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Autor Rakshit, Amitava |
Documentos disponibles escritos por este autor (5)
Crear una solicitud de compra Refinar búsquedaAdaptive Soil Management : From Theory to Practices / Rakshit, Amitava ; Abhilash, Purushothaman Chirakuzhyil ; Singh, Harikesh Bahadur ; Ghosh, Subhadip
TÃtulo : Adaptive Soil Management : From Theory to Practices Tipo de documento: documento electrónico Autores: Rakshit, Amitava, ; Abhilash, Purushothaman Chirakuzhyil, ; Singh, Harikesh Bahadur, ; Ghosh, Subhadip, Mención de edición: 1 ed. Editorial: Singapore [Malasia] : Springer Fecha de publicación: 2017 Número de páginas: XXII, 571 p. 121 ilustraciones, 75 ilustraciones en color. ISBN/ISSN/DL: 978-981-10-3638-5 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 Sostenibilidad Agricultura Clasificación: 631.4 Resumen: El libro se centra en detalle en el aprendizaje y la adaptación a través de asociaciones entre administradores, cientÃficos y otras partes interesadas que aprenden juntos cómo crear y mantener sistemas de recursos sostenibles. A medida que las áreas naturales se reducen y fragmentan, nuestra capacidad para sostener el crecimiento económico y salvaguardar la diversidad biológica y la integridad ecológica se pone cada vez más a prueba. Al intentar afrontar este desafÃo sin precedentes, la gestión adaptativa se está convirtiendo en una alternativa viable para una aplicación más amplia. La gestión adaptativa es un proceso iterativo de toma de decisiones que es tanto operativa como conceptualmente simple y que incorpora a los usuarios para reconocer y dar cuenta de la incertidumbre, y sostener un entorno operativo que promueva su reducción a través de una cuidadosa planificación, evaluación y aprendizaje hasta que se logren los resultados deseados. . Este enfoque multifacético requiere objetivos de gestión claramente definidos para guiar las decisiones sobre qué acciones tomar, y supuestos explÃcitos sobre los resultados esperados para compararlos con los resultados reales. En este libro editado, abordamos el tema aplicando un enfoque holÃstico y sistemático que utiliza recursos naturales para obtener beneficios ambientales, económicos y sociales sostenibles para la gestión adaptativa, ayudando a garantizar que las relaciones entre la tierra, el agua y las plantas se gestionen de manera que imiten naturaleza. Nota de contenido: Part 1. Concepts -- Chapter 1. Digital Soil Mapping and Best Management of Soil Resources: A Brief Discussion with Few Case Studies -- Chapter 2. Are the Traditional Soil Analyses Will Pass into Oblivion? Adaptive Remote Sensing Approach in Support of Precision Agriculture -- Chapter 3. Site Specific Nutrient Management (SSNM) – An Unique Approach towards Maintaining Soil Health -- Chapter 4. Soil Mineralogical Perspective on Immobilization/Mobilization of Heavy Metals -- Chapter 5. Using Laboratory Analysis to Inform Adaptive Management -- Chapter 6. Microbial Proteins and Soil Carbon Sequestration -- Part 2. Adaptive Soil Management Strategies -- Chapter 7. Use of Soil Amendments in An Integrated Framework for Adaptive Resource Management in Agriculture and Forestry -- Chapter 8. Resource Conservation Technologies for Sustainable Soil Health Management -- Chapter 9. Sustainable Management of Soil Phosphorus in A Changing World -- Chapter 10. Wastewater in Agriculture: Possibilities and Limitations -- Chapter 11. Eco- friendly Nitrogen Fertilizers for Sustainable Agriculture -- Chapter 12. Scope of Natural Source of Potassium in Sustainable Agriculture -- Chapter 13. Changes in Soil-Plant-Microbes Interactions in Anticipated Climatic Change Conditions -- Chapter 14. Adaptive Soil Management-A Tool For Plant Fitness in Stressful Environment Through Microbial Integrity -- Chapter 15. Impact of Agricultural Management Practices on Mycorrhizal Functioning and Soil Micro-Biological Parameters Under Soybean-Based Cropping Systems -- Chapter 16. Bioremediation of Contaminated Soils: An Overview -- Chapter 17. Bioremediation of Soils Contaminated With Ni and Cd-An Overview -- Chapter 18. Urban Soil's Functions: Monitoring, Assessment and Management -- Part 3. Regional and Global Initiatives For Soil Resource Management -- Chapter 19. Enhancing Resource Use Efficiency Through Soil Management for Improving Livelihoods -- Chapter 20. The Relevance of Traditional Ecological Knowledge in Agricultural Sustainability of The Semi Arid Tropics -- Chapter 21. The Effects of Forest Fire on Soil Organic Matter and Nutrients in Boreal Forests of North America: A Review -- Chapter 22. Climate Mediated Changes in Permafrost and Their Effects on Natural and Human Environments -- Chapter 23. Integrated Natural resource management in India through Participatory Integrated Watershed Management -- Chapter 24. Monitoring and Assessing Anthropogenic Influence on Soil's Health in Urban Forests (The Case From Moscow City) -- Chapter 25. Impacts Assessment of Municipal Solid Squander Dumping in Riparian Corridor Using Multivariate Statistical Techniques . . Tipo de medio : Computadora Summary : The book focuses in detail on learning and adapting through partnerships between managers, scientists, and other stakeholders who learn together how to create and maintain sustainable resource systems. As natural areas shrink and fragment, our ability to sustain economic growth and safeguard biological diversity and ecological integrity is increasingly being put to the test. In attempting to meet this unprecedented challenge, adaptive management is becoming a viable alternative for broader application. Adaptive management is an iterative decision-making process which is both operationally and conceptually simple and which incorporates users to acknowledge and account for uncertainty, and sustain an operating environment that promotes its reduction through careful planning, evaluation, and learning until the desired results are achieved. This multifaceted approach requires clearly defined management objectives to guide decisions about what actions to take, and explicit assumptions about expected outcomes to compare against actual outcomes. In this edited book, we address the issue by pursuing a holistic and systematic approach that utilizes natural resources to reap sustainable environmental, economic and social benefits for adaptive management, helping to ensure that relationships between land, water and plants are managed in ways that mimic nature. Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] Adaptive Soil Management : From Theory to Practices [documento electrónico] / Rakshit, Amitava, ; Abhilash, Purushothaman Chirakuzhyil, ; Singh, Harikesh Bahadur, ; Ghosh, Subhadip, . - 1 ed. . - Singapore [Malasia] : Springer, 2017 . - XXII, 571 p. 121 ilustraciones, 75 ilustraciones en color.
