Climate Change and Insect Biodiversity
Challenges and Implications
Herausgeber: Ali, Habib; Tahir, Muhammad Bilal; Hou, Youming
Climate Change and Insect Biodiversity
Challenges and Implications
Herausgeber: Ali, Habib; Tahir, Muhammad Bilal; Hou, Youming
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The book explains the significance of insect pests for evaluating climatic impacts on a wide range of ecological systems. It covers the effect of climate change on pollinators, and household and agricultural insect pests.
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The book explains the significance of insect pests for evaluating climatic impacts on a wide range of ecological systems. It covers the effect of climate change on pollinators, and household and agricultural insect pests.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 251
- Erscheinungstermin: 13. Dezember 2023
- Englisch
- Abmessung: 254mm x 178mm x 16mm
- Gewicht: 680g
- ISBN-13: 9781032448350
- ISBN-10: 1032448350
- Artikelnr.: 68716274
- Verlag: CRC Press
- Seitenzahl: 251
- Erscheinungstermin: 13. Dezember 2023
- Englisch
- Abmessung: 254mm x 178mm x 16mm
- Gewicht: 680g
- ISBN-13: 9781032448350
- ISBN-10: 1032448350
- Artikelnr.: 68716274
Habib Ali, PhD, is an esteemed researcher specializing in the field of entomology and insect pest control. With a strong academic background and a passion for scientific inquiry, he has made significant contributions to the field through his research work. He earned a doctorate in agricultural entomology and insect pest control, providing him with a solid foundation for his future endeavors. Youming Hou, PhD, is a Distinguished Professor in the Plant Protection Department, Fujian Agriculture and Forestry University, Fuzhou, China. He also serves as Dean of the College of Plant Protection, Deputy Director of State Key Laboratory, Director of Key Laboratory of Ministry of Education and Fujian Entomological Ecology, and Innovation Chief Scientist of the Ministry of Agriculture in Fujian-Taiwan Crop pest disaster mechanism and control. Muhammad Bilal Tahir, PhD, is a researcher at Khawaja Fareed University of Engineering and Technology, Rahim Yar Khan (KFUEIT), and is currently working on nanotechnology for material processing, photocatalysis, energy and environmental applications, colloids, and surfactants. His initial work was on photocatalysis-based processes for decontamination of pollutants, adsorption of heavy metals in water and oil, and energy production.
1. Overview of Precision and Climate-Smart Agriculture: Challenges and
Solutions. 2. Plant Receptor Interaction with Herbivore-Associated
Elicitors: Mechanisms and Implications for Insect Herbivory-Induced
Defense. 3. Insect Biodiversity Informatics: Conservation and Decline. 4.
Understanding Anthropogenic Climate Change, Its Consequences on Insect
Pests, and Techniques in Forecasting and Monitoring Pest Dynamics: A
Contemporary Scenario. 5. Climate Change and Insect Pathogens. 6. Climate
Change and Agricultural Intensification Influence on Insect Biodiversity.
7. Potential Impacts of Climate Change on Insect Behaviour. 8. Insect
Population Dynamics and Climate Change. 9. Climate Change and Biological
Control in Agricultural Systems: Principles and Practices. 10. Climate
Change and Biodiversity of Beneficial and Social Insects. 11. Effect of
Climate Change on Insect Pollinator. 12. Climate Change and Household
Insect Pests. 13. Climate Change and Agricultural Insect Pests. 14.
Climate-Smart Agriculture: An Integrated Approach to Address Climate Change
and Food Security.
Solutions. 2. Plant Receptor Interaction with Herbivore-Associated
Elicitors: Mechanisms and Implications for Insect Herbivory-Induced
Defense. 3. Insect Biodiversity Informatics: Conservation and Decline. 4.
Understanding Anthropogenic Climate Change, Its Consequences on Insect
Pests, and Techniques in Forecasting and Monitoring Pest Dynamics: A
Contemporary Scenario. 5. Climate Change and Insect Pathogens. 6. Climate
Change and Agricultural Intensification Influence on Insect Biodiversity.
7. Potential Impacts of Climate Change on Insect Behaviour. 8. Insect
Population Dynamics and Climate Change. 9. Climate Change and Biological
Control in Agricultural Systems: Principles and Practices. 10. Climate
Change and Biodiversity of Beneficial and Social Insects. 11. Effect of
Climate Change on Insect Pollinator. 12. Climate Change and Household
Insect Pests. 13. Climate Change and Agricultural Insect Pests. 14.
Climate-Smart Agriculture: An Integrated Approach to Address Climate Change
and Food Security.
1. Overview of Precision and Climate-Smart Agriculture: Challenges and
Solutions. 2. Plant Receptor Interaction with Herbivore-Associated
Elicitors: Mechanisms and Implications for Insect Herbivory-Induced
Defense. 3. Insect Biodiversity Informatics: Conservation and Decline. 4.
Understanding Anthropogenic Climate Change, Its Consequences on Insect
Pests, and Techniques in Forecasting and Monitoring Pest Dynamics: A
Contemporary Scenario. 5. Climate Change and Insect Pathogens. 6. Climate
Change and Agricultural Intensification Influence on Insect Biodiversity.
7. Potential Impacts of Climate Change on Insect Behaviour. 8. Insect
Population Dynamics and Climate Change. 9. Climate Change and Biological
Control in Agricultural Systems: Principles and Practices. 10. Climate
Change and Biodiversity of Beneficial and Social Insects. 11. Effect of
Climate Change on Insect Pollinator. 12. Climate Change and Household
Insect Pests. 13. Climate Change and Agricultural Insect Pests. 14.
Climate-Smart Agriculture: An Integrated Approach to Address Climate Change
and Food Security.
Solutions. 2. Plant Receptor Interaction with Herbivore-Associated
Elicitors: Mechanisms and Implications for Insect Herbivory-Induced
Defense. 3. Insect Biodiversity Informatics: Conservation and Decline. 4.
Understanding Anthropogenic Climate Change, Its Consequences on Insect
Pests, and Techniques in Forecasting and Monitoring Pest Dynamics: A
Contemporary Scenario. 5. Climate Change and Insect Pathogens. 6. Climate
Change and Agricultural Intensification Influence on Insect Biodiversity.
7. Potential Impacts of Climate Change on Insect Behaviour. 8. Insect
Population Dynamics and Climate Change. 9. Climate Change and Biological
Control in Agricultural Systems: Principles and Practices. 10. Climate
Change and Biodiversity of Beneficial and Social Insects. 11. Effect of
Climate Change on Insect Pollinator. 12. Climate Change and Household
Insect Pests. 13. Climate Change and Agricultural Insect Pests. 14.
Climate-Smart Agriculture: An Integrated Approach to Address Climate Change
and Food Security.