| TÃtulo : |
Carbon Management in Tropical and Sub-Tropical Terrestrial Systems |
| Tipo de documento: |
documento electrónico |
| Autores: |
Ghosh, Probir K., ; Mahanta, Sanat Kumar, ; Mandal, Debashis, ; Mandal, Biswapati, ; Ramakrishnan, Srinivasan, |
| Mención de edición: |
1 ed. |
| Editorial: |
Singapore [Malasia] : Springer |
| Fecha de publicación: |
2020 |
| Número de páginas: |
XXVIII, 438 p. 95 ilustraciones, 56 ilustraciones en color. |
| ISBN/ISSN/DL: |
978-981-1396281-- |
| Nota general: |
Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. |
| Idioma : |
Inglés (eng) |
| Palabras clave: |
ciencia del suelo Gestión ambiental BiologÃa de la Conservación EcologÃa Ambiente EcologÃa del paisaje Ciencias ambientales |
| Clasificación: |
631.4 |
| Resumen: |
El carbono orgánico del suelo (COS), un componente clave de la reserva global de carbono (C), desempeña un papel importante en el ciclo del C, regulando el clima, el suministro de agua y la biodiversidad y, por lo tanto, en la prestación de servicios ecosistémicos que son esenciales para el bienestar humano. . La mayorÃa de los suelos agrÃcolas en las regiones templadas han perdido hasta el 60% de su COS, y hasta el 75% en las regiones tropicales, debido a la conversión de ecosistemas naturales a usos agrÃcolas y principalmente debido a la continua degradación del suelo. El secuestro de C puede ayudar a compensar las emisiones de C provenientes de la quema de combustibles fósiles y otras actividades emisoras de C, al tiempo que mejora la calidad del suelo y la productividad agronómica a largo plazo. Sin embargo, desarrollar polÃticas efectivas para crear sumideros de C terrestres es un serio desafÃo en suelos tropicales y subtropicales, debido a las altas temperaturas promedio anuales en estas regiones. Esto se puede lograr implementando prácticas mejoradas de manejo de la tierra que agreguen cantidades sustanciales de biomasa al suelo, causen una alteración mÃnima del suelo, conserven el suelo y el agua, mejoren la estructura del suelo y aumenten la actividad de la fauna del suelo. La producción continua de cultivos sin labranza es posiblemente el mejor ejemplo. Estos suelos necesitan estrategias técnicamente sólidas y económicamente viables para mejorar de manera sostenible sus reservas de COS. Por lo tanto, este libro proporciona información completa sobre el COS y su gestión en diferentes sistemas de uso de la tierra, con un enfoque en la preservación de los suelos y sus servicios ecosistémicos. Siendo el único libro de este tipo, ofrece un activo valioso para estudiantes, investigadores, formuladores de polÃticas y otras partes interesadas involucradas en el desarrollo sostenible y la gestión de los recursos naturales a nivel global. . |
| Nota de contenido: |
Part 1. Impact of land use management for regulating SOC pools -- Chapter 1. Potential Soil Carbon Sequestration in Different Land Use and Management Systems in Peninsular India -- Chapter 2. Inclusion of Legumes in Rice-Wheat Cropping System for Enhancing Soil Carbon Sequestration -- Chapter 3. Effect of Land Use and Management Practices on Quantifying Changes of Phytolith Occluded Carbon in Arable Soils -- Chapter 4. Soil Management for Regulating C Pools: Perspective in Tropical and Subtropical Soils -- Chapter 5. Soil Management Practices of Major Crops in the United States and their Potential for Carbon Sequestration -- Chapter 6. Soil Carbon Dynamics in different Land Use and Management Systems in Tropical Coastal Regions of India -- Chapter 7. Soil Carbon Dynamics under Different Land Use and Management Systems -- Chapter 8. Carbon- Management in Diverse Land Use Systems of Eastern Himalayan Sub-tropics -- Chapter 9. Good Agricultural Practices and Carbon Sequestration -- Chapter 10.Soil Carbon Dynamics in Relation to Soil Surface Management and Cropping System -- Part 2. Conservation agriculture and C sequestration -- Chapter 11. Conservation Agriculture and C Sequestration in Tropical Regions -- Chapter 12. Soil Organic Carbon Dynamics and Carbon Sequestration under Conservation Tillage in Tropical Vertisols -- Chapter 13. Effect of Tillage on Soil Carbon Sequestration -- Part 3. Soil physical and biological factors regulating SOC storage -- Chapter 14. Functional Behaviour of Soil Physical Parameters for Regulating Organic C Pools -- Chapter 15. Role of Microorganisms in Regulating Carbon Cycle in Tropical and Subtropical Soils -- Chapter 16. Soil Organic Carbon Stock of Some Upland Use System under Tropical Monsoon Climate and Their Interrelationship with Soil Water Retention -- Part 4. Pastures, grasslands, forests and farming systems -- Chapter 17. Soil Organic Carbon Dynamics in Tropical and Subtropical Grassland Ecosystem -- Chapter 18. Tropical Grasslands as Potential Carbon Sink -- Chapter 19. Agroforestry for Carbon Sequestration in Tropical India -- Chapter 20. Carbon Sequestration Potential of Perennial Horticultural Crops in Indian Tropics -- Chapter 21. Effects of Productivity and Soil Carbon Storage in Mixed Forests -- Chapter 22. Forage based Cropping Systems and Soil Organic Carbon Storage -- Part 5. Frontier science regulating SOC storage -- Chapter 23. Developments in Measurement and Modelling of Soil Organic Carbon -- Chapter 24. Nanotechnology for Improved Carbon Management in Soil -- Chapter 25. Potentials and Limitations of Soil Carbon Modeling: Implications in Indian Conditions. . |