ISBN : 978-981-10-3638-5
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 Sostenibilidad Agricultura Clasificación: 631.4 Resumen: El libro se centra en detalle en el aprendizaje y la adaptación a través de asociaciones entre administradores, cientÃficos y otras partes interesadas que aprenden juntos cómo crear y mantener sistemas de recursos sostenibles. A medida que las áreas naturales se reducen y fragmentan, nuestra capacidad para sostener el crecimiento económico y salvaguardar la diversidad biológica y la integridad ecológica se pone cada vez más a prueba. Al intentar afrontar este desafÃo sin precedentes, la gestión adaptativa se está convirtiendo en una alternativa viable para una aplicación más amplia. La gestión adaptativa es un proceso iterativo de toma de decisiones que es tanto operativa como conceptualmente simple y que incorpora a los usuarios para reconocer y dar cuenta de la incertidumbre, y sostener un entorno operativo que promueva su reducción a través de una cuidadosa planificación, evaluación y aprendizaje hasta que se logren los resultados deseados. . Este enfoque multifacético requiere objetivos de gestión claramente definidos para guiar las decisiones sobre qué acciones tomar, y supuestos explÃcitos sobre los resultados esperados para compararlos con los resultados reales. En este libro editado, abordamos el tema aplicando un enfoque holÃstico y sistemático que utiliza recursos naturales para obtener beneficios ambientales, económicos y sociales sostenibles para la gestión adaptativa, ayudando a garantizar que las relaciones entre la tierra, el agua y las plantas se gestionen de manera que imiten naturaleza. Nota de contenido: Part 1. Concepts -- Chapter 1. Digital Soil Mapping and Best Management of Soil Resources: A Brief Discussion with Few Case Studies -- Chapter 2. Are the Traditional Soil Analyses Will Pass into Oblivion? Adaptive Remote Sensing Approach in Support of Precision Agriculture -- Chapter 3. Site Specific Nutrient Management (SSNM) – An Unique Approach towards Maintaining Soil Health -- Chapter 4. Soil Mineralogical Perspective on Immobilization/Mobilization of Heavy Metals -- Chapter 5. Using Laboratory Analysis to Inform Adaptive Management -- Chapter 6. Microbial Proteins and Soil Carbon Sequestration -- Part 2. Adaptive Soil Management Strategies -- Chapter 7. Use of Soil Amendments in An Integrated Framework for Adaptive Resource Management in Agriculture and Forestry -- Chapter 8. Resource Conservation Technologies for Sustainable Soil Health Management -- Chapter 9. Sustainable Management of Soil Phosphorus in A Changing World -- Chapter 10. Wastewater in Agriculture: Possibilities and Limitations -- Chapter 11. Eco- friendly Nitrogen Fertilizers for Sustainable Agriculture -- Chapter 12. Scope of Natural Source of Potassium in Sustainable Agriculture -- Chapter 13. Changes in Soil-Plant-Microbes Interactions in Anticipated Climatic Change Conditions -- Chapter 14. Adaptive Soil Management-A Tool For Plant Fitness in Stressful Environment Through Microbial Integrity -- Chapter 15. Impact of Agricultural Management Practices on Mycorrhizal Functioning and Soil Micro-Biological Parameters Under Soybean-Based Cropping Systems -- Chapter 16. Bioremediation of Contaminated Soils: An Overview -- Chapter 17. Bioremediation of Soils Contaminated With Ni and Cd-An Overview -- Chapter 18. Urban Soil's Functions: Monitoring, Assessment and Management -- Part 3. Regional and Global Initiatives For Soil Resource Management -- Chapter 19. Enhancing Resource Use Efficiency Through Soil Management for Improving Livelihoods -- Chapter 20. The Relevance of Traditional Ecological Knowledge in Agricultural Sustainability of The Semi Arid Tropics -- Chapter 21. The Effects of Forest Fire on Soil Organic Matter and Nutrients in Boreal Forests of North America: A Review -- Chapter 22. Climate Mediated Changes in Permafrost and Their Effects on Natural and Human Environments -- Chapter 23. Integrated Natural resource management in India through Participatory Integrated Watershed Management -- Chapter 24. Monitoring and Assessing Anthropogenic Influence on Soil's Health in Urban Forests (The Case From Moscow City) -- Chapter 25. Impacts Assessment of Municipal Solid Squander Dumping in Riparian Corridor Using Multivariate Statistical Techniques . . Tipo de medio : Computadora Summary : The book focuses in detail on learning and adapting through partnerships between managers, scientists, and other stakeholders who learn together how to create and maintain sustainable resource systems. As natural areas shrink and fragment, our ability to sustain economic growth and safeguard biological diversity and ecological integrity is increasingly being put to the test. In attempting to meet this unprecedented challenge, adaptive management is becoming a viable alternative for broader application. Adaptive management is an iterative decision-making process which is both operationally and conceptually simple and which incorporates users to acknowledge and account for uncertainty, and sustain an operating environment that promotes its reduction through careful planning, evaluation, and learning until the desired results are achieved. This multifaceted approach requires clearly defined management objectives to guide decisions about what actions to take, and explicit assumptions about expected outcomes to compare against actual outcomes. In this edited book, we address the issue by pursuing a holistic and systematic approach that utilizes natural resources to reap sustainable environmental, economic and social benefits for adaptive management, helping to ensure that relationships between land, water and plants are managed in ways that mimic nature. Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...]
