in the lessaffluent
regions of the world, and consumer demand for pesticide-
free food have prompted the search for viable
alternatives. In this context bacterial antagonists have been
extensively explored for the control of plant pathogens. The
most studied bacteria include the Pseudomonad group of
Gram negative bacteria (Duffy and Defago 1999), spore
forming Gram positive bacteria of the genus Bacillus
(Kloepper et al. 2004), and certain members of the family
Enterobacteriaceae (Zhang and Birch 1997; Ovadis et al.
2004). Apart from these very little is known about the nature
and function of several cultivable antagonistic bacteria,which
are found in specific ecological niches around the world.
The genus Exiguobacterium is emerging as a bacterium
with an impressive diversity in its geographic distribution.
Exiguobacterium has been isolated from hot springs in
Yellowstone National Park (Knudston et al. 2001), potato
stems in Austria (Reiter et al. 2002), glacial ice core samples
in Greenland (Miteva et al. 2004) and the Siberian permafrost
environment (Rodriguez et al. 2006). Exiguobacterium
oxidotolerans has been described as a novel alkaliphile with
high catalase activity (Yumoto et al. 2004). While most
reported Exiguobacterium strains are known for their
enzyme production abilities and or extremophilic abilities
(Wada et al. 2004; Kasana and Yadav 2007), the antagonistic
potential of this genus is not clearly known.