| TÃtulo : |
Soil Science: Fundamentals to Recent Advances |
| Tipo de documento: |
documento electrónico |
| Autores: |
Rakshit, Amitava, ; Singh, S.K, ; Abhilash, P.C, ; Biswas, Asim, |
| Mención de edición: |
1 ed. |
| Editorial: |
Singapore [Malasya] : Springer |
| Fecha de publicación: |
2021 |
| Número de páginas: |
XXII, 902 p. 144 ilustraciones, 86 ilustraciones en color. |
| ISBN/ISSN/DL: |
978-981-1609176-- |
| Nota general: |
Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. |
| Palabras clave: |
ciencia del suelo Agricultura AgronomÃa |
| Ãndice Dewey: |
631.4 Ciencia del suelo (Edafología) |
| Resumen: |
Esta compilación ha sido diseñada para proporcionar una fuente integral de actualización teórica y práctica para los cientÃficos que trabajan en el amplio campo de la ciencia del suelo. El libro explora todos los mecanismos y medios posibles para mejorar la eficiencia en el uso de nutrientes que implican el desarrollo y prueba de nanofertilizantes, el desarrollo de formulaciones microbianas basadas en consorcios para la movilización de nutrientes del suelo y la ingenierÃa de cultivos eficientes en nutrientes utilizando biologÃa molecular y herramientas biotecnológicas. Esta es una colección completa de información sobre la ciencia del suelo. Este libro es de interés para profesores, investigadores, cientÃficos del suelo, formadores de capacidades y formuladores de polÃticas. Además, el libro sirve como material de lectura adicional para estudiantes de pregrado y posgrado en ciencias del suelo, ecologÃa cuantitativa, ciencias de la tierra, SIG y ciencias geodésicas, asà como para geólogos, geomorfólogos, hidrólogos y ecologÃa del paisaje. Los cientÃficos nacionales e internacionales en agricultura y suelos y los responsables polÃticos también encontrarán que esta es una lectura útil. |
| Nota de contenido: |
Chapter 1. Managing Soil Resources for Human Health and Environmental Sustainability -- Chapter 2. Soil Organic Carbon Dynamics, Stabilization and Environmental Implication -- Chapter 3. Soil Organic Carbon: Past, Present and Future Research -- Chapter 4. Below-ground carbon storage and dynamics -- Chapter 5. Soil Biodiversity and Community Composition for Ecosystem Services -- Chapter 6. Rhizodeposition: an Unseen Teaser of Nature and its Prospects in Nutrients Dynamics -- Chapter 7. Soil Indicators and Management Strategies for Agro-environmental Sustainability -- Chapter 8. Conservation agriculture in reshaping below ground microbial diversity -- Chapter 9. Saline and Sodic Ecosystems in the Changing World -- Chapter 10. Approaches in Advanced Soil Elemental Extractability: Catapulting Future Soil-Plant Nutrition Research -- Chapter 11. Liquid Biofertilizer: A Potential Tool Towards Sustainable Agriculture -- Chapter 12. Biochar Role in Mitigation of Greenhouse Gas Emissions from AgriculturalSoils -- Chapter 13. Nanotechnology is an Art for Native Nutrient Mobilization and Enhanced Use Efficiency -- Chapter 14. Nanotechnology in Environmental Soil Science -- Chapter 15. Importance of Soil Heterogeneity in Variety Testing Programs -- Chapter 16. Environmental and societal implications of soil response to increasing agricultural demands,- Chapter 17. Soil centric approaches towards climate resilient agriculture -- Chapter 18. Functional Diversity Management through Microbial Integrity for Sustainability -- Chapter 19. The Effect of Crops and Farming Systems on Soil Quality: A Case study -- Chapter 20. Role of Biochar on Greenhouse Gas Emissions and Carbon Sequestration in Soil: Opportunities for Mitigating Climate change -- Chapter 21. Employment of seed priming as a salt-stress mitigating approach in agriculture: challenges and opportunities -- Chapter 22. Microbial Approaches for Bio-Amelioration and Management of Salt Affected Soils -- Chapter 23. Role of zeolites in improving nutrient and water storage capacity of soil and their impact on overall soil quality and crop