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Are drought-resistance promoting bacteria cross-compatible with different plant models?

Ramona MarascoDepartment of Food; Environmental and Nutritional Sciences; DeFENS; University of Milan; Milan, ItalyEleonora RolliDepartment of Food; Environmental and Nutritional Sciences; DeFENS; University of Milan; Milan, ItalyGianpiero ViganiDepartment of Agricultural and Environmental Sciences—Production, Landscape, Agroenergy, DISAA; University of Milan; Milan, ItalySara BorinDepartment of Food; Environmental and Nutritional Sciences; DeFENS; University of Milan; Milan, ItalyC. SorliniDepartment of Food; Environmental and Nutritional Sciences; DeFENS; University of Milan; Milan, ItalyHadda‐Imene OuzariLaboratory of Microbiology and Active Biomolecules; University of Tunis El Manar;Tunis, TunisiaGraziano ZocchiDepartment of Food; Environmental and Nutritional Sciences; DeFENS; University of Milan; Milan, ItalyDaniele DaffonchioDepartment of Agricultural and Environmental Sciences—Production, Landscape, Agroenergy, DISAA; University of Milan; Milan, Italy
2013en
ABI

Аннотация

The association between plant and plant growth promoting bacteria (PGPB) contributes to the successful thriving of plants in extreme environments featured by water shortage. We have recently shown that, with respect to the non-cultivated desert soil, the rhizosphere of pepper plants cultivated under desert farming hosts PGPB communities that are endowed with a large portfolio of PGP traits. Pepper plants exposed to bacterial isolates from plants cultivated under desert farming exhibited a higher tolerance to water shortage, compared with untreated control. This promotion was mediated by a larger root system (up to 40%), stimulated by the bacteria, that enhanced plant ability to uptake water from dry soil. We provide initial evidence that the nature of the interaction can have a limited level of specificity and that PGPB isolates may determine resistance to water stress in plants others than the one of the original isolation. It is apparent that, in relation to plant resistance to water stress, a feature of primary evolutionary importance for all plants, a cross-compatibility between PGPB and different plant models exists at least on a short-term.

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