TÃtulo : Advances in Seed Priming Tipo de documento: documento electrónico Autores: Rakshit, Amitava, ; Singh, Harikesh Bahadur, Mención de edición: 1 ed. Editorial: Singapore [Malasia] : Springer Fecha de publicación: 2018 Número de páginas: XVII, 307 p. 26 ilustraciones, 18 ilustraciones en color. ISBN/ISSN/DL: 978-981-1300325-- 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: Genética vegetal BioquÃmica FisiologÃa de las plantas BiotecnologÃa vegetal Planta Desarrollo de plantas Clasificación: 581.35 Resumen: La mayorÃa de las plantas cultivadas crecen en entornos subóptimos, lo que impide que las plantas alcancen su máximo potencial genético de crecimiento y reproducción. El estrés debido a agentes abióticos y bióticos tiene un efecto significativo en la producción mundial de alimentos. Anualmente, se estima que se pierde el 15% de los rendimientos mundiales, pero esta cifra oculta pérdidas mucho mayores para sistemas alimentarios especÃficos y las personas cuya existencia depende de ellos, particularmente en los paÃses en desarrollo. Los esfuerzos actuales para mitigar estas pérdidas dependen excesivamente del uso de productos quÃmicos sofisticados y costosos con costos económicos y ambientales sustanciales, o del desarrollo de variedades de cultivos eficientes e inteligentes, lo que puede llevar décadas. Lo que necesitamos es una amplia gama de soluciones seguras, sólidas y equitativas para los productores de alimentos. Un enfoque poco investigado es el de utilizar el sistema inmunológico innato de la planta cultivada para resistir el estrés. Más especÃficamente, el sistema inmunológico innato puede sensibilizarse o "prepararse" para que responda con mayor rapidez y fuerza para proteger a la planta contra el estrés. Sin embargo, una estrategia de emplear imprimación en combinación con un uso reducido de pesticidas puede mejorar la protección y ayudar a cumplir los compromisos de reducir los insumos quÃmicos en la agricultura. Este libro analiza en detalle diferentes segmentos de preparación para abordar los factores y rasgos de estrés para aumentar la competitividad contra viento y marea. Adoptando un enfoque holÃstico y sistemático, aborda la preparación para contrarrestar los efectos adversos relacionados con el cambio climático, junto con el estrés relacionado con plagas y patógenos en la productividad de los cultivos, utilizando recursos naturales para obtener beneficios ambientales, económicos y sociales sostenibles para la productividad potencial de los cultivos, manteniendo la sinergia. entre el suelo, el agua y las plantas de manera que imitan la naturaleza. Nota de contenido: Part 1. Concepts -- Chapter1. Seed Priming: New Vistas and Contemporary Perspectives -- Chapter 2. Impact of Seed Priming on The Modulation of Physico-Chemical and Molecular Processes During Germination , Growth and Development of Crops -- Chapter 3. Seed Priming: An Emerging Technology to Impart Abiotic Stress Tolerance in Crop Plants -- Chapter 4. Recent Advances in Abiotic Stress Tolerance of Plants Through Chemical Priming: An Overview -- Chapter 5. Seed Priming Technology in the Amelioration of Salinity Stress in Plants -- Chapter 6. Seed Priming with Plant Growth Regulators to Improve Crops Abiotic Stress Tolerance -- Chapter 7. Addressing Stresses in Agriculture Through Bio-Priming Intervention -- Chapter 8. Role of Microbial Seed Priming and Microbial Phytohormone in Modulating Growth Promotion and Defense Responses in Plants -- Chapter 9. Potential Of Biopriming in Enhancing Crop Productivity and Stress Tolerance -- Chapter 10. Stimulating Plant Tolerance Against Abiotic Stress Through Seed Priming -- Part 2. Case Studies on Priming -- Chapter 11. Seed Priming: A Low-Cost Technology for Resource-Poor Farmers in Improving Pulse Productivity -- Chapter 12. Studies on Seed Priming in Pepper (Capsicum annuum L.) -- Chapter 13. Effect of Different Seed Priming Treatments on Germination and Seedling Establishment of Two Threatened Endangered Medicinal Plant Of Darjeeling Himalaya -- Chapter 14. Seed Priming on Germination, Growth and Flowering in Flowers and Ornamental Trees -- Chapter 15. Role of SNP Mediated Nitric Oxide Priming in Conferring Low Temperature Tolerance in Wheat Genotype (Triticum aestivum L.): A Case Study in Indian Northern Plains -- Chapter 16. Seedling Biopriming with Trichoderma spp. Enhances Nitrogen Use efficiency in Rice. Tipo de medio : Computadora Summary : Most crop plants grow in environments that are suboptimal, which prevents the plants from attaining their full genetic potential for growth and reproduction. Stress due to abiotic and biotic agents has a significant effect on world food production. Annually, an estimated 15% of global yields are lost, but this figure belies far greater losses for specific food systems and the people whose existence is dependent upon them, particularly in developing countries. Current efforts to mitigate these losses are worryingly over-reliant on the use of sophisticated and costly chemicals /measures with substantial economic and environmental costs, or on the development of efficient and smart crop varieties, which can take decades. What we need is a broad range of safe, robust and equitable solutions for food producers. One under-investigated approach is that of utilizing the crop plant's innate immune system to resist stress. More specifically, the innate immune system can be sensitized or 'primed' to respond more quickly and strongly to protect the plant against stresses. However, a strategy of employing priming in combination with reduced pesticide use can enhance protection, and help to meet commitments to reducing chemical inputs in agriculture. This book discusses in detail different segments of priming in addressing stress factors and traits to increase competitiveness against all odds. Adopting a holistic and systematic approach, it addresses priming to counter climate-change related adverse effects coupled with pest and pathogen related stress on the productivity of crops utilizing natural resources to reap sustainable environmental, economic and social benefits for potential productivity of crops, maintaining synergy between soil, water and plants in ways that mimic nature. Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] Advances in Seed Priming [documento electrónico] / Rakshit, Amitava, ; Singh, Harikesh Bahadur, . - 1 ed. . - Singapore [Malasia] : Springer, 2018 . - XVII, 307 p. 26 ilustraciones, 18 ilustraciones en color.
