Abstract
Plant growth promoting bacteria (PGPB) have been the target of intensive research studies toward their efficient use in the field as biofertilizers, biocontrol, and bioremediation agents among numerous other applications. Recent trends in the field of PGPB research led to the development of versatile multifaceted PGPB that can be used in different field conditions such as biocontrol of plant pathogens in metal contaminated soils. Unfortunately, all these research efforts lead to the development of PGPB that failed to perform in salty environments. Therefore, it is urgently needed to address this drawback of these PGPB toward their efficient performance in salinity context. In this paper we provide a review of state-of-the-art research in the field of PGPB and propose a road map for the development of next generation versatile and multifaceted PGPB that can perform in salinity. Beyond soil desalinization, our study paves the way towards the development of PGPB able to provide services in diverse salty environments such as heavy metal contaminated, or pathogen threatened. Smart development of salinity adapted next generation biofertilizers will inevitably allow for mitigation and alleviation of biotic and abiotic threats to plant productivity in salty environments.
Highlights
This review is a synthesis of the beneficial effect of rhizobacteria improving plant growth and the important role of halotolerant PGPRs in the desalination of degraded soils, in improving plant productivity in extreme environments, and in the induction of their resistance in the fight against various other stresses
Nitrogenfixing bacteria generally classified as symbiotic bacteria of legumes (e.g., Rhizobium) and non-legumes (e.g., Frankia), and non-symbiotic bacteria convert atmospheric N2 into assimilable ammonia by plants using a complex enzyme system known as nitrogenase [21]
The expression of the variance of the antioxidant genes may possibly be involved in the regulation of the level of reactive oxygen species (ROS) in plants inoculated with PGPR under salinity stress
Summary
Hafsa Cherif-Silini 1 , Allaoua Silini 1 , Ali Chenari Bouket 2 , Faizah N. Alenezi 3 , Lenka Luptakova 4 , Nawel Bouremani 1 , Justyna Anna Nowakowska 5 , Tomasz Oszako 6 and Lassaad Belbahri 7,8, *. Faculty of Biology and Environmental Sciences, Institute of Biological Sciences, Cardinal Stefan Wyszynski. Laboratory of Soil Biology, University of Neuchatel, 2000 Neuchatel, Switzerland
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