Improvement and breeding
P. Yari; R. Aminian; A.H. Keshtkar; H. Bagheri; S. Mafakheri
Abstract
Tragopogon spp. has many medicinal properties in addition to its edible consumption due to its many useful compounds. One of these identified compounds is inulin, which is present in the roots of this plant. To investigate the effects of low irrigation stress and growth-promoting rhizobacteria (Bacillus ...
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Tragopogon spp. has many medicinal properties in addition to its edible consumption due to its many useful compounds. One of these identified compounds is inulin, which is present in the roots of this plant. To investigate the effects of low irrigation stress and growth-promoting rhizobacteria (Bacillus subtilis) on inulin content and root morphological traits in some genotypes of Tragopogon spp., a factorial experiment with three factors in a completely randomized design with three replications was conducted in the research greenhouse of Bu Ali Sina University in 2020. The factors included irrigation at two levels of without stress (100% of field capacity) and low irrigation stress (50% of field capacity) as the first factor, genotype at 15 levels (different genotypes of Tragopogon spp) as the second factor, and plant growth-enhancing rhizobacteria (PGPR) at two levels of inoculation with B. subtilis and without inoculation as the third factor. Length, area, volume, diameter, weight, and inulin content of the plant roots were measured. The results showed that the irrigation × genotype × bacteria interaction effect was significant on all studied traits. Low irrigation stress increased length, area, and volume of the plant roots in most genotypes, but decreased root weight and inulin content. Inoculation with B. subtilis affected genotypes differently. Iranian genotype No. 11 (Kaboudar Ahang) had the highest inulin content at different stress and B. subtilis levels, followed by Italian genotype No. 4 at both B. subtilis levels under non-stress conditions. Overall, stress reduced inulin content of the plant roots, but the effect of inoculation with B. subtilis depended on the genotype.
Improvement and breeding
S. Madadkhani; A. Kheiry; M. Arghavani; M. Sanikhani; Z. Mohkami
Abstract
The use of elicitors to produce the environmentally friendly biological products and in conjunction with the modern agriculture can increase the qualitative and quantitative growth of plants and reduce the effects of environmental stresses on them. To investigate the effects of biostimulants under the ...
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The use of elicitors to produce the environmentally friendly biological products and in conjunction with the modern agriculture can increase the qualitative and quantitative growth of plants and reduce the effects of environmental stresses on them. To investigate the effects of biostimulants under the low irrigation stress on the morphological and phytochemical characteristics of Dracocephalum moldavica L., a factorial experiment was conducted in a completely randomized block design in the Zanjan University research farm in three replications in 2019. The main factor was the irrigation (100 and 70% of field capacity) and the sub-factor was the foliar application of elicitors including saffron extract (0.01 and 0.05%), ginseng extract (0.5 and 1%), amino acid L-cysteine (50 and 100 μM), and control treatment (no foliar application) at the four-, eight-, and twelve-leaf stages. The morphological and phytochemical traits were evaluated at the 90% flowering stage of the plants. In the present experiment, the highest amount of total chlorophyll (35.68 mg / g FW), carotenoids (9.18 mg / g FW), and relative leaf water content (83.20%) was obtained under the full irrigation conditions stimulated by the 50 μM L-cysteine treatment. While under the water stress conditions, the highest content of total phenols (33.17 mg GA / g DW), total flavonoids (1.53 mg QE / g DW), and antioxidant capacity (95.37%) was obtained in the no foliar application of elicitors treatment. The highest essential oil percentage (0.38%) was observed in the 100 μM L-cysteine treatment under the full irrigation conditions. Although the morphological parameters of D. moldavica had their highest values under the full irrigation conditions, the low irrigation stress led to the synthesis of higher amounts of phenolics and flavonoids and the stronger antioxidant capacity.