ISBN : 978-981-1300325--
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: Genética vegetal BioquÃmica FisiologÃa de las plantas BiotecnologÃa vegetal Planta Desarrollo de plantas Clasificación: 581.35 Resumen: La mayorÃa de las plantas cultivadas crecen en entornos subóptimos, lo que impide que las plantas alcancen su máximo potencial genético de crecimiento y reproducción. El estrés debido a agentes abióticos y bióticos tiene un efecto significativo en la producción mundial de alimentos. Anualmente, se estima que se pierde el 15% de los rendimientos mundiales, pero esta cifra oculta pérdidas mucho mayores para sistemas alimentarios especÃficos y las personas cuya existencia depende de ellos, particularmente en los paÃses en desarrollo. Los esfuerzos actuales para mitigar estas pérdidas dependen excesivamente del uso de productos quÃmicos sofisticados y costosos con costos económicos y ambientales sustanciales, o del desarrollo de variedades de cultivos eficientes e inteligentes, lo que puede llevar décadas. Lo que necesitamos es una amplia gama de soluciones seguras, sólidas y equitativas para los productores de alimentos. Un enfoque poco investigado es el de utilizar el sistema inmunológico innato de la planta cultivada para resistir el estrés. Más especÃficamente, el sistema inmunológico innato puede sensibilizarse o "prepararse" para que responda con mayor rapidez y fuerza para proteger a la planta contra el estrés. Sin embargo, una estrategia de emplear imprimación en combinación con un uso reducido de pesticidas puede mejorar la protección y ayudar a cumplir los compromisos de reducir los insumos quÃmicos en la agricultura. Este libro analiza en detalle diferentes segmentos de preparación para abordar los factores y rasgos de estrés para aumentar la competitividad contra viento y marea. Adoptando un enfoque holÃstico y sistemático, aborda la preparación para contrarrestar los efectos adversos relacionados con el cambio climático, junto con el estrés relacionado con plagas y patógenos en la productividad de los cultivos, utilizando recursos naturales para obtener beneficios ambientales, económicos y sociales sostenibles para la productividad potencial de los cultivos, manteniendo la sinergia. entre el suelo, el agua y las plantas de manera que imitan la naturaleza. Nota de contenido: Part 1. Concepts -- Chapter1. Seed Priming: New Vistas and Contemporary Perspectives -- Chapter 2. Impact of Seed Priming on The Modulation of Physico-Chemical and Molecular Processes During Germination , Growth and Development of Crops -- Chapter 3. Seed Priming: An Emerging Technology to Impart Abiotic Stress Tolerance in Crop Plants -- Chapter 4. Recent Advances in Abiotic Stress Tolerance of Plants Through Chemical Priming: An Overview -- Chapter 5. Seed Priming Technology in the Amelioration of Salinity Stress in Plants -- Chapter 6. Seed Priming with Plant Growth Regulators to Improve Crops Abiotic Stress Tolerance -- Chapter 7. Addressing Stresses in Agriculture Through Bio-Priming Intervention -- Chapter 8. Role of Microbial Seed Priming and Microbial Phytohormone in Modulating Growth Promotion and Defense Responses in Plants -- Chapter 9. Potential Of Biopriming in Enhancing Crop Productivity and Stress Tolerance -- Chapter 10. Stimulating Plant Tolerance Against Abiotic Stress Through Seed Priming -- Part 2. Case Studies on Priming -- Chapter 11. Seed Priming: A Low-Cost Technology for Resource-Poor Farmers in Improving Pulse Productivity -- Chapter 12. Studies on Seed Priming in Pepper (Capsicum annuum L.) -- Chapter 13. Effect of Different Seed Priming Treatments on Germination and Seedling Establishment of Two Threatened Endangered Medicinal Plant Of Darjeeling Himalaya -- Chapter 14. Seed Priming on Germination, Growth and Flowering in Flowers and Ornamental Trees -- Chapter 15. Role of SNP Mediated Nitric Oxide Priming in Conferring Low Temperature Tolerance in Wheat Genotype (Triticum aestivum L.): A Case Study in Indian Northern Plains -- Chapter 16. Seedling Biopriming with Trichoderma spp. Enhances Nitrogen Use efficiency in Rice. Tipo de medio : Computadora Summary : Most crop plants grow in environments that are suboptimal, which prevents the plants from attaining their full genetic potential for growth and reproduction. Stress due to abiotic and biotic agents has a significant effect on world food production. Annually, an estimated 15% of global yields are lost, but this figure belies far greater losses for specific food systems and the people whose existence is dependent upon them, particularly in developing countries. Current efforts to mitigate these losses are worryingly over-reliant on the use of sophisticated and costly chemicals /measures with substantial economic and environmental costs, or on the development of efficient and smart crop varieties, which can take decades. What we need is a broad range of safe, robust and equitable solutions for food producers. One under-investigated approach is that of utilizing the crop plant's innate immune system to resist stress. More specifically, the innate immune system can be sensitized or 'primed' to respond more quickly and strongly to protect the plant against stresses. However, a strategy of employing priming in combination with reduced pesticide use can enhance protection, and help to meet commitments to reducing chemical inputs in agriculture. This book discusses in detail different segments of priming in addressing stress factors and traits to increase competitiveness against all odds. Adopting a holistic and systematic approach, it addresses priming to counter climate-change related adverse effects coupled with pest and pathogen related stress on the productivity of crops utilizing natural resources to reap sustainable environmental, economic and social benefits for potential productivity of crops, maintaining synergy between soil, water and plants in ways that mimic nature. Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...]
