Sustainable Plant Nutrition
portes grátis
Sustainable Plant Nutrition
Molecular Interventions and Advancements for Crop Improvement
Hakeem, Khalid Rehman; Aftab, Tariq
Elsevier Science Publishing Co Inc
10/2022
430
Mole
Inglês
9780443186752
15 a 20 dias
450
Descrição não disponível.
1. Plant nutrition and soil fertility: Physiological and molecular avenues for crop improvement 2. Nutrient acquisition, transport and metabolism within the plant cells 3. Molecular basis of plant nutrient use efficiency - concepts and challenges for its improvement 4. Role of mineral nutrients in biological nitrogen fixation 5. Physiological and molecular aspects of macronutrient uptake by higher plants 6. Physiological and molecular aspects of micronutrient uptake by higher plants 7. Physiological, molecular and epigenetic revelations in nutrient requirement status of crops influenced by intercropping 8. Nutrient sensing in plants 9. Use of nano-fertilizers to improve the nutrient use efficiencies 10. Why and how to prevent over-fertilization for sustainable crop productivity 11. Molecular basis of abiotic stress alleviation by micronutrients 12. Nutrient dependent regulation of root architecture 13. Phytohormone dependant regulation of mineral nutrients in plants 14. Strategies for enhancing nitrogen and phosphorus efficiency in crop production systems 15. Metabolite flux analysis to understand effects of mineral nutrition on crop physiology 16. Role of microorganisms in plant nutrition and soil health 17. Plant growth-promoting rhizobacteria and root system functioning 18. Regulation of expression of genes encoding nutrient transporters in higher plants 19. Improving nutrient use efficiency by exploiting genetic engineering of crops 20. Role of inorganic biostimulants and beneficial elements in improving nutrient uses efficiency in crops
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Abiotic stress; Acquisition; Agriculture; Antioxidant activity; Antioxidant; Antioxidants; Arbuscular mycorrhizal fungi; Assessment; Benefits of mulches; Biological nitrogen fixation (BNF)Cellular anabolism; Biomolecules; Bioremediation; Biostimulants; Climate change; CO2Drought; Critical concentration and soil improvement.Crop improvement; Crop improvement; Crop productivity; Crops; Deficiency diseases; Deficiency; Diffusion; Economic losses; Ectomycorrhizal fungi; Environment; Environmental stresses; Fertilizers; Heavy metals; Integrated nutrient management; Macronutrients; Micronutrients; Microorganisms; Mineral nutrients; Nano-fertilizer; Nanoparticles; Nutrient acquisition; Nutrient interactions; Nutrient uptake efficiency; Nutrient uptake; Nutrient use efficiency; Nutrient utilization; Nutrients uptake; Nutrients use efficiency; Nutrients; Over fertilization; Overfertilization management; Plant growth; Plant growth-promoting bacteria; Plant metabolism; Plant nutrition; Plants; Profitability; PTEs; Quantitative trait loci; Reactive oxygen species; Root system architecture; Sensing; Signaling; Smart nutrients delivery; Soil fertility; Soil health; Soil pollution; Stress management; Sustainable agriculture; Temperature; Transport; Transporters; Weeds
1. Plant nutrition and soil fertility: Physiological and molecular avenues for crop improvement 2. Nutrient acquisition, transport and metabolism within the plant cells 3. Molecular basis of plant nutrient use efficiency - concepts and challenges for its improvement 4. Role of mineral nutrients in biological nitrogen fixation 5. Physiological and molecular aspects of macronutrient uptake by higher plants 6. Physiological and molecular aspects of micronutrient uptake by higher plants 7. Physiological, molecular and epigenetic revelations in nutrient requirement status of crops influenced by intercropping 8. Nutrient sensing in plants 9. Use of nano-fertilizers to improve the nutrient use efficiencies 10. Why and how to prevent over-fertilization for sustainable crop productivity 11. Molecular basis of abiotic stress alleviation by micronutrients 12. Nutrient dependent regulation of root architecture 13. Phytohormone dependant regulation of mineral nutrients in plants 14. Strategies for enhancing nitrogen and phosphorus efficiency in crop production systems 15. Metabolite flux analysis to understand effects of mineral nutrition on crop physiology 16. Role of microorganisms in plant nutrition and soil health 17. Plant growth-promoting rhizobacteria and root system functioning 18. Regulation of expression of genes encoding nutrient transporters in higher plants 19. Improving nutrient use efficiency by exploiting genetic engineering of crops 20. Role of inorganic biostimulants and beneficial elements in improving nutrient uses efficiency in crops
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Abiotic stress; Acquisition; Agriculture; Antioxidant activity; Antioxidant; Antioxidants; Arbuscular mycorrhizal fungi; Assessment; Benefits of mulches; Biological nitrogen fixation (BNF)Cellular anabolism; Biomolecules; Bioremediation; Biostimulants; Climate change; CO2Drought; Critical concentration and soil improvement.Crop improvement; Crop improvement; Crop productivity; Crops; Deficiency diseases; Deficiency; Diffusion; Economic losses; Ectomycorrhizal fungi; Environment; Environmental stresses; Fertilizers; Heavy metals; Integrated nutrient management; Macronutrients; Micronutrients; Microorganisms; Mineral nutrients; Nano-fertilizer; Nanoparticles; Nutrient acquisition; Nutrient interactions; Nutrient uptake efficiency; Nutrient uptake; Nutrient use efficiency; Nutrient utilization; Nutrients uptake; Nutrients use efficiency; Nutrients; Over fertilization; Overfertilization management; Plant growth; Plant growth-promoting bacteria; Plant metabolism; Plant nutrition; Plants; Profitability; PTEs; Quantitative trait loci; Reactive oxygen species; Root system architecture; Sensing; Signaling; Smart nutrients delivery; Soil fertility; Soil health; Soil pollution; Stress management; Sustainable agriculture; Temperature; Transport; Transporters; Weeds
