Compendium of Regenerative Agriculture: A Guide to Sustainable and Resilient Production Systems
In a world grappling with the profound impacts of climate change and environmental degradation, the need for a transformative shift in our approach to agriculture has never been more urgent. While conventional farming has significantly increased our food supply, it has also contributed to climate ch...
| Main Authors: | , , , , , , , , , , , |
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| Format: | Informe técnico |
| Language: | Inglés |
| Published: |
International Crops Research Institute for the Semi-Arid Tropics
2024
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10568/168565 |
| _version_ | 1855527946828120064 |
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| author | Choudhari, Pushpajeet Pasumarthi, Rajesh Patil, Mukund Karanam, Padmaja Singh, Ramesh Sawargaonkar, Gajanan Garg, Kaushal Savan, Rakesh Kale, Santosh Behera, Biswanath Dihudi, Munmun Jat, Mangi L. |
| author_browse | Behera, Biswanath Choudhari, Pushpajeet Dihudi, Munmun Garg, Kaushal Jat, Mangi L. Kale, Santosh Karanam, Padmaja Pasumarthi, Rajesh Patil, Mukund Savan, Rakesh Sawargaonkar, Gajanan Singh, Ramesh |
| author_facet | Choudhari, Pushpajeet Pasumarthi, Rajesh Patil, Mukund Karanam, Padmaja Singh, Ramesh Sawargaonkar, Gajanan Garg, Kaushal Savan, Rakesh Kale, Santosh Behera, Biswanath Dihudi, Munmun Jat, Mangi L. |
| author_sort | Choudhari, Pushpajeet |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | In a world grappling with the profound impacts of climate change and environmental degradation, the need for a transformative shift in our approach to agriculture has never been more urgent. While conventional farming has significantly increased our food supply, it has also contributed to climate change through greenhouse gas emissions, soil depletion, and a decline in biodiversity. As the effects of these practices become increasingly evident, the call for more sustainable solutions grows louder. Enter regenerative agriculture—a beacon of hope and a promising path forward. This compendium offers a deep dive into the essence of regenerative agriculture, exploring its principles and practices and uncovering how it can address the complex challenges facing modern farming. Climate change, driven by human activities, has led to rising temperatures, erratic weather patterns, and more frequent extreme weather events. Agriculture, inherently connected to these climatic shifts, is particularly vulnerable. Traditional farming methods exacerbate these challenges by relying on intensive chemical inputs, monocultures, and soil-degrading practices. Livestock, rice paddies, and synthetic fertilizers release significant amounts of methane and nitrous oxide—potent greenhouse gases that intensify global warming. These conventional practices emit greenhouse gases and compromise soil health, diminishing its ability to sequester carbon and support productive agriculture. Against this backdrop of environmental strain, regenerative agriculture emerges as a transformative and hopeful vision. It invites us to reimagine agriculture not merely as a place of production but as a vibrant, interconnected ecosystem. By focusing on rejuvenating soil health, conserving water, and fostering biodiversity, regenerative practices offer a path to mitigate climate impacts and enhance food security. This shift is especially crucial in countries like India, where agriculture is not only a way of life but a lifeline for millions and where pressing issues such as water scarcity, soil degradation, and climate vulnerability demand urgent attention. At the heart of regenerative agriculture lies the understanding that soil is a living, breathing entity rich with microbial life—an essential foundation for agricultural productivity. Regenerative practices—such as minimizing soil disturbance, employing cover crops, and diversifying crop rotations—are designed to enhance soil health and resilience. These methods align with natural processes, harnessing the power of ecosystems to restore and sustain the land. Unlike industrial farming, which often depletes soil and biodiversity, regenerative agriculture aims to heal and balance our natural resources. This compendium delves into the fundamental principles of regenerative agriculture: minimizing soil disturbance, maximizing crop diversity, keeping soil covered, maintaining living roots year-round, and integrating livestock. Each principle is explored in depth, highlighting its significance for soil health, carbon sequestration, and farm resilience. By adopting a holistic perspective that transcends individual farm boundaries, regenerative agriculture fosters collaborative efforts to build resilient and sustainable food systems. This compendium reveals how regenerative agriculture can redefine our relationship with the land by comprehensively examining these principles. It underscores the necessity of moving beyond traditional practices and advocating for methods that sustain and enhance the health of our ecosystems. As we navigate the complexities of climate change and environmental degradation, regenerative agriculture offers a pathway to a more sustainable and resilient future. This compendium invites you to explore these transformative practices, appreciate their benefits, and envision a future where agriculture harmoniously coexists with the natural world, ensuring a healthier planet for future generations. |
| format | Informe técnico |
| id | CGSpace168565 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2024 |
| publishDateRange | 2024 |
| publishDateSort | 2024 |
| publisher | International Crops Research Institute for the Semi-Arid Tropics |
| publisherStr | International Crops Research Institute for the Semi-Arid Tropics |
| record_format | dspace |