| Tipo de medio : |
Computadora |
| Summary : |
Soil organic carbon (SOC), a key component of the global carbon (C) pool, plays an important role in C cycling, regulating climate, water supplies and biodiversity, and therefore in providing the ecosystem services that are essential to human well-being. Most agricultural soils in temperate regions have now lost as much as 60% of their SOC, and as much as 75% in tropical regions, due to conversion from natural ecosystems to agricultural uses and mainly due to continuous soil degradation. Sequestering C can help to offset C emissions from fossil fuel combustion and other C-emitting activities, while also enhancing soil quality and long-term agronomic productivity. However, developing effective policies for creating terrestrial C sinks is a serious challenge in tropical and subtropical soils, due to the high average annual temperatures in these regions. It can be accomplished by implementing improved land management practices that add substantial amounts of biomass to soil, cause minimal soil disturbance, conserve soil and water, improve soil structure, and enhance soil fauna activity. Continuous no-till crop production is arguably the best example. These soils need technically sound and economically feasible strategies to sustainably enhance their SOC pools. Hence, this book provides comprehensive information on SOC and its management in different land-use systems, with a focus on preserving soils and their ecosystem services. The only book of its kind, it offers a valuable asset for students, researchers, policymakers and other stakeholders involved in the sustainable development and management of natural resources at the global level. . |
| Enlace de acceso : |
https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] |
Carbon Management in Tropical and Sub-Tropical Terrestrial Systems [documento electrónico] / Ghosh, Probir K., ; Mahanta, Sanat Kumar, ; Mandal, Debashis, ; Mandal, Biswapati, ; Ramakrishnan, Srinivasan, . - 1 ed. . - Singapore [Malasia] : Springer, 2020 . - XXVIII, 438 p. 95 ilustraciones, 56 ilustraciones en color. ISBN : 978-981-1396281-- Libro disponible en la plataforma SpringerLink. Descarga y lectura en formatos PDF, HTML y ePub. Descarga completa o por capítulos. Idioma : Inglés ( eng)
| Palabras clave: |
ciencia del suelo Gestión ambiental BiologÃa de la Conservación EcologÃa Ambiente EcologÃa del paisaje Ciencias ambientales |
| Clasificación: |
631.4 |
| Resumen: |
El carbono orgánico del suelo (COS), un componente clave de la reserva global de carbono (C), desempeña un papel importante en el ciclo del C, regulando el clima, el suministro de agua y la biodiversidad y, por lo tanto, en la prestación de servicios ecosistémicos que son esenciales para el bienestar humano. . La mayorÃa de los suelos agrÃcolas en las regiones templadas han perdido hasta el 60% de su COS, y hasta el 75% en las regiones tropicales, debido a la conversión de ecosistemas naturales a usos agrÃcolas y principalmente debido a la continua degradación del suelo. El secuestro de C puede ayudar a compensar las emisiones de C provenientes de la quema de combustibles fósiles y otras actividades emisoras de C, al tiempo que mejora la calidad del suelo y la productividad agronómica a largo plazo. Sin embargo, desarrollar polÃticas efectivas para crear sumideros de C terrestres es un serio desafÃo en suelos tropicales y subtropicales, debido a las altas temperaturas promedio anuales en estas regiones. Esto se puede lograr implementando prácticas mejoradas de manejo de la tierra que agreguen cantidades sustanciales de biomasa al suelo, causen una alteración mÃnima del suelo, conserven el suelo y el agua, mejoren la estructura del suelo y aumenten la actividad de la fauna del suelo. La producción continua de cultivos sin labranza es posiblemente el mejor ejemplo. Estos suelos necesitan estrategias técnicamente sólidas y económicamente viables para mejorar de manera sostenible sus reservas de COS. Por lo tanto, este libro proporciona información completa sobre el COS y su gestión en diferentes sistemas de uso de la tierra, con un enfoque en la preservación de los suelos y sus servicios ecosistémicos. Siendo el único libro de este tipo, ofrece un activo valioso para estudiantes, investigadores, formuladores de polÃticas y otras partes interesadas involucradas en el desarrollo sostenible y la gestión de los recursos naturales a nivel global. . |
