Siderophore mediated plant growth promotion at low temperature by mutant of fluorescent pseudomonad

ISSN： 0167-6903

Source： Plant Growth Regulation, Vol.42, Iss.3, 2004-03, pp. : 239-244

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Abstract

A cold resistant mutant of Pseudomonas fluorescens ATCC 13525 was developed, which could grow equally well at 25 and 10 °C and its effect on plant growth promotion under in vitro and in situ conditions was observed. Siderophore estimation revealed it to be a siderophore-overproducing mutant (17-fold increase) when compared to its wild type counterpart. A gnotobiotic root elongation assay indicated that the mutant (CRPF₉) promoted growth more than its wild type both at 25 and 10 °C, indicating its effectiveness at low temperature. Further, root colonization studies showed that CRPF₉ was an efficient rhizosphere colonizer, inducing a significant increase in root (35%) and shoot length (28%) of mung bean plants in unsterilized soil system. The persistence and stability of the mutant was evident in rhizospheric soil. A sand culture experiment showed that ferric citrate was better than Fe(OH)₃ as an iron source for plant growth, but in the presence of CRPF₉ both salts were comparable. This study demonstrates the potential of chemical mutagenesis for improving the plant growth promoting properties of a P. fluorescens strain and its stimulating impact on plant growth promotion at low temperature both under in vitro and in situ conditions.