Agriculture
Mohsen Razavian; Parviz Rezvani Moghaddam; Ghorban Ali Asadi
Abstract
In order to study the effects of different weights of mother corm and sowing depth on flower and corm yield of saffron (Crocus sativus L.), an experiment was conducted as a factorial layout based on complete randomized block design with three replications at the Agricultural Research Station, Faculty ...
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In order to study the effects of different weights of mother corm and sowing depth on flower and corm yield of saffron (Crocus sativus L.), an experiment was conducted as 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 mother corm weights (4-6, 6.1-8, 8.1-10 and 10.1-12 g) and three planting depths (10, 15 and 20 cm). In the first year, criteria such as flower and corms yield were evaluated, and in the second year only flower yield were recorded. The result revealed that in both years the interaction between corm weight and planting depths was significant on most traits of the studied flower. Flower, stigma and style yield significantly increased by increasing corm weight and planting depth. The maximum dry stigma yield was obtained in 10.1-12 g corm weight and 20 cm planting depth which was 0.1095 and 0.5393 g.m-2 in the first and the second year, respectively. The interaction between treatments was not significant on daughter corm but the individual effects of each treatment was significant. The higher corm yield (1181.6 g.m-2) was related to 10.1-12 g corm weight treatment. Deeper planting (20 cm) produced the high corm yield (938.86 g.m-2). Eventually, the high excellence of yield in corm weight and planting depth treatments of higher, we recommend corms with higher weight and deeper sowing depth for cultivating saffron.
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.
Agriculture
Alireza Koocheki; Ghorban Ali Asadi; Milad Bagheri Shirvan; Bahareh Bicharanlou
Abstract
Due to climate change it seems that the suitable area for production of saffron is shifting towards the Northern area of Khorasan. On the other hand, corm density and nutrient management are important factors in saffron production. To find out the credibility of this assumption, an experiment was conducted ...
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Due to climate change it seems that the suitable area for production of saffron is shifting towards the Northern area of Khorasan. On the other hand, corm density and nutrient management are important factors in saffron production. To find out the credibility of this assumption, an experiment was conducted based on a randomized complete blocks design arranged in split plot with three replications in a field located 10 km of Shirvan during the 2013-14, 2014-15 and 2015-16 growing seasons. Corm density (50, 100 and 150 corm.m-2) and different amounts of chemical and organic manure [No fertilizer (Control), amount of urea, triple super phosphate and potassium sulfate 100, 100, 50 (C1), 200, 200, 100 (C2) and 300, 300, 150 (C3), cow manure consumption based on 100 kg.ha-1 urea (3066 kg.ha-1), based on 200 kg.ha-1 urea (6132 kg.ha-1) and based on 300 kg.ha-1 urea (9198 kg.ha-1)] were allocated to the main and sub-plots, respectively. Three year average of harvest showed that flower and corm traits improved with increasing corm density and cow manure consumption, while the highest density compared to minimum density caused increasing flower number, fresh flower yield, dried stigma yield, daughter corm number and corm yield by 35, 61, 29, 180 and 122 percent, respectively. Also the highest amount of cow manure compared to control increased flower number, fresh flower yield, dried stigma yield and corm yield by 32, 51, 38 and 51 percentages, respectively. Therefore, more flower and corm yield were obtained in 9198 kg.ha-1 cow manure consumption with 150 corm.m-2 planting density. Therefore, it seems that the production of saffron is suitable using with organic manure compared with chemical manure. Moreover, saffron planting with high corm density is a solution for improving the yield of saffron in the early years of planting.
Agriculture
Ghorban Ali Asadi; soror Khorramdel; Reza Ghorbani; Bahareh Bicharanlou
Abstract
In order to evaluate the effects of organic, chemical and biological fertilizers and summer irrigation on growth characteristics, corm yield, flower yield and stigma yield of saffron, field experiment was conducted as factorial based on a randomized complete block design with three replications at Agricultural ...
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In order to evaluate the effects of organic, chemical and biological fertilizers and summer irrigation on growth characteristics, corm yield, flower yield and stigma yield of saffron, field experiment was conducted as factorial based on a randomized complete block design with three replications at Agricultural Research station, Faculty of Agriculture, Ferdowsi University of Mashhad during three growing season of 2013-2014, 2014-2015 and 2015-2016. The first factor included of animal cow manure (a1), chemical fertilizer (such as Nitrogen, P and K) (a2), Thiobacillus (a3), sulfur (a4), a3+a4 and control (a5) and the second factor was summer irrigation in three levels such as conventional irrigation (A: without summer irrigation), A+ once summer irrigation (23 July), A+ twice summer irrigation (22 June+23 July). Studied characteristics were number and fresh weight of flower, dry weight of stigma, corm diameter, corm weight in four groups (16 g), corms with contractile roots, number of flowering buds per corm, leaf length, dry weight of leaf and dry weight of tunic of saffron. The results in the third of experiment revealed that the interaction effect between fertilizers and summer irrigation were significant (P≤0.01) on all studied traits of saffron except stigma dry weight, corms with weight more than 16 g and dry weight of daughter corms. The highest flower number (282.7 per m2), flower fresh weight (103.2 g/m2), stigma dry weight (1.73 g/m2), leaf dry weight (13.33 g/m2), buds dry weight (4.61 g/m2), flowering buds number per corm (2.627), corm percentage with cractile roots (58.41%), corm diameter (2.97 cm) and corms in different weight were obtained in animal manure and A+once summer irrigation. About simple effects, the highest stigma dry weight and dry weight of daughter corms were observed in animal manure and the highest amount of this traits were obtained in treatment A+once summer irrigation. It seems that summer irrigation increased the flower and stigma yield of saffron due to decreasing soil temperature.