| Nota de contenido: |
Part 1. Impact of land use management for regulating SOC pools -- Chapter 1. Potential Soil Carbon Sequestration in Different Land Use and Management Systems in Peninsular India -- Chapter 2. Inclusion of Legumes in Rice-Wheat Cropping System for Enhancing Soil Carbon Sequestration -- Chapter 3. Effect of Land Use and Management Practices on Quantifying Changes of Phytolith Occluded Carbon in Arable Soils -- Chapter 4. Soil Management for Regulating C Pools: Perspective in Tropical and Subtropical Soils -- Chapter 5. Soil Management Practices of Major Crops in the United States and their Potential for Carbon Sequestration -- Chapter 6. Soil Carbon Dynamics in different Land Use and Management Systems in Tropical Coastal Regions of India -- Chapter 7. Soil Carbon Dynamics under Different Land Use and Management Systems -- Chapter 8. Carbon- Management in Diverse Land Use Systems of Eastern Himalayan Sub-tropics -- Chapter 9. Good Agricultural Practices and Carbon Sequestration -- Chapter 10.Soil Carbon Dynamics in Relation to Soil Surface Management and Cropping System -- Part 2. Conservation agriculture and C sequestration -- Chapter 11. Conservation Agriculture and C Sequestration in Tropical Regions -- Chapter 12. Soil Organic Carbon Dynamics and Carbon Sequestration under Conservation Tillage in Tropical Vertisols -- Chapter 13. Effect of Tillage on Soil Carbon Sequestration -- Part 3. Soil physical and biological factors regulating SOC storage -- Chapter 14. Functional Behaviour of Soil Physical Parameters for Regulating Organic C Pools -- Chapter 15. Role of Microorganisms in Regulating Carbon Cycle in Tropical and Subtropical Soils -- Chapter 16. Soil Organic Carbon Stock of Some Upland Use System under Tropical Monsoon Climate and Their Interrelationship with Soil Water Retention -- Part 4. Pastures, grasslands, forests and farming systems -- Chapter 17. Soil Organic Carbon Dynamics in Tropical and Subtropical Grassland Ecosystem -- Chapter 18. Tropical Grasslands as Potential Carbon Sink -- Chapter 19. Agroforestry for Carbon Sequestration in Tropical India -- Chapter 20. Carbon Sequestration Potential of Perennial Horticultural Crops in Indian Tropics -- Chapter 21. Effects of Productivity and Soil Carbon Storage in Mixed Forests -- Chapter 22. Forage based Cropping Systems and Soil Organic Carbon Storage -- Part 5. Frontier science regulating SOC storage -- Chapter 23. Developments in Measurement and Modelling of Soil Organic Carbon -- Chapter 24. Nanotechnology for Improved Carbon Management in Soil -- Chapter 25. Potentials and Limitations of Soil Carbon Modeling: Implications in Indian Conditions. . |
| Tipo de medio : |
Computadora |
| Summary : |
Soil organic carbon (SOC), a key component of the global carbon (C) pool, plays an important role in C cycling, regulating climate, water supplies and biodiversity, and therefore in providing the ecosystem services that are essential to human well-being. Most agricultural soils in temperate regions have now lost as much as 60% of their SOC, and as much as 75% in tropical regions, due to conversion from natural ecosystems to agricultural uses and mainly due to continuous soil degradation. Sequestering C can help to offset C emissions from fossil fuel combustion and other C-emitting activities, while also enhancing soil quality and long-term agronomic productivity. However, developing effective policies for creating terrestrial C sinks is a serious challenge in tropical and subtropical soils, due to the high average annual temperatures in these regions. It can be accomplished by implementing improved land management practices that add substantial amounts of biomass to soil, cause minimal soil disturbance, conserve soil and water, improve soil structure, and enhance soil fauna activity. Continuous no-till crop production is arguably the best example. These soils need technically sound and economically feasible strategies to sustainably enhance their SOC pools. Hence, this book provides comprehensive information on SOC and its management in different land-use systems, with a focus on preserving soils and their ecosystem services. The only book of its kind, it offers a valuable asset for students, researchers, policymakers and other stakeholders involved in the sustainable development and management of natural resources at the global level. . |
| Enlace de acceso : |
https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] |
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