Samir Ben Romdhane scite author profile

Chickpea is the most cultivated grain legume in the world and it shares the first rank with faba bean in Tunisia. However, the yield remains low, mainly due to the limited availability of N and P, and to the severe bioclimatic conditions. No inoculation trials had been conducted on chickpea in the Tunisian soils. This paper reports the yield response to inoculation by two different strains of Mesorhizobium ciceri, an exogenous type strain (UPMCa7 T ) and a selected local strain (CMG6). Field experiments were conducted in different sites in the north of Tunisia using three chickpea cultivars (cvs. Amdoun I, Chetoui and Kasseb). Rhizobia occupying field nodules were isolated and identified using 16S rDNA typing for both inoculated and non-inoculated plots. In contrast to the exogenous strain, the local strain gave a significant increase in nodule number and shoot dry yield in all the experimental fields for the three cultivars used. Monitoring of the nodule occupancy showed that the local strain competed well the native populations of rhizobia. The usefulness and the persistence of this strain in the different soils where it was introduced will be assessed further during the next years.

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Agrobacterium strains isolated from root nodules of common bean specifically reduce nodulation by Rhizobium gallicum

Mrabet¹,

Mnasri²,

Romdhane³

et al. 2006

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In a previous work, we showed that non-nodulating agrobacteria strains were able to colonize root nodules of common bean. Both rhizobia and agrobacteria co-existed in the infected nodules. No impact on symbiosis was found in laboratory conditions when using sterile gravel as a support for growth. In this study, soil samples originating from different geographic and agronomic regions in Tunisia were inoculated with a mixture of agrobacteria strains isolated previously from root nodules of common bean. A significant effect on nodulation and vegetal growth of common bean was observed. Characterization of nodulating rhizobia and comparison with non-inoculated controls showed a biased genetic structure. It seemed that Rhizobium gallicum was highly inhibited, whereas nodulation by Sinorhizobium medicae was favored. Co-inoculation of non-sterile soils with R. gallicum and agrobacteria confirmed these findings. In vitro antibiosis assays indicated that agrobacteria exercised a significant antagonism against R. gallicum.

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The diversity of rhizobia nodulating chickpea (Cicer arietinum) under water deficiency as a source of more efficient inoculants

Romdhane

Trabelsi

Aouani³

et al. 2009

Soil Biology and Biochemistry

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Selection of High Nitrogen‐Fixing Rhizobia Nodulating Chickpea (Cicer arietinum) for Semi‐Arid Tunisia

Romdhane

Aouani

Trabelsi

et al. 2008

J Agronomy Crop Science

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Inoculation of grain legumes with rhizobia may improve biological N2 fixation and crop yield. However, drought, high temperature and soil salinity constrain legume root‐nodule formation and function. Here, two rhizobial strains nodulating Tunisian chickpea, Mesorhizobium ciceri strain CMG 6 and Mesorhizobium mediterraneum strain CTM 226 originating from semi‐arid regions, were selected for their symbiotic performance and their salt stress tolerance (3 % NaCl). Both strains were then examined as inoculants in different soils and field conditions. Field experiments were conducted in four sites using four chickpea cultivars. Rhizobia occupying nodules in non‐inoculated plots were isolated and characterized using 16S rDNA typing; to examine nodule occupancy by the inoculant strains we used polymerase chain reaction (PCR)‐restriction fragment length polymorphism of 16S rDNA gene and repetitive extragenic palindromic PCR. The inoculant strains gave a significant increase in nodule number, shoot dry weight and grain yield in all the experimented fields for the four cultivars used, even in the non‐irrigated soils. The improvement in plant production was equal to or better than nitrogen fertilization. Moreover, the monitoring of the nodule occupancy showed that inoculant strains competed well in the native populations of rhizobia. These results suggest that nodulation and yield of chickpea can be improved by inoculation with competitive and salt‐tolerant rhizobia and is economically promising to increase chickpea production in water‐limited regions.

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Genomic analysis of cyclic-di-GMP-related genes in rhizobial type strains and functional analysis in Rhizobium etli

Gao

Romdhane

Beullens

et al. 2014

Appl Microbiol Biotechnol

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Rhizobia are soil bacteria that can fix nitrogen in symbiosis with leguminous plants or exist free living in the rhizosphere. Crucial to their complex lifestyle is the ability to sense and respond to diverse environmental stimuli, requiring elaborate signaling pathways. In the majority of bacteria, the nucleotide-based second messenger cyclic diguanosine monophosphate (c-di-GMP) is involved in signal transduction. Surprisingly, little is known about the importance of c-di-GMP signaling in rhizobia. We have analyzed the genome sequences of six well-studied type species (Bradyrhizobium japonicum, Mesorhizobium loti, Rhizobium etli, Rhizobium leguminosarum, Sinorhizobium fredii, and Sinorhizobium meliloti) for proteins possibly involved in c-di-GMP signaling based on the presence of four domains: GGDEF (diguanylate cyclase), EAL and HD-GYP (phosphodiesterase), and PilZ (c-di-GMP sensor). We find that rhizobia possess a high number of these proteins. Conservation analysis suggests that c-di-GMP signaling proteins modulate species-specific pathways rather than ancient rhizobia-specific processes. Two hybrid GGDEF-EAL proteins were selected for functional analysis, R. etli RHE_PD00105 (CdgA) and RHE_PD00137 (CdgB). Expression of cdgA and cdgB is repressed by the alarmone (p)ppGpp. cdgB is significantly expressed on plant roots and free living. Mutation of cdgA, cdgB, or both does not affect plant root colonization, nitrogen fixation capacity, biofilm formation, motility, and exopolysaccharide production. However, heterologous expression of the individual GGDEF and EAL domains of each protein in Escherichia coli strongly suggests that CdgA and CdgB are bifunctional proteins, possessing both diguanylate cyclase and phosphodiesterase activities. Taken together, our results provide a platform for future studies of c-di-GMP signaling in rhizobia.

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