J. Ghanbari; Gh. Khajoei-Nejad
Abstract
In addition to the stigma, other parts of saffron (Crocus sativus L.) flower including petals, as by-products of the saffron production process, contain bioactive and antioxidant compounds that are usually left unused. This experiment was conducted at the research field of Shahid Bahonar University of ...
Read More
In addition to the stigma, other parts of saffron (Crocus sativus L.) flower including petals, as by-products of the saffron production process, contain bioactive and antioxidant compounds that are usually left unused. This experiment was conducted at the research field of Shahid Bahonar University of Kerman, Iran, to increase the productivity of this crop as well as investigate the variation in corm origin in terms of flower yield and bioactive compounds of saffron petals. In this regard, different corms from nine different regions of Iran (Bajestan, Estahban, Ferdows, Gonabad, Natanz, Qaen, Sarayan, Torbate-Heydarieh and Zarand) were evaluated during the three growing seasons of 2015-16, 2016-17 and 2017-18. Based on the results, phenolic compounds ranged from 2.83 to 5.24 mg gallic acid/g dry weight and flavonoid compounds ranged from 0.38 to 1.81 mg quercetin/g dry weight in petals. The results also demonstrated that flower-related traits, bioactive compounds and radical scavenging activity were significantly affected by the growing season, corm origin and their interaction. In all the traits studied (except reducing power ability), corms of different origins showed different responses to the growing season. The highest yield was obtained from the corms of Ferdows in the first and third growing seasons and Bajestan in the second growing season. The corms of Bajestan and Gonabad (the highest phenolic and flavonoid contents) and Estahban (the least phenolic and flavonoid contents) showed, respectively, the highest (216 and 217 mg/L, respectively) and lowest antiradical activity in 2016-17 growing season. The corms of Ferdows, Sarayan, Bajestan, and Gonabad origin based on high yield and bioactive compounds content, Qaen and Estahban due to low bioactive compounds content and antioxidant activity, and Natanz, Torbate-Heydarieh and Zarand with the lowest flower production were grouped into three main clusters according to cluster and principal component analyses.
B. Moien Vaziri; Gh. Khajoei-Nejad; M. Sarcheshmehpour
Abstract
The present study investigates the effects of some mycorrhizal fungi with different fertilizer treatments on vegetative characteristics and Cuminum cyminum L. yield components. For this purpose, first experiments were carried out on rhizosphere soil of several plants of Apiaceae family (Bunium persicum, ...
Read More
The present study investigates the effects of some mycorrhizal fungi with different fertilizer treatments on vegetative characteristics and Cuminum cyminum L. yield components. For this purpose, first experiments were carried out on rhizosphere soil of several plants of Apiaceae family (Bunium persicum, Cuminum cyminum and Coriandrum sativum), and according to the results, the superior isolate (isolate of Coriandrum sativum 3), which had the highest percentage of colonization, was selected for mass production of inoculum of mycorrhizal fungi. Then, the main experiment was performed on Cuminum cyminum in a factorial arrangement based on completely randomized design.Treatments including control and different levels of fertilization at two levels without inoculation and inoculation with mycorrhiza were accomplished in greenhouse with four replications. The results of data analysis indicated that the traits related to the shoot (stem height and diameter, fresh and dry weight, number of branches, number of flowers per plant), root traits (root volume and length), and the percentage of colonization were significantly (at 1% probability) affected by the combined use of mycorrhiza with chemical fertilizer, leading to improved vegetative properties and yield components in Cuminum cyminum. Combined consumption of mycorrhiza and fertilizer except micro elements (T5) in all traits was the best treatment. No significant difference was observed between fertilizer treatments and control treatment; however, with the presence of mycorrhizal fungi, the difference was significant among the traits studied.