| 內容註: |
Contaminants and soil-crop plant systems -- Emerging soil contaminants and their persistence in crop plants, soil, and environments -- Nanofertilizers in improving soil quality and crop plant growth -- Use of phytoremediation in improving soil status -- Cadmium: uptake, toxicity and tolerance in crop plants and management of Cd-contaminated soil -- Lead: uptake, toxicity and tolerance in crop plants and management of Pb-contaminated soil -- Mercury: uptake, toxicity and tolerance in crop plants and management of Hg-contaminated soil -- Arsenic: uptake, toxicity and tolerance in crop plants and management of As-contaminated soil -- Zinc: uptake, toxicity and tolerance in crop plants and management of Zn-contaminated soil -- Nickel: uptake, toxicity and tolerance in crop plants and management of Ni-contaminated soil -- Silicon: uptake, toxicity and tolerance in crop plants and management of Si-contaminated soil -- Exploring genetic and molecular methods to induce crop plant tolerance under various contamination -- Biological tools for improving crop plant growth under contaminants -- Understanding the impact of herbicides, insecticides and fungicides stress for crop plant growth and production -- Combined impact of heavy metal and oil sludge on crop plant growth, physiology, and contaminant removal -- Mitigating metal-induced toxicity in crop plants using PGPR -- Understanding physiological and biochemical pathways responsible for stress tolerance mechanisms in crop plants -- Managing defence mechanisms in crop plants using phytohormones under contaminants -- Managing defence mechanisms in crop plants using nutrients under contaminants -- Managing defence mechanisms in crop plants using nanomaterials under contaminants -- Improving crop plants production under stressed-soils using poly-omics techniques and transcriptomic analysis -- Safety issues associated with the usesof micro and nano contaminants. |