Study of Drought Tolerance of Wheat Inoculated with Mycorrhiza Fungi and its Interaction with Copper Nanoparticles
Subject Areas : Journal of Plant Ecophysiologyّfatemeh taheri hesari 1 , hossain zahedi 2 , Alireza Eivazi 3 , younes sharghi 4 , Akbar Alipoor 5
1 - Department of Agricultural Engineering, Faculty of Engineering, Islamic Azad University, Islamshahr Branch, Islamshahr, Iran
2 - Assistant professor, Department of Agriculture, Eslamshahr Branch, Islamic Azad University, Eslamshahr, Iran
3 - Assistant professor, Department of seed and plant improvement research, West Azerbaijan agricultural and natural resources research and education center,AREEO, Urmia, Iran
4 - Assistant professor, Department of Agriculture, Eslamshahr Branch, Islamic Azad University, Eslamshahr, Iran
5 - Assistant professor, Department of Agriculture, Eslamshahr Branch, Islamic Azad University, Eslamshahr, Iran
Keywords: "Irrigation regime", " mycorrhiza", " foliar application", " copper nanoparticles",
Abstract :
A split-split plot field experiment using the randomized complete block design with three replicates was carried out to investigate drought tolerance of wheat inoculated with mycorrhiza fungi and its interaction with copper nanoparticles. The factors included two irrigation levels (optimum irrigation and deficit irrigation), two levels of fungal symbiosis (with or without a symbiotic relationship), and three spray concentrations of copper oxide nanoparticles (50, 250, and 450 ppm).The results of ANOVA revealed that Analysis of variance showed that proline content and spike/m2 were significant in irrigation regime, mycorrhiza, foliar application, and all the interaction effects of double and triple factors.The effect of irrigation regime, mycorrhiza and foliar application of copper nano oxide was effective on grain yield, but the effects and interactions of irrigation regime×foliar application, mycorrhiza×foliar application and irrigation regime×mycorrhiza×foliar application have no significate effect on that characteristic;Comparison of mean traits showed that the maximum number of spikes/m2 in mycorrhizal fungi application with50ppm copper nano oxide foliar application in optimum irrigation was780numbers.The highest hectolitre weight of wheat was related to triple interactions,optimum irrigation with fungus and foliar application of450ppm copper nano oxide that was not statistically significant effect with triple interactions,optimum irrigation without fungus and foliar application of 250ppm copper nano oxide.Maximum proline content was obtained in non-mycorrhizal fungi treatment with50ppm foliar spray under deficit irrigation (23.8mg/g fresh weight) which was statistically significant at least at5%level with other treatments. The highest grain yield (309.61g/m2) belonged to optimum irrigation treatment and minimum grain yield was observed in severe deficit irrigation.
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