wasan waleed ahmed
Research InterestsImprovement of horticultural fruit productivity
post harvest
| Gender | FEMALE |
|---|---|
| Place of Work | Technical Agricultural College |
| Position | plant dept. |
| Qualification | Master |
| Speciality | horticulture and engineering garden |
| wsnalobaidy@ntu.edu.iq | |
| Phone | 07716981810 |
| Address | alzhoor street, mosul, Mosul, Iraq |
A dedicated academic specializing in Plant Production Techniques with both practical and theoretical expertise in horticulture, plant physiology, and sustainable crop production. He/She has participated in various training courses and workshops related to modern agricultural technologies and has published several research papers in peer-reviewed journals. Passionate about enhancing students' agricultural skills and promoting applied scientific research that supports the development of the agricultural sector in Iraq.
Academic Qualification
Master's
Oct 1, 2011 - Feb 17, 2014Department of Horticulture and Landscape Architecture / College of Agriculture and Forestry / University of Mosul
Bachelor's
Oct 1, 2007 - Jun 1, 2010Department of Horticulture and Landscape Architecture / College of Agriculture and Forestry / University of Mosul
Working Experience
Plant Production Techniques, Liaison Member of the Psychological Guidance and Educational Guidance Unit [lecturer]
Oct 1, 2017 - PresentLecturer in the Department of Plant Production Technologies
Publications
Response of Pomegranate Transplants cvs. Halabja to Biofertilization and Spraying Nano-Iron on Vegetative Growth
Aug 26, 2024Journal The Future of Agriculture
publisher Wasan Waleed Ahmad1 , Faris Faisal Abdulghani2,*, Mustafa Natheer Mustafa1
DOI 10.37229/fsa.fja.2024.08.26
Issue 2687-8216
Abstract: The study was conducted at the Lath-house of the College of Agricultural Technology / Northern Technical University. The experiment concerned one-year-old transplants of the Halabja variety of pomegranates. The investigation was conducted using (R.C.B.D.). with 3 replications. Each replication had four transplants. The experiment had two factors. The first factor was the addition of Bacillus subtilis to the soil of the transplants. A treatment that lacked bacterial immunogen was also part of the control. The bacterial suspension was utilized once during the season in a volume of 10 ml per transplant. This procedure was conducted in April, following the specific treatment regimen. The second factor was the utilization of foliar sprays that contained nano iron in three different concentrations (0, 20, 40 mg. L-1 ), applied both times during the season - the first time in April and a month later. The treatment that was used on the other hand was sprayed with water that was distilled. The outcomes demonstrated that the addition of Bacillus subtilis to the transplants increased the length, diameter, number of branches, and number of leaves of the plants, as well as their fresh and dry weight. These parameters were all significantly different than the controls. The utilization of foliar sprays containing nano-iron had a significant impact on all traits studied. However, transplants that were treated with a concentration of 40 mg L-1 had the greatest recorded values. The interaction between Bacillus subtilis and the nano-iron foliar spray had a significant impact on all traits evaluated. The administration of Bacillus subtilis and nano-iron in a concentration of 40 mg L-1 produced the greatest values for all the studied parameters.