TÃtulo : New Frontiers in Stress Management for Durable Agriculture Tipo de documento: documento electrónico Autores: Rakshit, Amitava, ; Singh, Harikesh Bahadur, ; Singh, Anand Kumar, ; Singh, Uma Shankar, ; Fraceto, Leonardo, Mención de edición: 1 ed. Editorial: Singapore [Malasia] : Springer Fecha de publicación: 2020 Número de páginas: XXIV, 660 p. 72 ilustraciones, 53 ilustraciones en color. ISBN/ISSN/DL: 978-981-1513220-- 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: Agricultura Biodiversidad Gestión ambiental CitologÃa Estrés (FisiologÃa) Monitoreo ambiental Estrés celular Clasificación: 630 Agricultura tecnologías relacionadas Resumen: Es probable que el uso de prácticas agrÃcolas accesibles para satisfacer las crecientes demandas de la agricultura dé como resultado una competencia más intensa por los recursos naturales, un aumento de las emisiones de gases de efecto invernadero y una mayor deforestación y degradación de la tierra, lo que a su vez producirá estrés adicional en la relación suelo-agua-planta. continuo animal. El estrés se refiere a cualquier fuerza o condición desfavorable que inhibe el funcionamiento habitual de las plantas. Las manifestaciones concurrentes de diferentes estreses (bióticos y abióticos) son muy frecuentes en el ambiente de las plantas, lo que en consecuencia reduce el rendimiento. Comprender mejor el estrés no sólo cambia nuestra perspectiva sobre el entorno actual, sino que también puede traer una gran cantidad de beneficios, como mejorar la agricultura sostenible y los niveles de vida de los seres humanos. Se necesitan sistemas innovadores que protejan y mejoren la base de recursos naturales, al tiempo que aumentan la productividad a través de enfoques "holÃsticos", como la agroecologÃa, la agrosilvicultura, la agricultura climáticamente inteligente y la agricultura de conservación, que también incorporan conocimientos indÃgenas y tradicionales. El libro ''Nuevas fronteras en el manejo del estrés para una agricultura duradera'' detalla el estado actual del conocimiento y destaca los avances cientÃficos relacionados con aspectos novedosos de la investigación en biologÃa vegetal sobre el estrés, las respuestas al estrés biótico y abiótico, asà como las tecnologÃas emergentes de mejora y recuperación para restaurar el funcionamiento normal. en agroecologÃa. . Nota de contenido: Part 1. Abiotic stress response in plants and approaches towards mitigation -- Chapter 1. Physiological responses and resilience of plants to climate change -- Chapter 2. Allelopathy: Implications in Natural and Managed Ecosystems -- Chapter 3. Effect of Drought Stress on Crop Production -- Chapter 4. Impact of salinity stress in crop plants and mitigation strategies -- Chapter 5. Sustainable production of Rice under sodicity stress condition -- Chapter 6. Chilling stress during postharvest storage of fruits and vegetables -- Chapter 7. Chemical stress on plants -- Chapter 8. Role of ionizing radiation-induced mutations in the development of rice cultivars -- Chapter 9. Adverse Effect of Heavy Metal Toxicity in Plants Metabolic Systems and Biotechnological Approaches for Its Tolerance Mechanism -- Chapter 10. Crop growth under heavy metals stress and its mitigation -- Chapter 11. Conservation of Tropical Agriculture in the era of Changing Climate -- Chapter 12. Alleviation of abiotic stress by Non-conventional plant growth regulators in plant physiology -- Chapter 13. Use of different agronomic practices to minimize ozone injury in plants: A step towards Sustainable Agriculture -- Chapter 14. Micro-nutrient seed priming: A pragmatic approach towards abiotic stress management. Chapter 15. Bioactive Compost: An approach for managing plant growth in environmentally stressed soils -- Chapter 16. Seed priming: Implicationin Agriculture to Manage Salinity Stress in Crops -- Chapter 17. Application of nano-particles in agriculture as fertilizers and pesticides: challenges and opportunities -- Chapter 18. Phenomics assisted breeding: An emerging way for stress management -- Chapter 19. Prediction of Climate Change using Statistical Downscaling Techniques -- Part 2. Improving crops resistance to biotic stress -- Chapter 20. Microbial Bio-agents in Agriculture: Current status and Prospects -- Chapter 21. Application of plant-volatile mediated signalingin sustainable agriculture -- Chapter 22. Biological host response: a paradigm and strategy to overcome biotic stress caused by powdery mildew causalagents in plants -- Chapter 23. CRISPR/Cas9-edited rice: a new frontier for sustainable agriculture -- Part 3. Research highlights in different crops -- Chapter 24. Agronomic Interventions for Drought Management in Crops -- Chapter 25. Flower crops response to biotic and abiotic stresses -- Chapter 26. Begomovirus menance and its management in vegetable crops -- Chapter 27. Management of abiotic stresses in vegetable crops -- Chapter 28. Realizing the potential of coastal flood-prone areas for rice production in West Bengal: prospects and challenges -- Chapter 29. Mechanisms of abiotic stress tolerance and their management strategies in fruit crops -- Chapter 30. Biotic Stress Management in Rice (Oryza sativa L.) through Conventional and Molecular Approaches -- Chapter 31. System of Assured Rice Production in kharif: A resource-conserving and climate-resilient methodology for higher productivity and profitability. . Tipo de medio : Computadora Summary : Using accessible farming practices to meet the growing demands on agriculture is likely to result in more intense competition for natural resources, increased greenhouse gas emissions, and further deforestation and land degradation, which will in turn produce additional stress in the soil-water-plant-animal continuum. Stress refers to any unfavorable force or condition that inhibits customary functioning in plants. Concurrent manifestations of different stresses (biotic and abiotic) are very frequent in the environment of plants, which consequently reduces yield. Better understanding stress not only changes our perspective on the current environment, but can also bring a wealth of benefits, like improving sustainable agriculture and human beings' living standards. Innovative systems are called for that protect and enhance the natural resource base, while increasing productivity via 'holistic' approaches, such as agroecology, agro-forestry, climate-smart agriculture and conservation agriculture, which also incorporate indigenous and traditional knowledge. The book 'New Frontiers in Stress Management for Durable Agriculture' details the current state of knowledge and highlights scientific advances concerning novel aspects of plant biology research on stress, biotic and abiotic stress responses, as well as emergent amelioration and reclamation technologies to restore normal functioning in agroecology. . Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] New Frontiers in Stress Management for Durable Agriculture [documento electrónico] / Rakshit, Amitava, ; Singh, Harikesh Bahadur, ; Singh, Anand Kumar, ; Singh, Uma Shankar, ; Fraceto, Leonardo, . - 1 ed. . - Singapore [Malasia] : Springer, 2020 . - XXIV, 660 p. 72 ilustraciones, 53 ilustraciones en color.
