Agriculture
Abbas Jalali; Faezeh Zaefarian; Benjamin Torabi; Rahmat Abbasi
Abstract
Saffron can be cultivated in many regions of the world with different climates. But the best climate for growing saffron is the Mediterranean climate with its warm and dry summers. The present study was conducted to evaluate some indicators of saffron growth in 2019-2020 in four region with different ...
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Saffron can be cultivated in many regions of the world with different climates. But the best climate for growing saffron is the Mediterranean climate with its warm and dry summers. The present study was conducted to evaluate some indicators of saffron growth in 2019-2020 in four region with different altitudes above sea level in Sari, Iran. These regions include Sari plain (level with sea level), Sarkat (350 meters above sea level), Reskat (900 meters above sea level) and Margav (1350 meters above sea level). These experiments were performed in a randomized complete block design with three replications. The treatment was includes corm size in three weight groups: small (4±2 g), medium (10±2 g) and large (15±2 g) and Measured traits include leaf area index, cumulative dry matter, growth rate, relative growth rate and saffron yield. The results showed that the trend of saffron leaf area development in all studied regions has a non-linear trend and follows a logistic-peak function. Based on the results, a significant difference was observed between the leaf area development trend among different sizes of mother corm in all regions and the trend of leaf area index changes during the growing season was higher for larger corms than for smaller corms. The trend of changes in dry matter accumulation also had a sigmoidal trend in all experiment region. Total dry matter changes were higher for larger corms. Although the trend of changes in crop growth rate in higher altitude region was lower; But the rate of growth rate fluctuation or in other words the difference between the minimum and maximum growth rate during the season in the two higher regions was less than the lower regions. The growth trend of saffron in four regions showed that it grows during the season in region with higher altitudes above sea level and following more vegetative growth and more dry matter allocation to the storage organ, larger corm is produced and the potential to increase the yield of dried saffron flowers and stigmas will increase next year.
Agriculture
Seid Mohammad Alavi Siney; Ahmad Ahmadpour Jolgeh; Mohammad Behroozeh; Majid Soltani
Abstract
In order to investigate planting date and corm weight Effects on flower characters and saffron(Crocus sativus L.) yield, an experiment as a factorial was carried out based on randomized complete blocks design with three replications in research station of South Kerman Agricultural and Natural Resources ...
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In order to investigate planting date and corm weight Effects on flower characters and saffron(Crocus sativus L.) yield, an experiment as a factorial was carried out based on randomized complete blocks design with three replications in research station of South Kerman Agricultural and Natural Resources Research and Education Center at Sfadagheh during 2017-2018 growing season Two factors, planting date (Jun, August and September) and corm size (6-8, 8-10, 10-12 and >12g) were evaluated in this experiment. Related traits with flower and Stigma and cormwere measured during growing season. Results showed that planting date have significant effect on all of traits except of dry weight of stigma. Also, the effects of corm weight and interaction of planting date×corm weight were significant on all of traits. So, the highest number of flower and the stigma yield were observed in the planting date of June and the corm weight more than 12 g. Therefore, for achieving high saffron yield, it is recommended planting date of June and the use of corms with more than12 g. Investigating the characteristics of the doughtercorms in the first year of the experiment showed that all studied traits were influenced by the planting date and the effect of the corm weight was not significant on the characteristics of the number of doughter corm over 6 g, the average weight of the doughter corm more and less than 6 g. According to the results of the traits related to the doughter corm, it can be anticipated that in the following year there is no difference in yield and its components among the different levels of maternal corm. Results in the second year showed that yield and yield components were only affected by the planting date and the corm weight had the same effect on them. The planting date of June 5th was the highest in the second year. According to the results and low price of saffron in June, in Southern Kerman foothill areas, cultivation of saffron should be done on June 5th. Since in the first year of the experiment, the yield don't achieved even from great mothernal corm, and given the fact that the mother corms of different weights in the second year have the same role in determining the stigma yield, in order to reduce the production costs, the 6 -8 g recommended for cultivation.
Agriculture
fatemeh Hassanzadeh Aval; Parviz Rezvani moghaddam; Mohammad Bannayan aval; Reza Khorasani
Abstract
In order to investigate the effects of different maternal corm weight and different levels of cow manure on saffron (Crocus sativus L.) production, an experiment was conducted at the Agricultural Research Station, Ferdowsi University of Mashhad during 2011- 2012 and 2012- 2013 growing seasons. For this ...
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In order to investigate the effects of different maternal corm weight and different levels of cow manure on saffron (Crocus sativus L.) production, an experiment was conducted at the Agricultural Research Station, Ferdowsi University of Mashhad during 2011- 2012 and 2012- 2013 growing seasons. For this purpose a factorial experiment was used based on complete randomized block design with three replications and 16 treatments. The experimental treatments were done at 4 levels of maternal corm weight (1.1- 3, 3.1- 5, 5.1- 7 and 7.1- 9 g) and 4 levels of cow manure (0, 20, 40 and 60 t.ha-1). Variance analysis results for studied characteristics of saffron corm showed that maternal corm weight, cow manure and maternal corm weight × cow manure had significant effects on these characteristics. Among the experimental treatments, maternal corm with 7.1- 9 g weight and the use rate of 60 t.ha-1 of cow manure treatment had both the highest total corm number (510 corm.m-2) and corm yield (1044 g.m-2). It seems that the corms with higher weight in the first year produce larger number of replacement corm than the corms with lower weight. The saffron flower yield characteristics showed that flower yield in the first year increased by increasing the maternal corm weight. The results of variance analysis of the number of flowers and fresh and dry yield of flower and stigma of saffron in the second year showed that the maternal corm weight, cow manure and maternal corm weight × cow manure had significant effects on them. These characteristics increased by increasing the maternal corm weight and levels of cow manure. It seems that producing replacement corm with high weight in the first year, requires large amount of maternal corm and high levels of cow manure usage.