Agriculture
Ffatemeh Moallem Banhangi; Parviz Rezvani Moghaddam; Ghorban Ali Asadi; Surur Khorramdel
Abstract
In order to study the effect of different amounts of corms and planting depths of corms on flower and corm yield of saffron, an experiment was conducted in a factorial layout based on complete randomized block design with three replications at the Agricultural Research Station, Faculty of Agriculture, ...
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In order to study the effect of different amounts of corms and planting depths of corms on flower and corm yield of saffron, an experiment was conducted in a factorial layout based on complete randomized block design with three replications at the Agricultural Research Station, Faculty of Agriculture, Ferdowsi University of Mashhad, Iran during 2015- 2016 growing seasons. The experimental treatments were all combination of four quantity of corms (7, 8, 9 and 10 t/ha) and three planting depth (10, 15 and 20 cm). The results showed that different quantity and planting depth of saffron corms had significant effects on the most of the studied criteria. The results revealed that flower yield, stigma dry weight, number of flowers and replacement corms per square meter increased by increasing the amount of corm by 9 t/ha and reduced planting depth by 10 cm. The maximum replacement corms yield was obtained in 8 t/ha corm treatment which was 33.25 percent higher than 7 t/ha and 15.99 percent was higher than 10 t/ha corm treatments. The maximum and minimum replacement corms yield were shown in 10 and 20 cm planting depth, respectively. The higher number of replacement corms (173 corm in m2) were obtained in 10 t/ha corms, Therefore, increasing the amount of corms from 7 to 10 t/ha will increase the number of replacement corms by 101 percent while there were no significant differences between the rests of treatments. According to the low yield of saffron in the first year, it seems increasing the amount of corm till the optimum range and reducing the planting depths of corms will increase saffron flowers yield in the first year and lead to produce bigger replacement corms for next years. Hence, optimum amount of corm and planting depths will increase farmers’ income in the first year.
Other subject about saffron
Zakieh Shariatmadari; Mahmoud Shoor; Parviz Rezvani Moghaddam; Ali Tehranifar; ahmad ahmadian
Abstract
In order to study the effects of organic and chemical fertilizers on replacement cormsand flowercharacteristics of saffron (Crocus sativus L.), an experiment was conducted in a factorial layout based on randomized complete block design with three replications in a farm at Zaveh, Iran in the growing season ...
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In order to study the effects of organic and chemical fertilizers on replacement cormsand flowercharacteristics of saffron (Crocus sativus L.), an experiment was conducted in a factorial layout based on randomized complete block design with three replications in a farm at Zaveh, Iran in the growing season of 2013-2014 The experimental treatments were all combination of six types of organic fertilizers (Sheep manure (10 t.ha-1), cow manure (30 t.ha-1), vermi compost (6 t.ha-1), hen manure (5 t.ha-1), urban compost (9 t.ha-1) and control and using and not using chemical fertilizer (Nitrogen (100 kg.ha-1)+Phosphate (80 kg.ha-1)). The studied criteria included: total weight of cormper square meter, average number of buds per corm, diameter of corm and number of replacement cormsin each weight categories (0.1-4g,4.1-8g, 8.1-12g,12.1-16g and more than16.1g), number of flowers, fresh weight offlowers,stigmaandstyle dry weight per square meter, and harvest index of stigma. The results showed that the simple and interaction effects of using and not using chemical fertilizers and organic fertilizers on all studied criteria were significant. Control+chemical fertilizer and hen manure+without chemical fertilizer treatments produced the highest and lowest total corm number (228 and 177 corm per in m2), respectively. The highest and lowest total corm weight (1876 and 1623 g.m-2, respectively), average single corm weight (10.94 and 7.75 g.m-2, respectively), average corm diameter (3 and 2.72 cm, respectively) and average number of buds (8 and 1.33 bud per corm, respectively) were obtained in hen manure+without chemical fertilizer and control+chemical fertilizer treatments, respectively. Control+chemical fertilizer produced the highest replacement corms at the weights of 0.1-4 (12.64%) and 4.1-8g (10.31%) categories. The highest percentage of number of replacement corms at 8.1-12 (16.77%), 12.1-16 (18.10%), and more than 16.1g (31.38%) weight categories were shown in the hen manure+ without chemical fertilizer treatment. Hen manure+without chemical fertilizer and control+ chemical fertilizer treatments produced the highest and lowest number of flowers (142 and 56 flower per square meter, respectively), fresh flower weight (50.20 and 17.60 g.m-2, respectively), stigma dry weight (0.405 and 0.169 g.m-2, respectively), style dry weight (0.685and 0.080 g.m-2, respectively), harvest index of stigma (0.0082, 0.0011, respectively), respectively. The results showed that flower yield in the second year was directly affected by the weight of replacement corms which were produced in the first year. Overall, the results of the present study revealed that the application of organic fertilizer compared with chemical fertilizers had superior effect on replacement corms and yield criteria of saffron.
Agriculture
Mahsa Aghhavani Shajari; Parviz Rezvani Moghaddam; Alireza Koocheki; Hamid-Reza Fallahi; Reza Taherpour Kalantari
Abstract
This experiment was conducted to study the effect of soil texture on flower and corm yield of saffron. This experiment was carried out based on Randomized Complete Block Design with four treatments and four replications in box at Faculty of Agriculture, Ferdowsi University of Mashhad, Iran, in 2011. ...
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This experiment was conducted to study the effect of soil texture on flower and corm yield of saffron. This experiment was carried out based on Randomized Complete Block Design with four treatments and four replications in box at Faculty of Agriculture, Ferdowsi University of Mashhad, Iran, in 2011. Treatments included of: 1- 100% field soil + cow manure, 2- 70% field soil + 30% sand, 3- 70% field soil + 30% sand + cow manure and 4- 70% sand + 30% field soil + cow manure. Results showed that the effect of soil texture was significant on all flower and corm properties. The highest flower and stigma fresh weight per box (1.59 and 0.10 g, respectively) and petal dry weight (0.12 g) were observed in 70% sand + 30% field soil + cow manure. The highest corm number in 2-3 cm diameter per box was obtained in 70% field soil + 30% sand + cow manure (3.75 numbers). Treatment of 70% sand + 30% field soil + cow manure produced the highest corm number in 3-6 g (1.75 numbers) and 6-9 g (1.25 numbers) per box, but the lowest values of most studied indices were obtained in 100% field soil + cow manure. Generally, our results indicated that light soil texture has more advantages than heavy soil texture in saffron cultivation. Therefore, soil modification through lighter soil application can improve saffron flower and corm yield.
