Ali Reza Tavakoli; Reza Nosrati; Matin Jamaimoeini
Abstract
Heavy metals such as chromium are considered important pollutants for the environment and agricultural products. Many of these metals are toxic even in very low concentrations and may disrupt the growth process of crops. This study aims at comparing the response of different sesame cultivars to irrigation ...
Read More
Heavy metals such as chromium are considered important pollutants for the environment and agricultural products. Many of these metals are toxic even in very low concentrations and may disrupt the growth process of crops. This study aims at comparing the response of different sesame cultivars to irrigation with different levels of chromium contaminated water. The experiment is carried out as factorial in a randomized complete block design with three replications in Mayamey, Semnan Province, Iran. Experimental factors include irrigation with different levels of chromium-contaminated water in 5 levels (20%, 40%, 60%, 80%, and 100%) and three sesame cultivars (Dashtestan, Oltan and local). The results indicate that irrigation with chromium-contaminated water significantly reduce the plant height and root length (p < 0.01), but have no significant effect on leaflet number and shoot fresh weight. The highest decrease in plant height and root length are observed under irrigation with 100% chromium-contaminated water. There has been a significant difference between sesame cultivars in relation to the growth characteristics. So, the Oltan cultivar has had the highest plant height, leaflet number, root length, and water productivity index compared to other cultivars. According to the results, high levels of chromium in irrigation water significantly reduce the growth of different cultivars.
Ahmad Raefizadeh; Mohammad Armin; Matin Jamaimoeini
Abstract
To determination of critical time of weed control in Cotton (Gossypium hirsutum L.) (Khordad cultivar) in conventional and ultra-narrow row spacing conditions, a field experiment was arrange as a factorial arrangement in a randomized complete block design with three replications in Sabzevar in 2015. ...
Read More
To determination of critical time of weed control in Cotton (Gossypium hirsutum L.) (Khordad cultivar) in conventional and ultra-narrow row spacing conditions, a field experiment was arrange as a factorial arrangement in a randomized complete block design with three replications in Sabzevar in 2015. Factors were cultivation systems (conventional (70 Cm row spacing) and ultra narrow row (20 Cm row spacing) and duration of weed interference (0, 30, 45, 60, 7 days after emergence and weedy in full season. The results of the experiment showed that in ultra-narrow row condition, seed cotton yield losses of 2.5, 5 and 10 percent were estimated to occur on 27.4, 36.1 and 44.7 day after emergence, respectively and in conventional condition yield losses of 2.5, 5 and 10 percent were estimated to occur on 8.1, 13.5 and 24.4 day after emergence, respectively. The onset of seed cotton yield an lint yield loss was earlier (46.3 and 53.7 days after emergence, respectively) in conventional condition while in ultra-narrow row condition the onset of seed cotton yield and lint yield loss was postponed to 57.9 and 65.9 days after emergence, respectively, Overall, the results of the experiment showed that cultivation of cotton in ultra-narrow row spacing in weed interference conditions could provide a better seed cotton yield than conventional spacing.