Agriculture and horticulture
A. Ghanbari Odivi; S. Fallah; M. Karimi; Z. Lori Gooini
Abstract
To evaluate the response of Dracocephalum kotschyi Boiss. production to the livestock and chemical fertilizers, an experiment was conducted as a split plot with three replications in 2018 and 2019. The experimental treatments included the control (without fertilizer), chemical fertilizer, and different ...
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To evaluate the response of Dracocephalum kotschyi Boiss. production to the livestock and chemical fertilizers, an experiment was conducted as a split plot with three replications in 2018 and 2019. The experimental treatments included the control (without fertilizer), chemical fertilizer, and different levels (100, 143, and 250 kg nitrogen ha-1) of poultry (PM100, PM143, and PM250), sheep (SM100, SM143, and SM250), and cattle (CM100, CM143, and CM250) manures. The traits including photosynthetic pigments, leaf area index, plant biomass, and percentage and essential oil yield were investigated. The effects of fertilizer, cutting, and the interaction of fertilizer and cutting were significant on all the triats. In the first cutting, the PM250 treatment produced more photosynthetic pigments than the chemical fertilizer. Also, the SM100 and CM100 treatments caused higher chlorophyll a and total chlorophyll compared to the chemical fertilizer. In the second cutting, the average photosynthetic pigments in the manure treatments were not superior to the chemical fertilizer. In the first cutting, the high level of livestock manures had a higher leaf area index compared to the chemical fertilizer, but in the second cutting, the medium and high levels of poultry manure and high level of sheep manure showed this superiority. In the first cutting, the all livestock manures treatments except CM100 produced the plant biomass similar to the chemical fertilizer, but in the second cutting, the PM143 treatment produced higher biomass compared to the chemical fertilizer. In the first cutting, the essential oil content of SM250 treatment was significantly superior to the chemical fertilizer. In the first cutting, the highest essential oil yield was obtained with the high level of livestock manures, but in the second cutting, there was no significant difference between the essential oil yield of different livestock manures levels and chemical fertilizer. In general, it could be concluded that the high level of poultry manure is a desirable alternative to the chemical fertilizer in D. kotschyi cultivation by creating the favorable conditions for the plant growth.
S. Abdolah zareh; E. Fateh; A. Aynehband
Abstract
To study the effects of different sowing dates and different fertilizing methods (chemical &organic) on yield and amount of active substance of milk thistle (Silybum marianum (L.) Gaerate), a field experiment was done at Agricultural College of Shahid Chamran University during 2009-2010. Experimental ...
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To study the effects of different sowing dates and different fertilizing methods (chemical &organic) on yield and amount of active substance of milk thistle (Silybum marianum (L.) Gaerate), a field experiment was done at Agricultural College of Shahid Chamran University during 2009-2010. Experimental design was split plot on RCBD with three replications. Main plot was sowing dates including (14Nov, 1 Dec and 15 Dec) and sub plot was different fertilization levels including: F1: control, F2:100% chemical fertilizer (100-120-150 kg/ha NPK, respectively), F3: %25 organic fertilizer + %75 chemical fertilizer (75-90-112.5 kg/ha NPK + 7.5 ton/ha animal manure), F4: %50 organic fertilizer + %50 chemical Fertilizer (50-60-75 kg/ha NPK + 15 ton/ha animal manure), F5: %75 organic Fertilizer + %25 chemical fertilizer (25-30-37.5 kg/ha NPK + 22.5 ton/ha animal manure), F6: %100 organic fertilizer (30 ton/ha animal manure). Results showed that sowing date had significant effect on the percentage of phenol and flavenoid and the amount of silymarin. Late sowing date (15 dec) decreased grain silymarin content, while the highest percentage of phenol and flavenoid was obtained at 15 Dec. Also, the highest percentage of flavenoid, flavenoid yield and silymarin yield were obtained at 100% chemical fertilizer and integrated fertilizer. In this regard, F2 treatment had no advantage compared to integrated fertilization levels. Also, the highest percentage and yield of phenol was obtained by integrated fertilizer methods. The highest silymarin content was related to F6, and the highest grain antioxidant activity was related to F4 and F6, respectively.