Ali Mansouri; Heshmat Omidi; Amir Bostani
Abstract
In order to investigate the possibility of reducing the growth period and increasing the grain yield of different quinoa genotypes, in 2018, a factorial split plot experiment was conducted in a randomized complete block design with three replications in the research farm of Shahed University. The main ...
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In order to investigate the possibility of reducing the growth period and increasing the grain yield of different quinoa genotypes, in 2018, a factorial split plot experiment was conducted in a randomized complete block design with three replications in the research farm of Shahed University. The main factor included three different genotypes of quinoa (Titicaca, Giza 1 and Sajama) and the secondary factors included three models of planting methods (Transplanting, seed Priming with 1000 ppm Boric acid solution, and direct sowing) and boron foliar application at two levels (control and foliar application with 1000 ppm Boric acid solution). The results showed that the effect of genotype was significant on all studied traits. The highest plant height (123.38 cm) and grain yield (2860.228 kg/ha) were obtained in Giza 1 genotype. Also, the shortest period of growth and flowering was related to Titicaca genotype and the longest period was related to Sajama genotype. The effect of planting method on quinoa growth and yield traits was significant and transplanting was more effective than other methods. This method increased the plant height by 48.15% and grain yield by 176.69%, reduced the flowering (34.35%) and ripening period (37.97%). The priming was also able to improve the studied traits compared to the control. Of course, its effectiveness was not as high as transplanting. The effect of boron foliar application on grain yield was significant and increased this trait by 16.7%.
Mehdi Rezaei
Abstract
In this research, chilling and heating requirements of six local cultivars of apricot (Jafari, Ghavami, Jahangiri, Khiari, Khiveaee and Rajabali) were evaluated under field and lab conditions. Under lab condition, ‘Rajabali’ and in some extent ‘Johangiri’ began flowering after ...
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In this research, chilling and heating requirements of six local cultivars of apricot (Jafari, Ghavami, Jahangiri, Khiari, Khiveaee and Rajabali) were evaluated under field and lab conditions. Under lab condition, ‘Rajabali’ and in some extent ‘Johangiri’ began flowering after 500 hours in 4°C. Other cultivars except ‘Khiari’ flowered at 750 h. ‘Khiari’ flowered at 1000 h. In field, due to little difference of flowering time among cultivars, there was a low difference in chilling requirement among cultivars in all models. Calculation of chilling requirements based on chilling hours was around 1400 h while based on Utah, North Carolina and Low chilling models was 1000, 740 and 770 unit, respectively. Chilling requirement in all cultivars was 71 portions based on dynamic model calculation. Amount of heating requirement ranged from 1829 growth degree hours (GDH) in ‘Khivea’ to 3387 GDH in ‘Jafari’. Although little differences exist in flowering onset of cultivars, the differentiation of flowering period among cultivars was around one week. Cultivars showed little differences in flowering onset in locations they meet their chilling requirement.