Forest Dynamics and Conservation: Science, Innovations and Policies
Editat de Manoj Kumar, Shalini Dhyani, Naveen Kalraen Limba Engleză Hardback – 17 mai 2022
Forest ecosystems are rapidly changing due to forest fires, deforestation, urbanization, climate change, and other natural and anthropogenic drivers. Understanding the dynamics of forest ecosystems requires contemporary methods and measures, utilizing modern tools and big data for developing effective conservation plans. The book also covers discussion on policies for sustainable forestry, agroforestry, environmental governance, socio-ecology, nature-based solutions, and management implication.
It is suitable for a wide range of readers working in the field of scientific forestry, policy making, and forest management. In addition, it is a useful material for postgraduate and research students of forestry sciences.
Toate formatele și edițiile | Preț | Express |
---|---|---|
Paperback (1) | 775.07 lei 6-8 săpt. | |
Springer Nature Singapore – 18 mai 2023 | 775.07 lei 6-8 săpt. | |
Hardback (1) | 1208.05 lei 6-8 săpt. | |
Springer Nature Singapore – 17 mai 2022 | 1208.05 lei 6-8 săpt. |
Preț: 1208.05 lei
Preț vechi: 1473.22 lei
-18% Nou
Puncte Express: 1812
Preț estimativ în valută:
231.22€ • 242.57$ • 191.81£
231.22€ • 242.57$ • 191.81£
Carte tipărită la comandă
Livrare economică 29 ianuarie-12 februarie 25
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9789811900709
ISBN-10: 9811900701
Pagini: 480
Ilustrații: XXV, 480 p. 1 illus.
Dimensiuni: 155 x 235 mm
Greutate: 0.89 kg
Ediția:1st ed. 2022
Editura: Springer Nature Singapore
Colecția Springer
Locul publicării:Singapore, Singapore
ISBN-10: 9811900701
Pagini: 480
Ilustrații: XXV, 480 p. 1 illus.
Dimensiuni: 155 x 235 mm
Greutate: 0.89 kg
Ediția:1st ed. 2022
Editura: Springer Nature Singapore
Colecția Springer
Locul publicării:Singapore, Singapore
Cuprins
Chapter 1. Protecting forest structure and functions for resilience and sustainability concerns in the changing world.- Chapter 2. Understanding the drivers of forest degradation.- Chapter 3. The so-called modern ‘sustainable forestry’ destroys wilderness, old-growth forest landscapes and ecological services world-wide: A short first-hand review and global narrative on the use of ‘growth-and-yield’ as a destructive and even impossible goal.- Chapter 4. Gangetic Plains of India: High on the water and air pollution map.- Chapter 5. Understanding wildfires and designing a sustainable future by solutions based on forest-society relationships.- Chapter 6. Is the gender agenda of Nepal’s Community Forestry at risk due to commercial transitions.- Chapter 7. Diversity of forest genes: Impacts on the structure and function of soil ecosystems under changing climate.- Chapter 8. Plant-herbivorous insect interactions in forest ecosystems: overview and perspectives to mitigate losses.- Chapter 9. Beyond the biophysical: contribution of community forestry in building socio-ecological resilience.- Chapter 10. Biodiversity and Biomass Carbon Dynamics: Insights from Long-Term Monitoring in the Western Ghats.- Chapter 11. Peri-urban protected forests in peril: Insights from case studies in two Indian megacities.- Chapter 12. Mapping the extent of invasive species – An assessment based on high-resolution data for selected species in parts of Eastern Himalaya in Sikkim.- Chapter 13. Groundwater Dependent Vegetation to address the loss of ecosystems dependent on groundwater resources.- Chapter 14. Groundwater Dependent Vegetation to address the loss of ecosystems dependent on groundwater resources.- Chapter 15. Application of dynamic vegetation models for climate change impact studies.- Chapter 16. Agroforestry approaches in the restoration of peatland landscapes in Central Kalimantan, Indonesia.- Chapter 17. SmarteR approach for the mapping of invasive plant species.- Chapter 18. Mapping and identification of trees using semantic segmentation deep learning neural network.- Chapter 19. Application of biophysical, soil, and vegetation indices to better understand forest dynamics and develop strategies for forest conservation.- Chapter 20. Emission Reductions Program for Addressing Drivers of Deforestation and Forest Degradation: An insight from the Terai Arc Landscape in Southern Nepal.- Chapter 21. Public Interests and Private Incentives in Designing an Ecological Payment Systems.- Chapter 22. Awareness and conservation program at an ecotourism site in Langkawi Island, Malaysia.