performance -- Chapter 24 Sulfur in Soil: Abiotic Stress Signaling, Transmission and Induced Physiological Responses in Plants -- Chapter 25. Reducing methane emission from lowland rice ecosystem -- Chapter 26. Potential and Risk of Nanotechnology Application in Agriculture vis-Ã -vis Nano micronutrient Fertilizers -- Chapter 27. Introduction to drone technology for natural resource management in agriculture -- Chapter 28. High-throughput estimation of soil nutrient and residue cover: a step towards precision agriculture -- Chapter 29. Global development in Soil Science Research: Agriculture Sensors and Technologies -- Chapter 30. Soil science research and development in Latin America and the Caribbean -- Chapter 31. The frontiers in soil science research: An African perspective -- Chapter 32. Improvement of Soil quality by solid waste recycling: A Global Perspective. Chapter 33. Nutrient SufficiencyRange of Soils and Plants in Singapore -- Chapter 34. Calcareous Oolitic Limestone Rockland Soils of the Bahamas: Some Physical, Chemical and Fertility Characteristics. Chapter 35. Consequences of anthropogenic disturbance on variation of soil properties and food security: An Asian story -- Chapter 36. Natural Resource Management and Conservation for Smallholder farming in India: Strategies and Challenges -- Chapter 37. Soil and Water Management in India: Challenges and Opportunities -- Chapter 38. Indian Fertiliser Policy: Retrospect and Prospect -- Chapter 39. Long Term Fertilizer Experiments in India: Achievements and Issues for Future Research -- Chapter 40. Micronutrient deficiency stress in soils of India: tackling it to alleviate hidden hunger -- Chapter 41. Pesticides pollution in soils and sediment in India: Status, impact and countermeasures -- Chapter 42. Climate-Smart Soil Management: Prospect and Challenges in Indian Scenario. |
| En lÃnea: |
https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] |
| Link: |
https://biblioteca.umanizales.edu.co/ils/opac_css/index.php?lvl=notice_display&i |
Soil Science: Fundamentals to Recent Advances [documento electrónico] / Rakshit, Amitava, ; Singh, S.K, ; Abhilash, P.C, ; Biswas, Asim, . - 1 ed. . - Singapore [Malasya] : Springer, 2021 . - XXII, 902 p. 144 ilustraciones, 86 ilustraciones en color. ISBN : 978-981-1609176-- Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos.
| Palabras clave: |
ciencia del suelo Agricultura AgronomÃa |
| Ãndice Dewey: |
631.4 Ciencia del suelo (Edafología) |
| Resumen: |
Esta compilación ha sido diseñada para proporcionar una fuente integral de actualización teórica y práctica para los cientÃficos que trabajan en el amplio campo de la ciencia del suelo. El libro explora todos los mecanismos y medios posibles para mejorar la eficiencia en el uso de nutrientes que implican el desarrollo y prueba de nanofertilizantes, el desarrollo de formulaciones microbianas basadas en consorcios para la movilización de nutrientes del suelo y la ingenierÃa de cultivos eficientes en nutrientes utilizando biologÃa molecular y herramientas biotecnológicas. Esta es una colección completa de información sobre la ciencia del suelo. Este libro es de interés para profesores, investigadores, cientÃficos del suelo, formadores de capacidades y formuladores de polÃticas. Además, el libro sirve como material de lectura adicional para estudiantes de pregrado y posgrado en ciencias del suelo, ecologÃa cuantitativa, ciencias de la tierra, SIG y ciencias geodésicas, asà como para geólogos, geomorfólogos, hidrólogos y ecologÃa del paisaje. Los cientÃficos nacionales e internacionales en agricultura y suelos y los responsables polÃticos también encontrarán que esta es una lectura útil. |
| Nota de contenido: |
