Fateme Agah; Mohammad Ali Esmaeili; Mohammad Farzam; Rahmat Abasi
Abstract
Two separate experiments was arranged in a randomized complete design in 4 replicates in order to evaluate agronomy aspects of cultivation and aim of evaluation effective treatments in breaking dormancy of native and valuable medicinal plant, Caper seeds (Mazdavand ecotype) and also to evaluate the best ...
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Two separate experiments was arranged in a randomized complete design in 4 replicates in order to evaluate agronomy aspects of cultivation and aim of evaluation effective treatments in breaking dormancy of native and valuable medicinal plant, Caper seeds (Mazdavand ecotype) and also to evaluate the best seed bed medium for germination of Caper seeds along with sustainable agricultural systems. Treatments in breaking dormancy test included control (distilled water), pre chilling (for 2 and 3 months), GA3 (250 and 500 ppm for 12 hours), KNO3 (0.2 and 0.5% for 12 hours), scarification with sandpaper (85%), seed coat removal, soaking in NaClO 0.5% for 5 minutes, scarification+250 ppm GA3, scarification+0.2% KNO3, scarification+250ppm GA3+0.2%KNO3. Treatments in evaluation the best seed bed medium experiment included control (soil of habitat), manure fertilizer, vermicompost and bio-fertilizer (phosphonitrokara). According to results of first examination, pre-chilling for 2 and 3 months were the best treatments for breaking dormancy (with 85% germination and 3.5 seeds per day germination rate). Also, results of evaluation the seed bed medium, showed that vermicompost had the highest germination percentage, highest number of leaves and the most seedling weight vigor index. Vermicompost and manure fertilizer had the highest leaf length, shoot length and seedling dry weight. Manure fertilizer and vermicompost, while creating sustainable agricultural conditions, increased the growth and improved morphological characteristics of the Caper medicinal plant seedlings.
Hamideh Ghafari; Mahmoud Reza Tadayon
Abstract
Environmental stress, especially drought stress, can play an important role in the reduction of the plant growth stage, specifically during germination. To explore the germination mechanism of drought-stressed germination indices of sugar beet improved by exogenous proline, an experiment was conducted ...
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Environmental stress, especially drought stress, can play an important role in the reduction of the plant growth stage, specifically during germination. To explore the germination mechanism of drought-stressed germination indices of sugar beet improved by exogenous proline, an experiment was conducted in factorial randomized complete design with four replications in laboratory, Faculty of Agriculture, University of Shahrekord in 2016. In this experiment, treatments included five levels of drought treatments (distilled water,-2,-6,-10 and-14 bar) and seed soaking with Proline (0 (control), 5 and 10 mM. Results indicated that germination percent, coefficient of velocity of germination, relative germination and seed length and weight vigor index of sugar beet seeds significantly decreased under drought stress, while increased mean germination time and allometry coefficient. Soaking with exogenous proline improved the germination percent, coefficient of velocity of germination, relative germination and seed length and weight vigor index of sugar beet under drought stress. Moreover, application of 10 mM proline decreased mean germination time and allometry coefficient 10 and 25% as compared to the control, respectively. In a word, soaking with proline could effectively alleviate the inhibitory effects of drought stress on sugar beet seed germination.