| spelling | CGSpace1685652025-01-18T06:50:09Z Compendium of Regenerative Agriculture: A Guide to Sustainable and Resilient Production Systems Choudhari, Pushpajeet Pasumarthi, Rajesh Patil, Mukund Karanam, Padmaja Singh, Ramesh Sawargaonkar, Gajanan Garg, Kaushal Savan, Rakesh Kale, Santosh Behera, Biswanath Dihudi, Munmun Jat, Mangi L. agriculture regenerative agriculture climate change environmental degradation diversification In a world grappling with the profound impacts of climate change and environmental degradation, the need for a transformative shift in our approach to agriculture has never been more urgent. While conventional farming has significantly increased our food supply, it has also contributed to climate change through greenhouse gas emissions, soil depletion, and a decline in biodiversity. As the effects of these practices become increasingly evident, the call for more sustainable solutions grows louder. Enter regenerative agriculture—a beacon of hope and a promising path forward. This compendium offers a deep dive into the essence of regenerative agriculture, exploring its principles and practices and uncovering how it can address the complex challenges facing modern farming. Climate change, driven by human activities, has led to rising temperatures, erratic weather patterns, and more frequent extreme weather events. Agriculture, inherently connected to these climatic shifts, is particularly vulnerable. Traditional farming methods exacerbate these challenges by relying on intensive chemical inputs, monocultures, and soil-degrading practices. Livestock, rice paddies, and synthetic fertilizers release significant amounts of methane and nitrous oxide—potent greenhouse gases that intensify global warming. These conventional practices emit greenhouse gases and compromise soil health, diminishing its ability to sequester carbon and support productive agriculture. Against this backdrop of environmental strain, regenerative agriculture emerges as a transformative and hopeful vision. It invites us to reimagine agriculture not merely as a place of production but as a vibrant, interconnected ecosystem. By focusing on rejuvenating soil health, conserving water, and fostering biodiversity, regenerative practices offer a path to mitigate climate impacts and enhance food security. This shift is especially crucial in countries like India, where agriculture is not only a way of life but a lifeline for millions and where pressing issues such as water scarcity, soil degradation, and climate vulnerability demand urgent attention. At the heart of regenerative agriculture lies the understanding that soil is a living, breathing entity rich with microbial life—an essential foundation for agricultural productivity. Regenerative practices—such as minimizing soil disturbance, employing cover crops, and diversifying crop rotations—are designed to enhance soil health and resilience. These methods align with natural processes, harnessing the power of ecosystems to restore and sustain the land. Unlike industrial farming, which often depletes soil and biodiversity, regenerative agriculture aims to heal and balance our natural resources. This compendium delves into the fundamental principles of regenerative agriculture: minimizing soil disturbance, maximizing crop diversity, keeping soil covered, maintaining living roots year-round, and integrating livestock. Each principle is explored in depth, highlighting its significance for soil health, carbon sequestration, and farm resilience. By adopting a holistic perspective that transcends individual farm boundaries, regenerative agriculture fosters collaborative efforts to build resilient and sustainable food systems. This compendium reveals how regenerative agriculture can redefine our relationship with the land by comprehensively examining these principles. It underscores the necessity of moving beyond traditional practices and advocating for methods that sustain and enhance the health of our ecosystems. As we navigate the complexities of climate change and environmental degradation, regenerative agriculture offers a pathway to a more sustainable and resilient future. This compendium invites you to explore these transformative practices, appreciate their benefits, and envision a future where agriculture harmoniously coexists with the natural world, ensuring a healthier planet for future generations. 2024-11-13 2025-01-06T21:31:10Z 2025-01-06T21:31:10Z Report https://hdl.handle.net/10568/168565 en https://businessnewsthisweek.com/odisha/government-of-odisha-and-icrisat-launch-a-compendium-of-regenerative-agriculture/ Open Access application/pdf International Crops Research Institute for the Semi-Arid Tropics Choudhari, Pushpajeet; Pasumarthi, Rajesh; Patil, Mukund; Karanam, Padmaja; Singh, Ramesh; Sawargaonkar, Gajanan; Garg, Kaushal; Savan, Rakesh; Kale, Santosh; Behera, Biswanath; Dihudi, Munmun; Jat, Mangi L. 2024. Compendium of Regenerative Agriculture: A Guide to Sustainable and Resilient Production Systems |
| spellingShingle | agriculture regenerative agriculture climate change environmental degradation diversification Choudhari, Pushpajeet Pasumarthi, Rajesh Patil, Mukund Karanam, Padmaja Singh, Ramesh Sawargaonkar, Gajanan Garg, Kaushal Savan, Rakesh Kale, Santosh Behera, Biswanath Dihudi, Munmun Jat, Mangi L. Compendium of Regenerative Agriculture: A Guide to Sustainable and Resilient Production Systems |
| title | Compendium of Regenerative Agriculture: A Guide to Sustainable and Resilient Production Systems |
| title_full | Compendium of Regenerative Agriculture: A Guide to Sustainable and Resilient Production Systems |
| title_fullStr | Compendium of Regenerative Agriculture: A Guide to Sustainable and Resilient Production Systems |
| title_full_unstemmed | Compendium of Regenerative Agriculture: A Guide to Sustainable and Resilient Production Systems |
| title_short | Compendium of Regenerative Agriculture: A Guide to Sustainable and Resilient Production Systems |
| title_sort | compendium of regenerative agriculture a guide to sustainable and resilient production systems |
| topic | agriculture regenerative agriculture climate change environmental degradation diversification |
| url | https://hdl.handle.net/10568/168565 |
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