Plant extracts and essential oils are promising new sources of non-toxic alternatives to chemicals substances. They are used for their antimicrobial properties against plant diseases of fungal origin, against bacterial, and those of virus origin. This study was carried out to study the antifungal activity of Artemisia herba-alba, Foeniculum vulgare and Citrus sinensis essential oils against Fusarium oxysporum f. sp. albedinis. Essential oil was extracted by steam distillation. Antifungal activity of essential oil was investigated by macro-broth method of dilution by a minimal inhibitory concentration (MIC) assay against this pathogen. The yield of essential oil obtained by steam distillation of Foeniculum vulgare samples was 2.31% greater than that obtained from Citrus sinensis sample which was 1.8%, followed by Artemisia herba alba samples 1.22%. Regarding antifungal activity, the results revealed a better inhibitory activity of Artemisia herba alba against the tested strainsat the lowest LC50 values (0.1 µl/ml). On the other hand, Foeniculum vulgare, Artemisia herba alba and Citrus sinensis essential oils show similar MICs of mycelial growth against this pathogen. The value of the MIC and CMF is greater than 50 µl/ml for the three essential oils.
The present research was taken out to assess the physiological, biochemical, and photosynthetic responses of the chickpea (Cicer arietinum L) to the combination of clay-bentonite and saline water in greenhouse conditions, at four concentrations of NaCl (0, 50, 100 and 200 mM). A substantial decrease in all the studied parameters (germination rate, root and stem length, fresh weight or dry weight, relative water content and chlorophyll content) was observed when salinity was increased. However, the application of various NaCl concentrations improved the total soluble protein and soluble sugar content in plants cultivated in the substrate without bentonite. The imposition of 50 mM NaCl with bentonite increased total soluble protein content. In contrast, the 100 and 200 mM treatment led to decreased total soluble protein content. The use of the bentonite did not produce any changes into depreciating of the effect of NaCl stress. On the other hand, salinity-bentonite exacerbated a reduction in physiological and biochemical processes of chickpea. Indeed, the K+/Na+ ratio decreased in all organs of plants with increasing NaCl doses. This ratio is slightly in favor of K+ only in substrate without bentonite. Our findings indicated that salinity-bentonite exacerbated a reduction in physiological and biochemical processes.
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