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6 results on '"Mouradi, Mohammed"'

3. Phosphorus deficiency enhances water deficit impact on some morphological and physiological traits in four faba bean (Vicia faba L.) varieties

Author

Oukaltouma, Khawla, El Moukhtari, Ahmed, Lahrizi, Yahya, Mouradi, Mohammed, Farissi, Mohamed, Willems, Anne, Qaddoury, Ahmed, Bekkaoui, Faouzi, and Ghoulam, Cherki

Subjects
Agriculture and Food Sciences, NODULATION, Drought, GLYCINEBETAINE, growth, lcsh:S, Biology and Life Sciences, food and beverages, PHOTOINHIBITION, legume, lcsh:Plant culture, OSMOTIC ADJUSTMENT, glycine betaine, lcsh:Agriculture, BIOLOGICAL NITROGEN-FIXATION, NUTRITION, lcsh:SB1-1110, water potential, DROUGHT STRESS, phosphorus, ADAPTATION, osmoregulation, ACCUMULATION
Abstract

Moroccan soils, generally present low available phosphorus (P) levels which occur in almost all arid and semi-arid regions. Faba bean is one of the most significant crops in Morocco and is influenced by these constraints that affect its nutrient uptake and nitrogen fixation capacity and hence plants development. Therefore, we evaluated the response of four Vicia faba varieties - Aguadulce (Ag), Alfia (Al), Luz de Otono (LO) and Reina Mora (RM) -, grown under biological nitrogen fixation to water deficit and two phosphorus levels. The trial was conducted under greenhouse conditions and water stress was induced by keeping pots at 40% substrate field capacity (FC) versus 80% FC for the controls while phosphorus deficiency treatment consisted in the application of 25 mu mol P plant(-1) week(-1) versus 125 mu mol P plant(-1) week(-1) for sufficient P treatment. The results revealed a significant effect of water deficit and phosphorus deficiency either alone or combined on plants dry weights, leaf water parameters and nutrient concentrations. However sufficient phosphorus supply mitigated the adverse effects of water deficit on faba bean. We noticed significant differences between the studied varieties. Ag showed high performance concerning dry weights (1.25 g and 1.88 g plant(-1) respectively for shoot and root) and high concentration of nitrogen N (4.7%) and P (0.27 mg g(-1) DW) and was then qualified as the most tolerant variety to water deficit combined with P limitation. While RM was the least tolerant variety, as it showed the lowest dry weights (0.51 g and 1.4 g plant(-1) respectively for shoot and root) and concentration (2.74% and 0.19 mg g(-1) DW respectively for N and P). The tolerance was related to the ability to ensure efficient osmoregulation by glycine betaine accumulation, to keep leaf water balance and cell membrane stability that contribute together with adequate symbiotic nitrogen fixation to plant growth performance under combined stresses.

Published
2020

4. Synergistic effect of Pseudomonas alkylphenolica PF9 and Sinorhizobium meliloti Rm41 on Moroccan alfalfa population grown under limited phosphorus availability.

Author

Farssi, Omar, Saih, Rabie, El Moukhtari, Ahmed, Oubenali, Aziz, Mouradi, Mohammed, Lazali, Mohamed, Ghoulam, Cherki, Bouizgaren, Abdelaziz, Berrougui, Hicham, and Farissi, Mohamed

Abstract

This study looked at the synergistic effect of Pseudomonas alkylphenolica PF9 and Sinorhizobium meliloti Rm41 on the Moroccan alfalfa population (Oued Lmaleh) grown under symbiotic nitrogen fixation and limited phosphorus (P) availability. The experiment was conducted in a growth chamber and after two weeks of sowing, the young seedlings were inoculated with S inorhizobium melilot i Rm41 alone or combined with a suspension of Pseudomonas alkylphenolica PF9. Then, the seedlings were submitted to limited available P (insoluble P using Ca 3 HPO 4) versus a soluble P form (KH 2 PO 4) at a final concentration of 250 μmol P·plant−1·week−1. After two months of P stress, the experiment was evaluated through some agro-physiological and biochemical parameters. The results indicated that the inoculation of alfalfa plants with Sinorhizobium strain alone or combined with Pseudomonas strain significantly (p < 0.001) improved the plant growth, the physiological and the biochemical traits focused in comparison to the uninoculated and P-stressed plants. For most sets of parameters, the improvement was more obvious in plants co-inoculated with both strains than in those inoculated with Sinorhizobium meliloti Rm41 alone. In fact, under limited P-availability, the co-inoculation with two strains significantly (p < 0.01) enhanced the growth of alfalfa plants evaluated by fresh and dry biomasses, plant height and leaf area. The results indicated also that the enhancement noted in plant growth was positively correlated with the shoot and root P contents. Furthermore, the incensement in plant P contents in response to bacterial inoculation improved cell membrane stability, reflected by low malonyldialdehyde (MDA) and electrolyte leakage (EL) contents, and photosynthetic-related parameters such as chlorophyll contents, the maximum quantum yield of PS II (Fv/Fm) and stomatal conductance (g s). Our findings suggest that Pseudomonas alkylphenolica PF9 can act synergistically with Sinorhizobium meliloti Rm41 in promoting alfalfa growth under low-P availability. [ABSTRACT FROM AUTHOR]

Published
2021
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5. Phosphorus deficiency enhances water deficit impact on some morphological and physiological traits in four faba bean (Vicia faba L.) varieties.