ISBN : 978-981-1513220--
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: Agricultura Biodiversidad Gestión ambiental CitologÃa Estrés (FisiologÃa) Monitoreo ambiental Estrés celular Clasificación: 630 Agricultura tecnologías relacionadas Resumen: Es probable que el uso de prácticas agrÃcolas accesibles para satisfacer las crecientes demandas de la agricultura dé como resultado una competencia más intensa por los recursos naturales, un aumento de las emisiones de gases de efecto invernadero y una mayor deforestación y degradación de la tierra, lo que a su vez producirá estrés adicional en la relación suelo-agua-planta. continuo animal. El estrés se refiere a cualquier fuerza o condición desfavorable que inhibe el funcionamiento habitual de las plantas. Las manifestaciones concurrentes de diferentes estreses (bióticos y abióticos) son muy frecuentes en el ambiente de las plantas, lo que en consecuencia reduce el rendimiento. Comprender mejor el estrés no sólo cambia nuestra perspectiva sobre el entorno actual, sino que también puede traer una gran cantidad de beneficios, como mejorar la agricultura sostenible y los niveles de vida de los seres humanos. Se necesitan sistemas innovadores que protejan y mejoren la base de recursos naturales, al tiempo que aumentan la productividad a través de enfoques "holÃsticos", como la agroecologÃa, la agrosilvicultura, la agricultura climáticamente inteligente y la agricultura de conservación, que también incorporan conocimientos indÃgenas y tradicionales. El libro ''Nuevas fronteras en el manejo del estrés para una agricultura duradera'' detalla el estado actual del conocimiento y destaca los avances cientÃficos relacionados con aspectos novedosos de la investigación en biologÃa vegetal sobre el estrés, las respuestas al estrés biótico y abiótico, asà como las tecnologÃas emergentes de mejora y recuperación para restaurar el funcionamiento normal. en agroecologÃa. . Nota de contenido: Part 1. Abiotic stress response in plants and approaches towards mitigation -- Chapter 1. Physiological responses and resilience of plants to climate change -- Chapter 2. Allelopathy: Implications in Natural and Managed Ecosystems -- Chapter 3. Effect of Drought Stress on Crop Production -- Chapter 4. Impact of salinity stress in crop plants and mitigation strategies -- Chapter 5. Sustainable production of Rice under sodicity stress condition -- Chapter 6. Chilling stress during postharvest storage of fruits and vegetables -- Chapter 7. Chemical stress on plants -- Chapter 8. Role of ionizing radiation-induced mutations in the development of rice cultivars -- Chapter 9. Adverse Effect of Heavy Metal Toxicity in Plants Metabolic Systems and Biotechnological Approaches for Its Tolerance Mechanism -- Chapter 10. Crop growth under heavy metals stress and its mitigation -- Chapter 11. Conservation of Tropical Agriculture in the era of Changing Climate -- Chapter 12. Alleviation of abiotic stress by Non-conventional plant growth regulators in plant physiology -- Chapter 13. Use of different agronomic practices to minimize ozone injury in plants: A step towards Sustainable Agriculture -- Chapter 14. Micro-nutrient seed priming: A pragmatic approach towards abiotic stress management. Chapter 15. Bioactive Compost: An approach for managing plant growth in environmentally stressed soils -- Chapter 16. Seed priming: Implicationin Agriculture to Manage Salinity Stress in Crops -- Chapter 17. Application of nano-particles in agriculture as fertilizers and pesticides: challenges and opportunities -- Chapter 18. Phenomics assisted breeding: An emerging way for stress management -- Chapter 19. Prediction of Climate Change using Statistical Downscaling Techniques -- Part 2. Improving crops resistance to biotic stress -- Chapter 20. Microbial Bio-agents in Agriculture: Current status and Prospects -- Chapter 21. Application of plant-volatile mediated signalingin sustainable agriculture -- Chapter 22. Biological host response: a paradigm and strategy to overcome biotic stress caused by powdery mildew causalagents in plants -- Chapter 23. CRISPR/Cas9-edited rice: a new frontier for sustainable agriculture -- Part 3. Research highlights in different crops -- Chapter 24. Agronomic Interventions for Drought Management in Crops -- Chapter 25. Flower crops response to biotic and abiotic stresses -- Chapter 26. Begomovirus menance and its management in vegetable crops -- Chapter 27. Management of abiotic stresses in vegetable crops -- Chapter 28. Realizing the potential of coastal flood-prone areas for rice production in West Bengal: prospects and challenges -- Chapter 29. Mechanisms of abiotic stress tolerance and their management strategies in fruit crops -- Chapter 30. Biotic Stress Management in Rice (Oryza sativa L.) through Conventional and Molecular Approaches -- Chapter 31. System of Assured Rice Production in kharif: A resource-conserving and climate-resilient methodology for higher productivity and profitability. . Tipo de medio : Computadora Summary : Using accessible farming practices to meet the growing demands on agriculture is likely to result in more intense competition for natural resources, increased greenhouse gas emissions, and further deforestation and land degradation, which will in turn produce additional stress in the soil-water-plant-animal continuum. Stress refers to any unfavorable force or condition that inhibits customary functioning in plants. Concurrent manifestations of different stresses (biotic and abiotic) are very frequent in the environment of plants, which consequently reduces yield. Better understanding stress not only changes our perspective on the current environment, but can also bring a wealth of benefits, like improving sustainable agriculture and human beings' living standards. Innovative systems are called for that protect and enhance the natural resource base, while increasing productivity via 'holistic' approaches, such as agroecology, agro-forestry, climate-smart agriculture and conservation agriculture, which also incorporate indigenous and traditional knowledge. The book 'New Frontiers in Stress Management for Durable Agriculture' details the current state of knowledge and highlights scientific advances concerning novel aspects of plant biology research on stress, biotic and abiotic stress responses, as well as emergent amelioration and reclamation technologies to restore normal functioning in agroecology. . Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...]
