Biochar Ecotechnology for Sustainable Agriculture and Environment
portes grátis
Biochar Ecotechnology for Sustainable Agriculture and Environment
Vara Prasad, Majeti Narasimha; Solanki, Manoj Kumar; Kumari, Pallavi; Kumar, Abhay
Elsevier - Health Sciences Division
02/2025
430
Mole
9780443298554
Pré-lançamento - envio 15 a 20 dias após a sua edição
Descrição não disponível.
Part 1: Biochar for waste management, circular economy, & carbon neutrality
1. An overview of biochar production and its multifaceted applications for sustainable agriculture and environmental benefits
2. Biochar production to support circular bioeconomy: From waste biomass to a valuable product
3. A practical approach of biochar production and application towards sustainable agricultural waste management and achieving carbon neutrality
4. Biochar production and use among smallholder farmers in rural Uganda: challenges and opportunities for circular economy
Part 2: Biochar production: Techniques & process
5. Transforming contaminated biomass from phytoremediation into biochar
6. Biochar production methods and their diverse applications in improving plant production system to achieve agricultural sustainability
7. Factors influencing biochar properties and relationships with soil applications
Part 3: Biochar for enhancing soil fertility, functioning, & plant responses
8. Recent trends in multifarious benefits of biochar application to soil
9. Biochar for climate change mitigation and soil health management
10. Biochar as an emerging green and sustainable solution for amendment of degraded soil
11. Stability and reactivity of biochar in regulating nutrient dynamics and its supplies in agricultural ecosystems
12. Prospects of biochar for boosting crop productivity and soil sustainability
13. Biochar's potential for enhancing soil functions, nutrient balance and crop productivity in Mediterranean and tropical regions
Part 4: Biochar in managing biogeochemical cycles & greenhouse gases
14. Biochar soil application for sustainable carbon sequestration and greenhouse gas mitigation
15. Mechanistic insights into biochar's influence on nitrogen cycle homeostasis, microbial dynamics, and crop productivity in fertilized agroecosystems
16. Investigation into pyrolysis impact on biochar traits, soil microbial community interaction, and nutrient dynamics: Emission and leaching implications
17. Biochar augmentation on soil biotic processes and microbial structure and functions in fertilized tropical cropland
Part 5: Nanotechnological approach for developing biochar-fertilizer
18. Biochar modification methods: Property engineering for diverse value-added applications
19. Engineered biochar-mineral complex as a slow-release fertilizer
20. Biochar-based slow-release fertilizers for sustainable agriculture: A mechanistic overview on process development
21. Mineral-enriched biochar nutritional nanocomposites for enhanced soil properties, biogeochemical cycle and sustainable crop production?: A mechanistic overview
22. Nanotechnological aspects in producing biochar-mineral fertilizer for sustainable and intensive agricultural production: Pre-or Post-pyrolysis biochar modification
1. An overview of biochar production and its multifaceted applications for sustainable agriculture and environmental benefits
2. Biochar production to support circular bioeconomy: From waste biomass to a valuable product
3. A practical approach of biochar production and application towards sustainable agricultural waste management and achieving carbon neutrality
4. Biochar production and use among smallholder farmers in rural Uganda: challenges and opportunities for circular economy
Part 2: Biochar production: Techniques & process
5. Transforming contaminated biomass from phytoremediation into biochar
6. Biochar production methods and their diverse applications in improving plant production system to achieve agricultural sustainability
7. Factors influencing biochar properties and relationships with soil applications
Part 3: Biochar for enhancing soil fertility, functioning, & plant responses
8. Recent trends in multifarious benefits of biochar application to soil
9. Biochar for climate change mitigation and soil health management
10. Biochar as an emerging green and sustainable solution for amendment of degraded soil
11. Stability and reactivity of biochar in regulating nutrient dynamics and its supplies in agricultural ecosystems
12. Prospects of biochar for boosting crop productivity and soil sustainability
13. Biochar's potential for enhancing soil functions, nutrient balance and crop productivity in Mediterranean and tropical regions
Part 4: Biochar in managing biogeochemical cycles & greenhouse gases
14. Biochar soil application for sustainable carbon sequestration and greenhouse gas mitigation
15. Mechanistic insights into biochar's influence on nitrogen cycle homeostasis, microbial dynamics, and crop productivity in fertilized agroecosystems
16. Investigation into pyrolysis impact on biochar traits, soil microbial community interaction, and nutrient dynamics: Emission and leaching implications