Notă biografică
Dr. Manoj Kumar
Dr. Manoj Kumar is scientist and Incharge of the GIS center at Forest Research Institute (FRI), Dehradun, India. Dr. Kumar primarily works in the field of forestry, environment, climate change, and related interdisciplinary fields with wider applications of information technology, remote sensing, and GIS tools. He has research experience of more than 15 years. He has initiated work on developing forest growth simulation models to study the functional relationship of forests with the surrounding environment, which could be used for climate change impact studies. He has successfully implemented more than 20 research projects funded by national and international agencies.
Dr. Shalini Dhyani
Dr. Shalini Dhyani is a senior scientist with the Critical Zone Research Group of Water Technology and Management Division at CSIR-NEERI, India. She is the South Asia regional chair for IUCN CEM (Commission on Ecosystems Management) and alsoserves as the lead author for IPBES assessment on Sustainable Use of Wild Species (2018–21). She is a skilled ecologist with more than 17 years of strong experience in forest ecology, climate change impact on forests, nature-based solutions, and eco-restoration. She received the first “IUCN-CEM Chair Young Professional Award” for her excellent research and publications on forests of the Himalayas.
Dr. Naveen Kalra
Dr. Naveen Kalra worked as a Scientist with the Indian Agricultural Research Institute (IARI), Delhi, for almost 40 years. He is now actively engaged in developing growth models for yield forecasting in the California growing region working with the University of Waterloo, Ontario, Canada. He was instrumental in initiating simulation and advance computing for the agriculture and forestry sector in India. He primarily works in the broader domains of soil physics, soil and water conservation, climate change and its variability, climate change impact assessment for agriculture and forestry sectors, simulation modelling, and machine learning applications.
Dr. Manoj Kumar is scientist and Incharge of the GIS center at Forest Research Institute (FRI), Dehradun, India. Dr. Kumar primarily works in the field of forestry, environment, climate change, and related interdisciplinary fields with wider applications of information technology, remote sensing, and GIS tools. He has research experience of more than 15 years. He has initiated work on developing forest growth simulation models to study the functional relationship of forests with the surrounding environment, which could be used for climate change impact studies. He has successfully implemented more than 20 research projects funded by national and international agencies.
Dr. Shalini Dhyani
Dr. Shalini Dhyani is a senior scientist with the Critical Zone Research Group of Water Technology and Management Division at CSIR-NEERI, India. She is the South Asia regional chair for IUCN CEM (Commission on Ecosystems Management) and alsoserves as the lead author for IPBES assessment on Sustainable Use of Wild Species (2018–21). She is a skilled ecologist with more than 17 years of strong experience in forest ecology, climate change impact on forests, nature-based solutions, and eco-restoration. She received the first “IUCN-CEM Chair Young Professional Award” for her excellent research and publications on forests of the Himalayas.
Dr. Naveen Kalra
Dr. Naveen Kalra worked as a Scientist with the Indian Agricultural Research Institute (IARI), Delhi, for almost 40 years. He is now actively engaged in developing growth models for yield forecasting in the California growing region working with the University of Waterloo, Ontario, Canada. He was instrumental in initiating simulation and advance computing for the agriculture and forestry sector in India. He primarily works in the broader domains of soil physics, soil and water conservation, climate change and its variability, climate change impact assessment for agriculture and forestry sectors, simulation modelling, and machine learning applications.
Textul de pe ultima copertă
This book unveils forestry science and its policy and management that connect past and present understanding of forests. The aggregated knowledge is presented to cover the approaches adopted in studying forest structure, its growth, functioning, and degradation, especially in the context of the surrounding environment. The application of advance computation, instrumentation, and modelling has been elaborated in various chapters.
Forest ecosystems are rapidly changing due to forest fires, deforestation, urbanization, climate change, and other natural and anthropogenic drivers. Understanding the dynamics of forest ecosystems requires contemporary methods and measures, utilizing modern tools and big data for developing effective conservation plans. The book also covers discussion on policies for sustainable forestry, agroforestry, environmental governance, socio-ecology, nature-based solutions, and management implication.
It is suitable for a wide range of readers working in the field of scientific forestry, policy making, and forest management. In addition, it is a useful material for postgraduate and research students of forestry sciences.
Forest ecosystems are rapidly changing due to forest fires, deforestation, urbanization, climate change, and other natural and anthropogenic drivers. Understanding the dynamics of forest ecosystems requires contemporary methods and measures, utilizing modern tools and big data for developing effective conservation plans. The book also covers discussion on policies for sustainable forestry, agroforestry, environmental governance, socio-ecology, nature-based solutions, and management implication.
It is suitable for a wide range of readers working in the field of scientific forestry, policy making, and forest management. In addition, it is a useful material for postgraduate and research students of forestry sciences.
Caracteristici
Presents application of machine learning and simulation to understand the future of forests Describes new methodologies and computations to study forest structure and growth Explores forest dynamics and surrounding environment with the help of case studies