University of Manitoba | Canada
Faezeh Parastesh is a soil scientist with strong expertise in greenhouse gas emissions, soil nutrient management, and climate-smart agricultural systems. She is currently pursuing doctoral research in soil science at the University of Manitoba, focusing on nitrous oxide emissions from cropping systems with varying degrees of perennialization, aligned with global net-zero goals. Her academic background integrates advanced training in soil ecology, quantitative and non-traditional research methods, machine learning applications in agriculture, and climate-smart soil management. She holds a master’s degree in soil science from the University of Manitoba, where her research examined relationships between soil nitrous oxide concentrations and surface fluxes under diverse farming practices. She also earned a master’s degree in soil biology and biotechnology from the University of Tehran, specializing in vermicompost enrichment using phosphate-solubilizing bacteria to enhance phosphorus availability and crop uptake in calcareous soils. Her undergraduate training in soil science included research on wind erosion prediction systems, providing a solid foundation in soil conservation and land management. Faezeh has published in high-impact, peer-reviewed journals on topics including microbial consortia, plant defense mechanisms, phosphorus bioavailability, and sustainable soil management. She has also contributed to ongoing research on drought stress mitigation using biochar and plant growth-promoting rhizobacteria. Her work has been presented at national and regional scientific conferences, reflecting active engagement with the soil science research community. Professionally, she has extensive experience as a laboratory technician, graduate teaching assistant, and research intern. Her work spans field and laboratory sampling, soil and plant analysis, mentoring students, teaching soil and water management, and developing greenhouse gas prediction protocols for municipal applications. She is proficient in R, SAS, Python, and statistical modeling tools, and is skilled in experimental design, soil mapping, and land capability assessment. Recognized through multiple scholarships and awards, she is also actively involved in academic service, peer review, and outreach with farmers and researchers, demonstrating strong leadership and commitment to sustainable agriculture.
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