Agriculture
Rooholla Moradi; Nsibeh Pourghasemian
Abstract
In order to study effect of various additive intercropping series of saffron and cumin on their yields, and yield components, an experiment was conducted as split-plot arrangement based on randomized complete block design with three replications in a two years saffron research farm in agricultural faculty ...
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In order to study effect of various additive intercropping series of saffron and cumin on their yields, and yield components, an experiment was conducted as split-plot arrangement based on randomized complete block design with three replications in a two years saffron research farm in agricultural faculty of Bardsir at 2016-2017. The experimental treatments were planting dates (November 11, December 11, March 6 and April 4) assigned to main plot, and additive intercropping series (25, 50, 75 and 100% of optimum density of cumin (120 plant m-2), sole saffron (50 plant m-2), sole cumin) as subplot. The studied traits were including number of umbrella per plant, essential oil percentage, seed, biological and essential oil yield, and also saffron flower number, flower yield, stigma yield, number of replacement corm, corm weight and number of infected corm. The results showed that delaying in cumin planting date led to a notable decrease in cumin yield and yield components, in all the planting patterns. The reduction values of cumin seed yield in March and April planting dates compared to November were 39% and 64%, respectively. Cumin essential oil at November (2.79%), December (2.78%) and April (2.83%) planting dates were higher than March (2.42%). The experimental treatments had no significant effect on corm number, but cumin planting at spring contained greater infected corms than fall planting. The corm weight was declined as affected by delay in planting date and increase in cumin density. The saffron flower and stigma yield in fall intercropping was significantly higher than spring intercropping. Intercropping had negative impacts on saffron productivity, and the highest stigma yield (2.97 kg ha-1) was assigned to sole cropping. In general, the maximum (1.51) LER was related to fall intercropping of cumin and saffron.
Other subject about saffron
Hassan Rahimi; Ehssan Torabi; Hossien Rahimi; Mahdi Araghi; Mohammad Roshnavandi
Abstract
In this research, the effects of solarization by transparent plastics, planting time and the first irrigation after planting on the populations of saffron bulb mite (Rhizoglyphus robini) and yield (Crocus sativus L.) were investigated. A split plot experiment was conducted based on randomized complete ...
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In this research, the effects of solarization by transparent plastics, planting time and the first irrigation after planting on the populations of saffron bulb mite (Rhizoglyphus robini) and yield (Crocus sativus L.) were investigated. A split plot experiment was conducted based on randomized complete block design with three replicates from 2011 to 2015 in Gonabad, Khorasan Razavi province. Solarization and non-solarization factors were placed in the main plots. Seven crop managing packages including 1- planting without irrigation in September, 2- irrigation immediately after planting in September, 3- planting without irrigation in June, 4- irrigation immediately after planting in June, 5- planting in June and irrigation in August, 6- planting without irrigation in September of the next year, and 7- irrigation immediately after planting in September of the next year were placed in sub-plots. The results showed that regardless of management package, solarization suppressed the mite populations and increased saffron yield. Package 4, Irrigation immediately after planting on June, increased the mite populations and decreased saffron yields. However, package 2, irrigation on September, reduces the mite populations and increases saffron yield. Planting Saffron in June (packages 3, 4, and 5) resulted in more yield compared to Planting at September (packages 1, 2, 6, and 7). The lowest reduction in the population of mites (94%) and the highest yield (77%) were achieved through solarization and by implementing package 3, treatment and cultivation in June of the next year with no irrigation after planting.
Agriculture
Hossein Khozeymehnezhad; Homayoun Farhangfar; Mohammad Ali Behdani; Mojtaba Hassanpour
Abstract
In spite of lots of work performed by saffron farmers in the Southern Khorasan province, a desirable yield has not been obtained which is partly attributed to the lack of scientific knowledge. This investigation is aimed to assess the indigenous knowledge of saffron farmers on the issues related to irrigation, ...
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In spite of lots of work performed by saffron farmers in the Southern Khorasan province, a desirable yield has not been obtained which is partly attributed to the lack of scientific knowledge. This investigation is aimed to assess the indigenous knowledge of saffron farmers on the issues related to irrigation, and also to examine their strengths and weaknesses for taking effective steps to increase crop productivity. A questionnaire (researcher made) including 11 questions about the issues related to irrigation and 14 questions on general information and extensional items were randomly distributed to 235 subjects in the population of farmers of the Southern Khorasan province. The dependent variable was the score of the subjects for the correct answers. Statistical comparison between the levels of each of the independent variables (with significant effect) was undertaken by Tukey-Kramer test using the SAS software. The findings revealed that the groups of subjects participating in the extension courses who were either natives in the South Khorasan province, or had insuring their products answered a greater number of questions correctly with a significant level of 1%. However, the subjects living in the villages had more correct answers at a significance level of 5%. Overall, the results suggest that short-term and long-term programming are needed for the region's farmers to gain appropriate scientific knowledge about saffron planting.