Roghayeh Mohammadpour Vashvaei; Ahmad Ghanbari; Mohammad Reza Asgharipour; Mahmood Ramroudi; Mehdi Dahmardeh
Abstract
Today, in order to have a sustainable agricultural system, it is necessary to use the inputs that improve the ecological aspects of the system and reduce environmental hazards. In this regards, an experiment was conducted on split plot based on a randomized complete block design with three replications, ...
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Today, in order to have a sustainable agricultural system, it is necessary to use the inputs that improve the ecological aspects of the system and reduce environmental hazards. In this regards, an experiment was conducted on split plot based on a randomized complete block design with three replications, at the Research Station of Bayakola, during 2016. Experimental treatments were plant nutrition with NPK, animal manure, compost, vermicompost and control (no chemical and organic fertilizer) as main plot and bio-phosphate, nitroxin, nitroxin + bio-phosphate, nano bioumik and control (no bio and nano bio-fertilizer) as subplot. Effects of organic and inorganic, bio and nano bio-fertilizer treatments and their interactions on all studied traits were significant (P≤0.01). The highest amounts of all studied traits were obtained in vermicompost in combination with nano bioumik fertilizers treatment. The result of factor analysis also confirmed this. Therefore, with respect to the production of medicinal plants in the low-input cropping systems and to achieve sustainable agriculture and environmental protection, using vermicompost in combination with nano bioumik treatment was suitable for improving plant growth and increasing seed yield of datura
Seyedeh Esmat Hashemi Fadaki; Barat Ali Fakheri; Nafiseh Mehdi Nezhad; Roqia Mohammad Pour
Abstract
The replacement of chemical inputs with ecological compatible inputs seems necessary for a step towards in transition from common to sustainable agriculture. In this regard, an experiment was conducted at the research field, University of Zabol, as a split plot based on randomized complete block design ...
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The replacement of chemical inputs with ecological compatible inputs seems necessary for a step towards in transition from common to sustainable agriculture. In this regard, an experiment was conducted at the research field, University of Zabol, as a split plot based on randomized complete block design with three replications, during 2015. Four drought stress levels of 30, 50, 70 and 90 percent of available water were considered as main plots and four levels of nano and nano bio-fertilizers were considered as sub plots. Main effects of fertilizer, drought stress and their interaction were significant for all studied traits. Maximum of photosynthetic pigments, fresh and dry weight of sepals were obtained under treatment of 70% of available water irrigation and foliar application of nano-iron fertilizer. The highest amount of anthocyanin, proline and carbohydrate osmolytes belonged to 30% of available water irrigation and the highest relative water content of leaves belonged to 90% of available water irrigation and foliar application of nano-iron fertilizer. The result of principal component analysis showed that the best-studied treatment was 70% of available water irrigation including with foliar application of nano-iron fertilizer. Spraying nano-iron fertilizer mitigated the effects of drought stress and increased the quantity and quality of roselle sepals.