Nibras Ihsan Abdul-Jabbar; Azizolah Khandan-Mirkohi; Seyed Alireza Salami; Hossein Saremi; Samira Shahbazi
Abstract
The current research explored the biocontrol ability of two strains of Trichoderma fungi on infected Freesia corm by Fusarium disease. Enhancements in plant growth and performance were evaluated in response to the Trichoderma fungi in laboratory and greenhouse conditions. Laboratory experiments included ...
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The current research explored the biocontrol ability of two strains of Trichoderma fungi on infected Freesia corm by Fusarium disease. Enhancements in plant growth and performance were evaluated in response to the Trichoderma fungi in laboratory and greenhouse conditions. Laboratory experiments included five Trichoderma strains, i.e., T1, T20, and Th4, related to T. harzianum species, T2 related to T. atroviride species, and Tvi related to T. virens species. A dual culture test and investigation of the inhibition and colonization rate were carried out with 11 treatments in three replications. Results revealed that strains T1 and T2 completely covered the pathogen in 96 h of culture by 70.02% and 68.98% and successfully inhibited the colonization of the disease agent by 84.53% and 82.72%, respectively, compared to the other strains. Then, a greenhouse experiment was performed with eight treatments, using suspensions of Trichoderma strains separately or combined with the presence of Fusarium fungus isolate on Freesia cultivation. The results showed that the strains at different levels were able to increase the growth and yield of Freesia plants and control Fusarium disease. In general, the T2 strain was more effective in increasing plant growth and flower stem height in Freesia. The T1 strain specifically improved the corm diameter. Both T1 and T2 strains demonstrated effectiveness in controlling and reducing the severity of Fusarium disease and enhancing the growth quality of Freesia.
Shadab Panahi; Azizolah Khandan-Mirkohi; Gail Taylor; Seyed Alireza Salami
Abstract
In this study, we investigated important morphological traits of select populations of Iranian fiber hemp. The analysis of variance showed significant diversity among the populations. Four of the eight genotypes showed a large biomass suitable for the fiber industry. Kerman, Sirjan, Dezful, and Arak ...
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In this study, we investigated important morphological traits of select populations of Iranian fiber hemp. The analysis of variance showed significant diversity among the populations. Four of the eight genotypes showed a large biomass suitable for the fiber industry. Kerman, Sirjan, Dezful, and Arak genotypes had the highest plant height and the largest stem diameter. These populations had late-flowering habits with a short inflorescence length. Our classification revealed that of the four high-fibrous candidates, three were classified in one group, comprising Kerman, Sirjan, and Dezful genotypes. The fourth one, Arak, was placed in the second group. Significantly positive correlations were observed between final plant height, footstalk diameter, and number of days to first-flower emergence. A strong correlation occurred between morphological traits and geographical data pertaining to the genotypes. Our findings indicated that a high elevation and a low average annual temperature are suitable for the growth of medicinal cannabis. Warmer weather made the plants taller with thicker stems and late blooming habits, which are more relevant for use in the fiber industry.