Other subject about saffron
Ghorban Ali Asadi; Surur Khorramdel; Mohammad Hasan Hatefi Farajian
Abstract
In order to study the effect of additive intercropping series of chickpea (Cicer arietinum L.) with saffron (Crocus sativus L.) on their growth criteria and yield, a field experiment was done based on a randomized complete block design with three replications at the Agricultural Research Station, Faculty ...
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In order to study the effect of additive intercropping series of chickpea (Cicer arietinum L.) with saffron (Crocus sativus L.) on their growth criteria and yield, a field experiment was done based on a randomized complete block design with three replications at the Agricultural Research Station, Faculty of Agriculture, the Ferdowsi University of Mashhad during two growing seasons of 2012-2013 and 2013-2014. The treatment included 100% saffron+20%chickpea, 100% saffron+40%chickpea, 100% saffron+60%chickpea, 100% saffron+80%chickpea, 100% saffron+100% chickpea and their monoculture. The trait studied were plant height, yield components, biological yield and seed yield of chickpea and the number of flowers, fresh weight of flowers, fresh weight of stigma and dry weight of stigma for saffron. The results showed that saffron intercropping series had a significant impact on plant height, number of branches, number of pods, number of seeds per pod, number of seeds per plant, biological yield and seed yield of chickpea (p≤0.01). The highest biological yield and seed yield of chickpea were observed in monoculture with 608.3 and 282.9 kg.m-2 and the minimum of these were obtained in 100%saffron+100% chickpea with 122.5 and 55.94 g.m-2, respectively. The number of flowers, fresh weight of flower, fresh weight of stigma and dry weight of stigma for saffron were significantly affected by intercropping with chickpea (p≤0.01). The highest flower number and stigma dry weight of saffron were achieved in monoculture with 103.89 and 0.47 g.m-2 and the lowest of these were obtained in 100%saffron+20% chickpea with 28.94 flowers.m-2 and 0.14 g.m-2, respectively. By increasing the chickpea ratio from 20 to 100% at additive intercropping series with saffron, the dry weight of stigma was increased by 142, 116, 41 and 5%, respectively. Therefore, we may conclude that intercropping of saffron with nitrogen fixation plants such as chickpea seems to be a rational ecological approach for sustainable management of saffron.
Agriculture
Ghorban Ali Asadi; Parviz Rezvani Moghaddam; Fatemeh Hassanzadeh Aval
Abstract
Saffron (Crocus sativus L.) is one of the most important crops and medicinal plants in Iran. Appropriate application of nutrients has special important role on replacement corm growth and flower yield of saffron. In order to investigate the effects of different levels of soil and foliar nutrients applications ...
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Saffron (Crocus sativus L.) is one of the most important crops and medicinal plants in Iran. Appropriate application of nutrients has special important role on replacement corm growth and flower yield of saffron. In order to investigate the effects of different levels of soil and foliar nutrients applications by using mixture fertilizer on replacement corm production and flower yield of saffron, an experiment was conducted by using a factorial layout based on complete randomized block design with three replications at the Agricultural Research Station, Ferdowsi University of Mashhad during 2011- 2012 growing season. The experimental treatments were all combinations of four levels of soil nutrition (0, 50, 100 and 150 kg.ha-1) and three levels of foliar spray (0, 5 and 10 per 1000). Results of variance analysis showed that the soil application of treatments had positive significant effects on weight of replacement corms and number and weight of flower and stigma yield of saffron but these treatments had no significant effects on total corm number. The number and yield of replacement corms and flowers were not affected by simple effect of foliar spray and soil and foliar applications interactions. The results of this research showed that the using 150 kg.ha-1 of nutrients soil application in early March had more positive and significant effect on yield of fresh and dry flower (120 and 963 kg.ha-1, respectively), yield of fresh and dry stigma (45.5 and 7.90 kg.ha-1, respectively) and weight of replacement corms (1646 g.m-2) than other treatments but foliar application of nutrients in this time had no significant effects on flower and corm yield of saffron.