TÃtulo : Soil Analysis: Recent Trends and Applications Tipo de documento: documento electrónico Autores: Rakshit, Amitava, ; Ghosh, Subhadip, ; Chakraborty, Somsubhra, ; Philip, Varughese, ; Datta, Avishek, Mención de edición: 1 ed. Editorial: Singapore [Malasia] : Springer Fecha de publicación: 2020 Número de páginas: XV, 338 p. 104 ilustraciones, 80 ilustraciones en color. ISBN/ISSN/DL: 978-981-1520396-- 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: Agricultura quÃmica botánica BiologÃa ciencia del suelo BioquÃmica vegetal Técnicas biológicas Clasificación: 630 Agricultura tecnologías relacionadas Resumen: El análisis del suelo es de vital importancia en la gestión de los sistemas de producción basados ​​en el suelo. En ausencia de métodos eficientes de análisis de suelos, nuestra comprensión del suelo es pura conjetura. Idealmente, el uso proactivo de los análisis de laboratorio conduce a una productividad del suelo más sostenible. Desgraciadamente, la mayor parte de la agricultura mundial sigue siendo reaccionaria y espera que se produzcan descensos evidentes en los rendimientos antes de tomar medidas para identificar las razones. El laboratorio de suelos moderno es fundamental para informar a los administradores de suelos qué prácticas de adaptación se necesitan para abordar los desequilibrios quÃmicos y fÃsicos antes de que ocurran, y el uso adaptativo inteligente de los datos de laboratorio no sólo acelera y reduce en gran medida el costo del estudio empÃrico del suelo, sino que incluso puede hacerlo innecesario. Este libro proporciona una sinopsis de los procedimientos analÃticos utilizados para el análisis de suelos, analizando los métodos analÃticos fÃsicos, quÃmicos y biológicos comunes utilizados en la agricultura y la horticultura. Escrito por expertos experimentados de instituciones y laboratorios de todo el mundo, proporciona información para una variedad de usuarios, incluidos aquellos con instalaciones de laboratorio limitadas, y ayuda a estudiantes, profesores, cientÃficos del suelo y técnicos de laboratorio a aumentar sus conocimientos y habilidades y a seleccionar métodos apropiados para el suelo. análisis. Nota de contenido: Chapter 1. Soil Analysis: A Relook and Way Forward -- Chapter 2. Application of Statistical Techniques in Soil Research -- Chapter 3. Monitoring and impact assessment of climate change on agriculture using advanced research techniques -- Chapter 4. Advancement in Soil Testing with New Age Sensors: Indian Perspective -- Chapter 5. Isotopes and Tracer Techniques for Soil Analysis -- Chapter 6. Protocols for determination and evaluation of organic carbon pools in soils developed under contrasting pedogenic processes and subjected to varying management situations -- Chapter 7. Analytical strategies for arsenic estimation -- Chapter 8. Approach to Study Clay-Organic Complexes -- Chapter 9. Recent trends in soil salinity appraisal and management -- Chapter 10. Modern Sample Preparation Techniques for Pesticide Residues Analysis in Soil -- Chapter 11. Characterization of nanomaterials using different techniques -- Chapter 12. Soil Health Assessment -- Chapter 13. Soil health indicators: Methods and applications -- Chapter 14. Indexing methods of soil quality in agroecosystems- An overview of Indian soils and beyond -- Chapter 15. Nanobiosensors: Recent Developments in Soil Health Assessment -- Chapter 16. Forensic Pedology: From Soil Trace Evidence to Courtroom -- Chapter 17. Harnessing soil microbiomes for creating healthy and functional urban landscapes'. Tipo de medio : Computadora Summary : Soil analysis is critically important in the management of soil-based production systems. In the absence of efficient methods of soil analysis our understanding of soil is pure guesswork. Ideally the pro-active use of laboratory analysis leads to more sustainable soil productivity. Unfortunately, most of the world's agriculture is still reactionary, waiting for obvious yield declines to occur before taking action to identify the reasons. The modern soil laboratory is pivotal to informing soil managers what adaptive practices are needed to address chemical and physical imbalances before they occur, and the intelligent adaptive use of laboratory data not only greatly speeds up and reduces the cost of empirical soil study, but can even render it unnecessary. This book provides a synopsis of the analytical procedures used for soil analysis, discussing the common physical, chemical and biological analytical methods used in agriculture and horticulture. Written by experienced experts from institutions and laboratories around the globe, it provides insights for a range of users, including those with limited laboratory facilities, and helps students, teachers, soil scientists and laboratory technicians increase their knowledge and skills and select appropriate methods for soil analysis. Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] Soil Analysis: Recent Trends and Applications [documento electrónico] / Rakshit, Amitava, ; Ghosh, Subhadip, ; Chakraborty, Somsubhra, ; Philip, Varughese, ; Datta, Avishek, . - 1 ed. . - Singapore [Malasia] : Springer, 2020 . - XV, 338 p. 104 ilustraciones, 80 ilustraciones en color.
