S. Yousefzadeh; S.A.M. Modarres-Sanavy; F. Sefidkon; A. Asgarzadeh; A. Ghalavand; M. Roshdi; A. Safaralizadeh
Abstract
To determine the effect of biofertilizers and nitrogen on some morphologic traits and essential oil content of dragonhead (Dracocephalum moldavica L.), a field experiment was conducted as factorial in a randomized complete blocks design with 20 treatments and 3 replications. The study was performed in ...
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To determine the effect of biofertilizers and nitrogen on some morphologic traits and essential oil content of dragonhead (Dracocephalum moldavica L.), a field experiment was conducted as factorial in a randomized complete blocks design with 20 treatments and 3 replications. The study was performed in two locations during 2009-2010 on research field at Faculty of Agriculture, Tarbiat Modares University, and at the Khoy Agricultural Research Center in West Azarbaijan province. The treatments were consisted of two genotypes (landrace and SZK-1 cultivar), two seed inoculation treatments (either with or without bacterial inoculation with Azotobacter + Azosprillum + psedomonas) and five fertilization regimes (100% urea, 75% urea + 25% Azocompost, 50% urea + 50% Azocompost, 25% urea + 75% Azocompost and 100% Azocompost). Results showed that most of the studied morphologic traits were affected by genotype factor. The effect of fertilizer regime was significant on dry matter yield, percentage of essential oil and essential oil yield. The number of flowering branches in location one, and plant height, number of leaves per main stem and number of flowering branches in location two were affected by bacterial inoculation. Two-way interaction effects on a number of studied traits were significant. Three-way interaction effects were significant for the number of flowering branches in location one and the percentage of essential oil and dry matter yield in location two. The greatest plant height, height of the first flowering branch from ground level, number of leaves on the main stem, the number of lateral branches and essential oil yield were recorded for the landrace. The bacterial inoculation increased plant height, the number of leveas on the main stem, stem diameter and the number of flowering branches per plant. The application of 50% urea + 50% Azocompost increased dry matter yield, essential oil percentage and yield. The application of 100% Azocompost resulted in the least essential oil yield. Essential oil yield in landrace was more than that of SZK-1 cultivar. Bacterial inoculation could enhance the essential oil yield in both genotypes, particularly in landrace. In general, results showed that application of 50% urea + 50% Azocompost integrated with bacterial inoculation can be a suitable alternative to chemical fertilizers.
S. Yousefzadeh; S.A.M. Modarres-Sanavy; F. Sefidkon; A. Asgarzadeh; A. ghalavand
Abstract
Dragonhead (Dracocephalum moldavica L.) is an annual plant that belongs to the (Labiate or Lamiaceae) family. The essential oil of dragonhead has natural antibacterial and antimicrobial substances and having wide usage in industries like pharmaceutical, dietary and many others. In this research, effects ...
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Dragonhead (Dracocephalum moldavica L.) is an annual plant that belongs to the (Labiate or Lamiaceae) family. The essential oil of dragonhead has natural antibacterial and antimicrobial substances and having wide usage in industries like pharmaceutical, dietary and many others. In this research, effects of different harvest times on content and composition of essential oil were studied in Research field at Khoy Agricultural Research Center in West Azarbaijan province. Dragonhead seeds from both landrace and modern cultivars were planted simultaneously. The aerial parts of plant were harvested in six stages. After drying the plant materials in shade, their essential oils were obtained by hydro-distillation. The oils were analyzed by GC and GC-MS. According to the results, maximum and minimum essential oils percentage for both landrace and modern cultivars were respectively observed in full flowering (0.53) and yellow-maturity stage (0.07). In addition, there were some differences between oil compositions of these dragonheadaccessions at different harvest times. The major oil components of dragonhead were the geranial, geraniol and geranyl acetate. The highest and the lowest sum total amount of geranial and geraniol were obtained at the early flowering (65.1%) and yellow-maturity (44.9%) for the landrace cultivar. The largest amount of geranyl acetate (50.7%) was gained for the modern cultivar at the early flowering stage while the least one (28.1%) was recorded for landrace cultivar plants 26 days after flowering when 10 to 30 percent of the flowers remained. The results showed that different harvest times had significant effects on essential oil content and composition.
