Description
Sustainable Goat Production in the Changing Climate
Coordinators: Sejian Veerasamy, Silpa M.V., Thirunavukkarasu D.
Language: English
Subjects for Sustainable Goat Production in the Changing Climate:
Publication date: 09-2024
375 p. · 15x22.8 cm · Paperback
375 p. · 15x22.8 cm · Paperback
Description
/li>Contents
/li>Biography
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Sustainable Goat Production in the Changing Climate aims to make the global scientific and academic communities aware of the potential of goats as a livestock of the future. When compared to more popular meat sources like cattle and swine, goats have a lower carbon footprint and can aid in mitigating the effects of climate change and even improve food production, poverty, and equity issues. The book provides insights into the implication of climate change on goat production systems in addition to emphasizing the physiological potential of goats to adapt towards erratically changing climatic conditions. Finally, some of the advanced technological interventions used to assess the impact of heat stress in goats is covered. Written and edited by an international team of experts on goats, livestock, animal agriculture, and climate-smart food systems, this book will appeal to a broad audience, from researchers and livestock specialists to veterinarians and policymakers in food and sustainability.
Section I: Climate Change and Goat welfare
1. Heat stress associated welfare indicators based on behavioural, physiological, endocrine, and biochemical response
2. Transportation of goats during summer season
Section II: Impact of Climate Change on Goat Production
3. Heat stress impact on growth performance in goats
4. Heat stress impact on reproductive performance in goats
5. Heat stress impact on meat characteristics and quality in goats
6. Climate change impact on products quality in goats
7. Heat stress impact on immune response in goats
8. Climate change associated nutritional stress on goat performance
9. Walking stress impact on goat production
10. Climate change associated water stress impact on goat production
11. Climate change associated disease occurrences in goats
Section III: Molecular mechanisms governing Goat Adaptation to climate change
12. Role of molecular chaperons governing heat stress response in goats
13. Heat stress mediated changes in the rumen microbiota in goats
14. Heat stress associated changes in the whole transcriptomics profile in goats
15. Epigenetic changes associated with goat adaptation
Section IV: Strategies to sustain goat production in the changing climate scenario
16. Enteric methane emission and strategies for mitigation in goats
17. Management strategies to sustain goat production
18. Challenges associated with controlling internal parasites in goats
19. Nutritional interventions to augment goat production
20. Biotechnological tools and genetic approaches to optimize goat production in changing climate scenario
21. Climate resistant technologies for goat production
22. Extension strategies in adaptation to climate change with a special reference to goat farming
23. Strengthening Climatic research-Extension-Farmers linkages to promote climate resilience goat production system
24. Climate change associated economic implications of goat farming and role of women in mitigating the effects
25. Adaptation of livestock services delivery system to mitigate the effects of climate change on goat farming
26. Policies upscaling for future goat production
Section V: Conclusion and Future Projections
27. Concluding remarks and future researchable priorities
1. Heat stress associated welfare indicators based on behavioural, physiological, endocrine, and biochemical response
2. Transportation of goats during summer season
Section II: Impact of Climate Change on Goat Production
3. Heat stress impact on growth performance in goats
4. Heat stress impact on reproductive performance in goats
5. Heat stress impact on meat characteristics and quality in goats
6. Climate change impact on products quality in goats
7. Heat stress impact on immune response in goats
8. Climate change associated nutritional stress on goat performance
9. Walking stress impact on goat production
10. Climate change associated water stress impact on goat production
11. Climate change associated disease occurrences in goats
Section III: Molecular mechanisms governing Goat Adaptation to climate change
12. Role of molecular chaperons governing heat stress response in goats
13. Heat stress mediated changes in the rumen microbiota in goats
14. Heat stress associated changes in the whole transcriptomics profile in goats
15. Epigenetic changes associated with goat adaptation
Section IV: Strategies to sustain goat production in the changing climate scenario
16. Enteric methane emission and strategies for mitigation in goats
17. Management strategies to sustain goat production
18. Challenges associated with controlling internal parasites in goats
19. Nutritional interventions to augment goat production
20. Biotechnological tools and genetic approaches to optimize goat production in changing climate scenario
21. Climate resistant technologies for goat production
22. Extension strategies in adaptation to climate change with a special reference to goat farming
23. Strengthening Climatic research-Extension-Farmers linkages to promote climate resilience goat production system
24. Climate change associated economic implications of goat farming and role of women in mitigating the effects
25. Adaptation of livestock services delivery system to mitigate the effects of climate change on goat farming
26. Policies upscaling for future goat production
Section V: Conclusion and Future Projections
27. Concluding remarks and future researchable priorities
Dr. Veerasamy Sejian (M.V.Sc., PhD.), is Dean, Rajiv Gandhi Institute of Veterinary Education and Research, Puducherry, India. He was previously Principal Scientist at ICAR-National Institute of Animal Nutrition and Physiology (NIANP), Bangalore, India. Dr. Sejian established the concept of “Multiple stresses impacting small ruminants. His current research focuses on identifying molecular markers for different environmental stresses in goats with the goal to develop agro-ecological zone specific thermo-tolerant breeds through metagenomic, transcriptomic and epigenetic changes associated approaches. Dr. Sejian has published 165 peer-reviewed articles, 119 book chapters, 285 invited/lead papers, 170 conference papers and 22 technical manuals, as well as three International Springer books. He was bestowed with Endeavour Research Fellowship by the Australian Government to pursue post doctorate at The University of Queensland, Australia. Dr. Sejian is also listed in world top 2% scientists by Stanford University, USA during the academic years 2020-2021 & 2021-2022. Sejian is also serving as Field Editor in Springer’s International Journal of Biometeorology, Associate Editor in Elsevier’s Small Ruminants Research and Academic Editor in PLOS Climate. He has guided 18 Masters and 3 PhD students.
Dr. M.V. Silpa (M.V.Sc) is a Research Assistant at the Institute of Animal Breeding and Genetics, Justus-Liebig-University, Giessen, Germany. Her research primarily focuses on linking animal genetics with heat stress, its impact on animal production, adaptation and assess thermo-tolerance, in goats and dairy cattle. She has been working on establishing the impact of heat stress on caprine skin using a holistic approach involving skin metagenomics, transcriptomics and epigenetics. She’s also working on assessing the impact of heat stress in dairy cattle under field condition. In her short research career, she has published over 13 peer-reviewed publications 34 book chapters, 8 p
Dr. M.V. Silpa (M.V.Sc) is a Research Assistant at the Institute of Animal Breeding and Genetics, Justus-Liebig-University, Giessen, Germany. Her research primarily focuses on linking animal genetics with heat stress, its impact on animal production, adaptation and assess thermo-tolerance, in goats and dairy cattle. She has been working on establishing the impact of heat stress on caprine skin using a holistic approach involving skin metagenomics, transcriptomics and epigenetics. She’s also working on assessing the impact of heat stress in dairy cattle under field condition. In her short research career, she has published over 13 peer-reviewed publications 34 book chapters, 8 p
- Explores the potential of goats as future livestock species for animal-origin foods
- Summarizes the impact of climate change on goats and goat production systems
- Proposes technological interventions, ranging from management to bio-technological solutions
- Identifies gaps in technology transfer activities and policymaking and provides solutions
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