17. Biochar augmentation on soil biotic processes and microbial structure and functions in fertilized tropical cropland
Part 5: Nanotechnological approach for developing biochar-fertilizer
18. Biochar modification methods: Property engineering for diverse value-added applications
19. Engineered biochar-mineral complex as a slow-release fertilizer
20. Biochar-based slow-release fertilizers for sustainable agriculture: A mechanistic overview on process development
21. Mineral-enriched biochar nutritional nanocomposites for enhanced soil properties, biogeochemical cycle and sustainable crop production?: A mechanistic overview
22. Nanotechnological aspects in producing biochar-mineral fertilizer for sustainable and intensive agricultural production: Pre-or Post-pyrolysis biochar modification
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Adsorption; Agricultural soil science; Agronomy; Amination; Ammonia oxidizing microbes; Biochar; Biochar amendment; Biochar effects on soil; Biochar grinding; Biochar modification; Biochar perceptions; Biochar properties; Biochar pyrolisis; Biochar traits; Biochar-compost application; Biochar-nano composite; Biochar-microbe interaction; Biogeochemical cycle; Biological waste treatment; Biomass; Biomass waste; Biotic processes; Bulk density; Carbon sequestration; Circular bioeconomy; Circular economy; Climate change; Copyrolysis; Crop; Crop growth and performances; Crop productivity; Crop protection; Degraded soil; Denitrifiers; Environment; Environmental bioengineering; Environmental health; Environmental impact; Environmental management; Environmental nanotechnology; Environmental pollution; Environmental science; Food technology; Irradiation; Materials synthesis; Mediterranean and tropical regions; Microbial dynamics; Microbial ecology; Microwave; Nanotechnology; Natural resources; Nutrient balance; Nutrient dynamics; Nutrients dynamics; Organic amendments; Oxidation; Physical and chemical activation; Potentially toxic elements; Production; Protection; Pyrolysis; Slow-release fertilizers; Slow-release organic fertilizer; Small-scale biochar production; Smallholder farmers; Soil amendment; Soil chemistry; Soil conditioner; Soil ecology; Soil fertility; Soil health; Soil microbial community; Soil microbial diversity; Soil microbial functioning; Soil nitrogen cycle; Soil nutrient; Soil organic carbon; Soil pH neutralization; Soil physicochemical properties; Soil physiscs; Soil properties; Soil science; Sulfonation; Surface chemistry; Sustainable; Sustainable agriculture; Sustainable agroecosystem; Sustainable development; Uganda; Ultrasound; Waste; Waste management; Water use efficiency
Part 1: Biochar for waste management, circular economy, & carbon neutrality
1. An overview of biochar production and its multifaceted applications for sustainable agriculture and environmental benefits
2. Biochar production to support circular bioeconomy: From waste biomass to a valuable product
3. A practical approach of biochar production and application towards sustainable agricultural waste management and achieving carbon neutrality
4. Biochar production and use among smallholder farmers in rural Uganda: challenges and opportunities for circular economy
Part 2: Biochar production: Techniques & process
5. Transforming contaminated biomass from phytoremediation into biochar
6. Biochar production methods and their diverse applications in improving plant production system to achieve agricultural sustainability
7. Factors influencing biochar properties and relationships with soil applications
Part 3: Biochar for enhancing soil fertility, functioning, & plant responses
8. Recent trends in multifarious benefits of biochar application to soil
9. Biochar for climate change mitigation and soil health management
10. Biochar as an emerging green and sustainable solution for amendment of degraded soil
11. Stability and reactivity of biochar in regulating nutrient dynamics and its supplies in agricultural ecosystems
12. Prospects of biochar for boosting crop productivity and soil sustainability
13. Biochar's potential for enhancing soil functions, nutrient balance and crop productivity in Mediterranean and tropical regions
Part 4: Biochar in managing biogeochemical cycles & greenhouse gases
14. Biochar soil application for sustainable carbon sequestration and greenhouse gas mitigation
15. Mechanistic insights into biochar's influence on nitrogen cycle homeostasis, microbial dynamics, and crop productivity in fertilized agroecosystems
16. Investigation into pyrolysis impact on biochar traits, soil microbial community interaction, and nutrient dynamics: Emission and leaching implications
17. Biochar augmentation on soil biotic processes and microbial structure and functions in fertilized tropical cropland
Part 5: Nanotechnological approach for developing biochar-fertilizer
18. Biochar modification methods: Property engineering for diverse value-added applications
19. Engineered biochar-mineral complex as a slow-release fertilizer