Author

Oukaltouma, Khawla, Moukhtari, Ahmed El, Lahrizi, Yahya, Mouradi, Mohammed, Farissi, Mohamed, Willems, Anne, Qaddoury, Ahmed, Bekkaoui, Faouzi, and Ghoulam, Cherki

Subjects
FAVA bean, NITROGEN fixation, BETAINE, PHOSPHORUS in water, PLANT development, PHOSPHORUS
Abstract

Moroccan soils, generally present low available phosphorus (P) levels which occur in almost all arid and semi-arid regions. Faba bean is one of the most significant crops in Morocco and is influenced by these constraints that affect its nutrient uptake and nitrogen fixation capacity and hence plants development. Therefore, we evaluated the response of four Vicia faba varieties - Aguadulce (Ag), Alfia (Al), Luz de Otono (LO) and Reina Mora (RM)-, grown under biological nitrogen fixation to water deficit and two phosphorus levels. The trial was conducted under greenhouse conditions and water stress was induced by keeping pots at 40% substrate field capacity (FC) versus 80% FC for the controls while phosphorus deficiency treatment consisted in the application of 25 µmol P plant-1 week-1 versus 125 µmol P plant-1 week-1 for sufficient P treatment. The results revealed a significant effect of water deficit and phosphorus deficiency either alone or combined on plants dry weights, leaf water parameters and nutrient concentrations. However sufficient phosphorus supply mitigated the adverse effects of water deficit on faba bean. We noticed significant differences between the studied varieties. Ag showed high performance concerning dry weights (1.25 g and 1.88 g plant-1 respectively for shoot and root) and high concentration of nitrogen N (4.7%) and P (0.27 mg g-1 DW) and was then qualified as the most tolerant variety to water deficit combined with P limitation. While RM was the least tolerant variety, as it showed the lowest dry weights (0.51 g and 1.4 g plant-1 respectively for shoot and root) and concentration (2.74% and 0.19 mg g-1 DW respectively for N and P). The tolerance was related to the ability to ensure efficient osmoregulation by glycine betaine accumulation, to keep leaf water balance and cell membrane stability that contribute together with adequate symbiotic nitrogen fixation to plant growth performance under combined stresses. [ABSTRACT FROM AUTHOR]

Published
2021
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6. Isolation and characterization of endophytic actinomycetes associated with Thymus saturoides and Lavandula multifida grown in Beni-Mellal region in Morocco.

Author

El Moukhtari, Ahmed, Ziati, Irouane, Lamsaadi, Nadia, Mouradi, Mohammed, Farissi, Mohamed, and El Hassni, Majida

Subjects
*ENDOPHYTIC bacteria, *ACTINOBACTERIA, *THYMUS, *LAVENDERS, *FUSARIUM oxysporum, *TRICHLOROPHENOL, *AUXIN, *ABIOTIC stress
Abstract

The present study aims to isolate endophytic actinomycetes (EPM) that are able to tolerate abiotic stresses, solubilize tricalcium phosphate (TCP) and produce indole-3-acetic acid (IAA), amylase and cellulose activities, while exhibiting high antagonistic activity against Fusarium oxysporum. f. sp. albedinis. Endophytic actinomycetes were isolated from roots, stems and leaves of Thymus saturoides and Lavandula multifida plant grown in Beni Mellal region, Morocco. According to the macro- and micro-morphological characteristics, a total of eleven EPM isolates were isolated and purified. Results indicated that the majority of isolates were able to tolerate pH and salt stresses. Moreover, the majority of the isolates were able to solubilize TCP on Pikovskaya (PVK)-agar medium which ranged from 25% to 458%. Additionally, on PVK-liquid medium, soluble phosphate content varied from 163.81 µg/mL recorded for the isolate LRP1 to 730 µg/mL observed for the isolate TSRP2. For IAA production, the amount produced varied from 1.70 µg/mL recorded for the isolate LRP1 to 14.13 µg/mL recorded for both LTP2' and TSRP2. Endophytic actinomycetes isolated in this work also showed a remarkable capacity to degrade some compounds such as cellulose and starch. In addition, some of them showed a strong inhibitory activity against the fungus F. albedinis with a percentage of inhibition ranged from 69.13% observed for LTP2' to 86.6% recorded for the isolate LRP2. Results from this study indicate that the two isolates LTP2' and TSRP2 were the most efficient and that actinomycetes could be used in biocontrol against the fungus F. albedinis. [ABSTRACT FROM AUTHOR]

Published
2021
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