Abdel-Ati, A., El-Hadidy, A. (2017). Integration of EM-X Biofertilization and Sowing Methods on Encouragement of Sunflower Productivity and Charcoal Rot Control under Reclaimed Soil Conditions. Journal of Plant Protection and Pathology, 8(4), 155-164. doi: 10.21608/jppp.2017.46183
A. A. Abdel-Ati; Abeer E. A. El-Hadidy. "Integration of EM-X Biofertilization and Sowing Methods on Encouragement of Sunflower Productivity and Charcoal Rot Control under Reclaimed Soil Conditions". Journal of Plant Protection and Pathology, 8, 4, 2017, 155-164. doi: 10.21608/jppp.2017.46183
Abdel-Ati, A., El-Hadidy, A. (2017). 'Integration of EM-X Biofertilization and Sowing Methods on Encouragement of Sunflower Productivity and Charcoal Rot Control under Reclaimed Soil Conditions', Journal of Plant Protection and Pathology, 8(4), pp. 155-164. doi: 10.21608/jppp.2017.46183
Abdel-Ati, A., El-Hadidy, A. Integration of EM-X Biofertilization and Sowing Methods on Encouragement of Sunflower Productivity and Charcoal Rot Control under Reclaimed Soil Conditions. Journal of Plant Protection and Pathology, 2017; 8(4): 155-164. doi: 10.21608/jppp.2017.46183
Integration of EM-X Biofertilization and Sowing Methods on Encouragement of Sunflower Productivity and Charcoal Rot Control under Reclaimed Soil Conditions
1Plant Production Department - Desert Research Center, El-Mataria, Cairo, Egypt
2Plant Protection Department - Desert Research Center, El-Mataria, Cairo, Egypt
Abstract
Two field experiments were carried out at 6 October farm, El-Nubaria Province, the desert backyard of El-Behaira Governorate- Egypt during the two successive summer seasons (2010 and 2011) to study the effect of the integration between different sowing methods and different bio fertilization treatments on sunflower (Helianthus annuus L.) var. Giza-102 productivity and charcoal rot disease management caused by Macrophomina phaseolina (Tassi) Goidunder the reclaimed soil conditions. Rides sowing methods were found to be more effective in reducing M.phaseolina population and charcoal rot, therefore enhance sunflower productivity compared to the other examined sowing methods. EM-X { EM1 + Bacillus subtilis + mycorrhiza + Azotobacter sp.} was found to be more effective in reducing M.phaseolina population and charcoal rot, therefore enhance sunflower productivity compared to the other examined biofertilization treatments including the conventional chemical fertilization as the control treatment. The integration between ridges sowing method with tillage and EM-X{ EM1 + B. subtilis + mycorrhiza + Azotobacter sp.} was found to be the furthermost advised agricultural practices under these conditions as land degradation neutrality (LDN) technology that enhances land cover and area unit productivity under these conditions.