Agriculture
Alijan Salariyan; Sohrab Mahmoodi; Mohammad. Ali Behdani; hamed kaveh
Abstract
In order to investigate the effect of salinity levels, bio fertilizer and nano fertilizer of Fe on quantitative and qualitative characteristics of saffron, a factorial experiment was conducted as a combined analysis in location by a randomized complete block design with three replications. Bio fertilizer ...
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In order to investigate the effect of salinity levels, bio fertilizer and nano fertilizer of Fe on quantitative and qualitative characteristics of saffron, a factorial experiment was conducted as a combined analysis in location by a randomized complete block design with three replications. Bio fertilizer was applied at four levels of zero, 500, 1000 and 1500 kg ha-1 and nanoparticles of Fe was applied at two levels of non-consumption and application of four liters per hectare. These factors were investigated in two locations with different irrigation salinity (2.29 and 4.49 dS m-1). The results showed that there were the highest values for traits of weight of flower, number of flowers, dry weight of stigma and weight of stigma + style in irrigation conditions with a salinity of 2.29 dS m-1. In the mentioned traits, under the conditions of irrigation with salinity of 2.29 dS m-1, there was no significant difference between the application and non-application levels of nano fertilizer of Fe; However, in the conditions of irrigation with salinity of 4.49 dS m-1, the application of nano fertilizer of Fe compared to non-application, caused a significant increase of 35.5, 33, 32.8 and 34.1% of these traits, respectively. Comparison of mean for triple interaction showed that at both salinity levels of 2.29 and 4.49 dS m-1, in the absence of bio fertilizer, the application of nano fertilizer of Fe could significantly increase the amount of crocin. However, in the application of different levels of bio fertilizer, the application of nano fertilizer of Fe reduced significantly the amount of crocin. The highest amount of safranal was observed in salinity of 4.49 dS m-1 and in the treatments of application of 500 and 1500 kg per hectare of bio fertilizer and application of nano fertilizer of Fe as well as non-application of bio fertilizers and nanoparticles of Fe. Irrigation with salinity of 4.49 dS m-1 in bio fertilizer levels (except for 500 kg ha-1) caused a significant increase in picrocrocin. In generally, it seems that for achieving higher yields, irrigation with less saline water and in case of irrigation with water by more than salinity of 4.2 dS m-1, the use of nano fertilizer of Fe to moderate the effects of salinity is recommended.
Agriculture
Hamid Reza Tavakkoli kakhki; Ali Mokhtarian; Mohamad Hossein Binabaji; Hassan Hamidi; Ramin Esmi
Abstract
In order to investigate the effect of planting density and maternal corm weight on some characteristics of daughter corms and agronomic characteristics of saffron (Crocus sativus L.) a field experiment was conducted at the Agricultural and Natural Resources Research Center of Mashhad. This experiment ...
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In order to investigate the effect of planting density and maternal corm weight on some characteristics of daughter corms and agronomic characteristics of saffron (Crocus sativus L.) a field experiment was conducted at the Agricultural and Natural Resources Research Center of Mashhad. This experiment was carried out as a factorial split plot in time based on complete block design with three replications and 12 treatments during the years 2010-2014. The experimental factors were 3 levels of density (40, 80 and160 corm in m2) and 4 levels of mother corm weight (≤3, 3-6, 6-9 and 9-12 g per corm) as a main plot and time as a sub plot. The results showed that density, maternal corm weight and year had significant effects on daughter corm’s weight, but the effect of interaction density × corm weight and density × weight × year were not significant for the most characteristics. The mean comparison of interaction effect of density × weight for number of daughter corm showed that maternal corm weight (9-12 g) × planting density (160 m2) had the highest number for daughter corms (771 m2). Maternal corms with higher initial weight produced the highest number of corms in different corm classes. In addition, the results showed that maternal corm with lower initial weight produced heavy daughter corms compared to other maternal corm weight classes. Flower weight and stigma dry weight of saffron (m2) were increased by increasing planting density and maternal corm weight flower number. The highest dry stigma (0.65 g.m-2) yield was produced by maternal corm (9-12 g per corm) weight class.