20. Biochar-based slow-release fertilizers for sustainable agriculture: A mechanistic overview on process development
21. Mineral-enriched biochar nutritional nanocomposites for enhanced soil properties, biogeochemical cycle and sustainable crop production?: A mechanistic overview
22. Nanotechnological aspects in producing biochar-mineral fertilizer for sustainable and intensive agricultural production: Pre-or Post-pyrolysis biochar modification
1. An overview of biochar production and its multifaceted applications for sustainable agriculture and environmental benefits
2. Biochar production to support circular bioeconomy: From waste biomass to a valuable product
3. A practical approach of biochar production and application towards sustainable agricultural waste management and achieving carbon neutrality
4. Biochar production and use among smallholder farmers in rural Uganda: challenges and opportunities for circular economy
Part 2: Biochar production: Techniques & process
5. Transforming contaminated biomass from phytoremediation into biochar
6. Biochar production methods and their diverse applications in improving plant production system to achieve agricultural sustainability
7. Factors influencing biochar properties and relationships with soil applications
Part 3: Biochar for enhancing soil fertility, functioning, & plant responses
8. Recent trends in multifarious benefits of biochar application to soil
9. Biochar for climate change mitigation and soil health management
10. Biochar as an emerging green and sustainable solution for amendment of degraded soil
11. Stability and reactivity of biochar in regulating nutrient dynamics and its supplies in agricultural ecosystems
12. Prospects of biochar for boosting crop productivity and soil sustainability
13. Biochar's potential for enhancing soil functions, nutrient balance and crop productivity in Mediterranean and tropical regions
Part 4: Biochar in managing biogeochemical cycles & greenhouse gases
14. Biochar soil application for sustainable carbon sequestration and greenhouse gas mitigation
15. Mechanistic insights into biochar's influence on nitrogen cycle homeostasis, microbial dynamics, and crop productivity in fertilized agroecosystems
16. Investigation into pyrolysis impact on biochar traits, soil microbial community interaction, and nutrient dynamics: Emission and leaching implications
17. Biochar augmentation on soil biotic processes and microbial structure and functions in fertilized tropical cropland
Part 5: Nanotechnological approach for developing biochar-fertilizer
18. Biochar modification methods: Property engineering for diverse value-added applications
19. Engineered biochar-mineral complex as a slow-release fertilizer
20. Biochar-based slow-release fertilizers for sustainable agriculture: A mechanistic overview on process development
21. Mineral-enriched biochar nutritional nanocomposites for enhanced soil properties, biogeochemical cycle and sustainable crop production?: A mechanistic overview
22. Nanotechnological aspects in producing biochar-mineral fertilizer for sustainable and intensive agricultural production: Pre-or Post-pyrolysis biochar modification
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Adsorption; Agricultural soil science; Agronomy; Amination; Ammonia oxidizing microbes; Biochar; Biochar amendment; Biochar effects on soil; Biochar grinding; Biochar modification; Biochar perceptions; Biochar properties; Biochar pyrolisis; Biochar traits; Biochar-compost application; Biochar-nano composite; Biochar-microbe interaction; Biogeochemical cycle; Biological waste treatment; Biomass; Biomass waste; Biotic processes; Bulk density; Carbon sequestration; Circular bioeconomy; Circular economy; Climate change; Copyrolysis; Crop; Crop growth and performances; Crop productivity; Crop protection; Degraded soil; Denitrifiers; Environment; Environmental bioengineering; Environmental health; Environmental impact; Environmental management; Environmental nanotechnology; Environmental pollution; Environmental science; Food technology; Irradiation; Materials synthesis; Mediterranean and tropical regions; Microbial dynamics; Microbial ecology; Microwave; Nanotechnology; Natural resources; Nutrient balance; Nutrient dynamics; Nutrients dynamics; Organic amendments; Oxidation; Physical and chemical activation; Potentially toxic elements; Production; Protection; Pyrolysis; Slow-release fertilizers; Slow-release organic fertilizer; Small-scale biochar production; Smallholder farmers; Soil amendment; Soil chemistry; Soil conditioner; Soil ecology; Soil fertility; Soil health; Soil microbial community; Soil microbial diversity; Soil microbial functioning; Soil nitrogen cycle; Soil nutrient; Soil organic carbon; Soil pH neutralization; Soil physicochemical properties; Soil physiscs; Soil properties; Soil science; Sulfonation; Surface chemistry; Sustainable; Sustainable agriculture; Sustainable agroecosystem; Sustainable development; Uganda; Ultrasound; Waste; Waste management; Water use efficiency