Chapter 1. Managing Soil Resources for Human Health and Environmental Sustainability -- Chapter 2. Soil Organic Carbon Dynamics, Stabilization and Environmental Implication -- Chapter 3. Soil Organic Carbon: Past, Present and Future Research -- Chapter 4. Below-ground carbon storage and dynamics -- Chapter 5. Soil Biodiversity and Community Composition for Ecosystem Services -- Chapter 6. Rhizodeposition: an Unseen Teaser of Nature and its Prospects in Nutrients Dynamics -- Chapter 7. Soil Indicators and Management Strategies for Agro-environmental Sustainability -- Chapter 8. Conservation agriculture in reshaping below ground microbial diversity -- Chapter 9. Saline and Sodic Ecosystems in the Changing World -- Chapter 10. Approaches in Advanced Soil Elemental Extractability: Catapulting Future Soil-Plant Nutrition Research -- Chapter 11. Liquid Biofertilizer: A Potential Tool Towards Sustainable Agriculture -- Chapter 12. Biochar Role in Mitigation of Greenhouse Gas Emissions from AgriculturalSoils -- Chapter 13. Nanotechnology is an Art for Native Nutrient Mobilization and Enhanced Use Efficiency -- Chapter 14. Nanotechnology in Environmental Soil Science -- Chapter 15. Importance of Soil Heterogeneity in Variety Testing Programs -- Chapter 16. Environmental and societal implications of soil response to increasing agricultural demands,- Chapter 17. Soil centric approaches towards climate resilient agriculture -- Chapter 18. Functional Diversity Management through Microbial Integrity for Sustainability -- Chapter 19. The Effect of Crops and Farming Systems on Soil Quality: A Case study -- Chapter 20. Role of Biochar on Greenhouse Gas Emissions and Carbon Sequestration in Soil: Opportunities for Mitigating Climate change -- Chapter 21. Employment of seed priming as a salt-stress mitigating approach in agriculture: challenges and opportunities -- Chapter 22. Microbial Approaches for Bio-Amelioration and Management of Salt Affected Soils -- Chapter 23. Role of zeolites in improving nutrient and water storage capacity of soil and their impact on overall soil quality and crop performance -- Chapter 24 Sulfur in Soil: Abiotic Stress Signaling, Transmission and Induced Physiological Responses in Plants -- Chapter 25. Reducing methane emission from lowland rice ecosystem -- Chapter 26. Potential and Risk of Nanotechnology Application in Agriculture vis-Ã -vis Nano micronutrient Fertilizers -- Chapter 27. Introduction to drone technology for natural resource management in agriculture -- Chapter 28. High-throughput estimation of soil nutrient and residue cover: a step towards precision agriculture -- Chapter 29. Global development in Soil Science Research: Agriculture Sensors and Technologies -- Chapter 30. Soil science research and development in Latin America and the Caribbean -- Chapter 31. The frontiers in soil science research: An African perspective -- Chapter 32. Improvement of Soil quality by solid waste recycling: A Global Perspective. Chapter 33. Nutrient SufficiencyRange of Soils and Plants in Singapore -- Chapter 34. Calcareous Oolitic Limestone Rockland Soils of the Bahamas: Some Physical, Chemical and Fertility Characteristics. Chapter 35. Consequences of anthropogenic disturbance on variation of soil properties and food security: An Asian story -- Chapter 36. Natural Resource Management and Conservation for Smallholder farming in India: Strategies and Challenges -- Chapter 37. Soil and Water Management in India: Challenges and Opportunities -- Chapter 38. Indian Fertiliser Policy: Retrospect and Prospect -- Chapter 39. Long Term Fertilizer Experiments in India: Achievements and Issues for Future Research -- Chapter 40. Micronutrient deficiency stress in soils of India: tackling it to alleviate hidden hunger -- Chapter 41. Pesticides pollution in soils and sediment in India: Status, impact and countermeasures -- Chapter 42. Climate-Smart Soil Management: Prospect and Challenges in Indian Scenario. |
| En lÃnea: |
https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] |
| Link: |
https://biblioteca.umanizales.edu.co/ils/opac_css/index.php?lvl=notice_display&i |
|  |
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