Other subject about saffron
Somayeh Khoshpeyk; reza sadarabadi; ahmad ahmadian
Abstract
In order to study the physiological responses of saffron(Crocus sativus L.) to salinity stress under application Silicon, nanosilicon and superabsorbent polymers, experiment as split plots in a randomized complete block design, in three replications and two cropping years it was done in a farm located ...
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In order to study the physiological responses of saffron(Crocus sativus L.) to salinity stress under application Silicon, nanosilicon and superabsorbent polymers, experiment as split plots in a randomized complete block design, in three replications and two cropping years it was done in a farm located in Ziauddin section of Torbat Heydariyeh city. the main factor of irrigation water quality in two levels (includes water with electrical conductivity of 1.96 dS /m as a control and water with an electrical conductivity of 6 dS /m). and sub-factor of application of silicon and superabsorbent in six levels, (includes non-consumption as a control, Silicon, nanosilicon each with a concentration of 1.5 per thousand, superabsorbent (0.4 g / kg dry weight of soil). Silicon with superabsorbent and nano Silicon with superabsorbent) the results showed that salinity reduces and consumes silicon and superabsorbent in both salinity treatments and lack of salinity stress significantly increases important traits of reproductive growth, Included number of flowers, weight of single flower, average stigma length and yield of saffron flower and stigma in every 2 years of experiment. effect of treatments on saffron leaf vegetative growth traits including number of leaves, average leaf, leaf yield, chlorophyll a and b content and also on the characteristics of produced female corms including total number of female corms, average corm weight and yield of female corm in every 2 years. Salinity increased sodium and decreased leaf and corm potassium. while the use of silicon and superabsorbent due to maintaining the stability of cell membranes, Significantly reduced the sodium content of leaves and corm under stress and increased the amount of potassium. concomitant use of nano-silicon with superabsorbent reduces sodium content by 27.5% and 23.7%, respectively. also, 22.1% and 33% increase in potassium content of saffron leaves and corm compared to the control in salinity conditions were tested in the second year. consumption of nanosilicone with superabsorbent in salinity conditions increased 46.8% and 54.3% in the yield of saffron flowers and stigmas in the second year compared to the first year, respectively. it also reduced the amount of proline in saffron leaves and corm in both years of experiment. The experimental results showed that the combined application of nano silicon and superabsorbent increased the quantitative and qualitative yield of Saffron in salinity conditions.