ISBN : 978-981-1520396--
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: Agricultura quÃmica botánica BiologÃa ciencia del suelo BioquÃmica vegetal Técnicas biológicas Clasificación: 630 Agricultura tecnologías relacionadas Resumen: El análisis del suelo es de vital importancia en la gestión de los sistemas de producción basados ​​en el suelo. En ausencia de métodos eficientes de análisis de suelos, nuestra comprensión del suelo es pura conjetura. Idealmente, el uso proactivo de los análisis de laboratorio conduce a una productividad del suelo más sostenible. Desgraciadamente, la mayor parte de la agricultura mundial sigue siendo reaccionaria y espera que se produzcan descensos evidentes en los rendimientos antes de tomar medidas para identificar las razones. El laboratorio de suelos moderno es fundamental para informar a los administradores de suelos qué prácticas de adaptación se necesitan para abordar los desequilibrios quÃmicos y fÃsicos antes de que ocurran, y el uso adaptativo inteligente de los datos de laboratorio no sólo acelera y reduce en gran medida el costo del estudio empÃrico del suelo, sino que incluso puede hacerlo innecesario. Este libro proporciona una sinopsis de los procedimientos analÃticos utilizados para el análisis de suelos, analizando los métodos analÃticos fÃsicos, quÃmicos y biológicos comunes utilizados en la agricultura y la horticultura. Escrito por expertos experimentados de instituciones y laboratorios de todo el mundo, proporciona información para una variedad de usuarios, incluidos aquellos con instalaciones de laboratorio limitadas, y ayuda a estudiantes, profesores, cientÃficos del suelo y técnicos de laboratorio a aumentar sus conocimientos y habilidades y a seleccionar métodos apropiados para el suelo. análisis. Nota de contenido: Chapter 1. Soil Analysis: A Relook and Way Forward -- Chapter 2. Application of Statistical Techniques in Soil Research -- Chapter 3. Monitoring and impact assessment of climate change on agriculture using advanced research techniques -- Chapter 4. Advancement in Soil Testing with New Age Sensors: Indian Perspective -- Chapter 5. Isotopes and Tracer Techniques for Soil Analysis -- Chapter 6. Protocols for determination and evaluation of organic carbon pools in soils developed under contrasting pedogenic processes and subjected to varying management situations -- Chapter 7. Analytical strategies for arsenic estimation -- Chapter 8. Approach to Study Clay-Organic Complexes -- Chapter 9. Recent trends in soil salinity appraisal and management -- Chapter 10. Modern Sample Preparation Techniques for Pesticide Residues Analysis in Soil -- Chapter 11. Characterization of nanomaterials using different techniques -- Chapter 12. Soil Health Assessment -- Chapter 13. Soil health indicators: Methods and applications -- Chapter 14. Indexing methods of soil quality in agroecosystems- An overview of Indian soils and beyond -- Chapter 15. Nanobiosensors: Recent Developments in Soil Health Assessment -- Chapter 16. Forensic Pedology: From Soil Trace Evidence to Courtroom -- Chapter 17. Harnessing soil microbiomes for creating healthy and functional urban landscapes'. Tipo de medio : Computadora Summary : Soil analysis is critically important in the management of soil-based production systems. In the absence of efficient methods of soil analysis our understanding of soil is pure guesswork. Ideally the pro-active use of laboratory analysis leads to more sustainable soil productivity. Unfortunately, most of the world's agriculture is still reactionary, waiting for obvious yield declines to occur before taking action to identify the reasons. The modern soil laboratory is pivotal to informing soil managers what adaptive practices are needed to address chemical and physical imbalances before they occur, and the intelligent adaptive use of laboratory data not only greatly speeds up and reduces the cost of empirical soil study, but can even render it unnecessary. This book provides a synopsis of the analytical procedures used for soil analysis, discussing the common physical, chemical and biological analytical methods used in agriculture and horticulture. Written by experienced experts from institutions and laboratories around the globe, it provides insights for a range of users, including those with limited laboratory facilities, and helps students, teachers, soil scientists and laboratory technicians increase their knowledge and skills and select appropriate methods for soil analysis. Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...]
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 [Malasia] : 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. Idioma : Inglés (eng) Palabras clave: ciencia del suelo Agricultura AgronomÃa Clasificación: 631.4 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-à -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. Tipo de medio : Computadora Summary : This compilation has been designed to provide a comprehensive source of theoretical and practical update for scientists working in the broad field of soil science. The book explores all possible mechanisms and means to improve nutrient use efficiencies involving developing and testing of nanofertilizers, developing consortia based microbial formulations for mobilization of soil nutrients, and engineering of nutrient efficient crops using molecular biology and biotechnological tools. This is an all-inclusive collection of information about soil science. This book is of interest to teachers, researchers, soil scientists, capacity builders and policymakers. Also the book serves as additional reading material for undergraduate and graduate students of soil science, quantitative ecology, earth sciences, GIS and geodetic sciences, as well as geologists, geomorphologists, hydrologists and landscape ecology. National and international agriculture and soil scientists, policy makers will also find this to be a useful read. Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...] Soil Science: Fundamentals to Recent Advances [documento electrónico] / Rakshit, Amitava, ; Singh, S.K, ; Abhilash, P.C, ; Biswas, Asim, . - 1 ed. . - Singapore [Malasia] : 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.
Idioma : Inglés (eng)
Palabras clave: ciencia del suelo Agricultura AgronomÃa Clasificación: 631.4 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-à -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. Tipo de medio : Computadora Summary : This compilation has been designed to provide a comprehensive source of theoretical and practical update for scientists working in the broad field of soil science. The book explores all possible mechanisms and means to improve nutrient use efficiencies involving developing and testing of nanofertilizers, developing consortia based microbial formulations for mobilization of soil nutrients, and engineering of nutrient efficient crops using molecular biology and biotechnological tools. This is an all-inclusive collection of information about soil science. This book is of interest to teachers, researchers, soil scientists, capacity builders and policymakers. Also the book serves as additional reading material for undergraduate and graduate students of soil science, quantitative ecology, earth sciences, GIS and geodetic sciences, as well as geologists, geomorphologists, hydrologists and landscape ecology. National and international agriculture and soil scientists, policy makers will also find this to be a useful read. Enlace de acceso : https://link-springer-com.biblioproxy.umanizales.edu.co/referencework/10.1007/97 [...]
