Genetically Modified and other Innovative Vector Control Technologies
portes grátis
Genetically Modified and other Innovative Vector Control Technologies
Eco-bio-social Considerations for Safe Application
Tyagi, Brij Kishore
Springer Verlag, Singapore
12/2021
449
Dura
Inglês
9789811629631
15 a 20 dias
962
Descrição não disponível.
Chapter 1. Arthropod disease vectors: Genetic manipulations and other innovative technologies for mosquito control, with emphasis on eco-bio-social considerations.- Chapter 2. Field trials of gene drive mosquitoes: Lessons from releases of genetically sterile males and Wolbachia-infected mosquitoes.- Chapter 3. Genetic improvements to the Sterile Insect Technique (SIT) for the control of mosquito population.- Chapter 4. Advances in Aedes mosquito vector control strategies using CRISPR/Cas9.- Chapter 5. Evaluation of transgenic Aedes aegypti L. strain in India - A friendly mosquito.- Chapter 6. Three decades of malaria vector control in Sudan: The plausible role of Sterile Insect Technique (SIT).- Chapter 7. Perspectives into genetic manipulations for control of dengue vector (Aedes aegypti Linnaeus, 1762) with reference to progress in Indian experiments.- Chapter 8. Overcoming the dengue challenges using Innovative Strategy: The Malaysian experience.- Chapter 9. Malaria control in Africa using vector genetic manipulation.- Chapter 10. RNA interference based technologies to control dengue vector mosquitoes.- Chapter 11. Wolbachia: Biological control strategy against arboviral diseases.- Chapter 12. Wolbachia endosymbiont and mosquito vectors, with emphasis on lymphatic filariasis elimination.- Chapter 13. Laboratory biosafety in handling genetically modified mosquitoes.- Chapter 14. Novel diagnosis and control of arboviruses.- Chapter 15. Long lasting insecticidal nets: an evidence-based technology for malaria vector control and future perspectives.- Chapter 16. Novel development of an indigenous Long Lasting Insecticide Bednet (LLIN) to defend against the hematophagous arthropods.- Chapter 17. Nanotechnology and Polymer Science: A novel approach in vector control.- Chapter 18. Nano-sized emulsion system: A comprehensive tool towards controlling vectormosquito Populations.- Chapter 19. DEPA (- N, N-Diethyl Phenyl Acetamide) - Commercial journey of India's first indigenous mosquito repellent with novel properties.- Chapter 20. Remote Sensing and Geographic Information Technology in novel vector control.- Chapter 21. Social and ecological factors responsible for changing habitat of Kala-azar vector (Phlebotomus argentines) and its control through locally innovated environment-friendly technology.- Chapter 22. Safety assessment of novel genetic technologies for vector control: National and international perspectives.- Chapter 23. Measuring public attitudes to releases of transgenic mosquitoes for disease control, with special reference to dengue and malaria.- Chapter 24. Safe application of genetically modified mosquito (GMM) to combat dengue and chikungunya depends on socio-economic status and social acceptance in the developing countries: A comprehensive analysis.- Chapter 25. Experiences and outcomes from a worldwide training programme on genetically modified vectors (GMVs) related biosafety for human health and the environment.-
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Vector-borne diseases;Medical entomology;Transgenesis and paratransgenesis;Genetic transformation;Dengue;Malaria
Chapter 1. Arthropod disease vectors: Genetic manipulations and other innovative technologies for mosquito control, with emphasis on eco-bio-social considerations.- Chapter 2. Field trials of gene drive mosquitoes: Lessons from releases of genetically sterile males and Wolbachia-infected mosquitoes.- Chapter 3. Genetic improvements to the Sterile Insect Technique (SIT) for the control of mosquito population.- Chapter 4. Advances in Aedes mosquito vector control strategies using CRISPR/Cas9.- Chapter 5. Evaluation of transgenic Aedes aegypti L. strain in India - A friendly mosquito.- Chapter 6. Three decades of malaria vector control in Sudan: The plausible role of Sterile Insect Technique (SIT).- Chapter 7. Perspectives into genetic manipulations for control of dengue vector (Aedes aegypti Linnaeus, 1762) with reference to progress in Indian experiments.- Chapter 8. Overcoming the dengue challenges using Innovative Strategy: The Malaysian experience.- Chapter 9. Malaria control in Africa using vector genetic manipulation.- Chapter 10. RNA interference based technologies to control dengue vector mosquitoes.- Chapter 11. Wolbachia: Biological control strategy against arboviral diseases.- Chapter 12. Wolbachia endosymbiont and mosquito vectors, with emphasis on lymphatic filariasis elimination.- Chapter 13. Laboratory biosafety in handling genetically modified mosquitoes.- Chapter 14. Novel diagnosis and control of arboviruses.- Chapter 15. Long lasting insecticidal nets: an evidence-based technology for malaria vector control and future perspectives.- Chapter 16. Novel development of an indigenous Long Lasting Insecticide Bednet (LLIN) to defend against the hematophagous arthropods.- Chapter 17. Nanotechnology and Polymer Science: A novel approach in vector control.- Chapter 18. Nano-sized emulsion system: A comprehensive tool towards controlling vectormosquito Populations.- Chapter 19. DEPA (- N, N-Diethyl Phenyl Acetamide) - Commercial journey of India's first indigenous mosquito repellent with novel properties.- Chapter 20. Remote Sensing and Geographic Information Technology in novel vector control.- Chapter 21. Social and ecological factors responsible for changing habitat of Kala-azar vector (Phlebotomus argentines) and its control through locally innovated environment-friendly technology.- Chapter 22. Safety assessment of novel genetic technologies for vector control: National and international perspectives.- Chapter 23. Measuring public attitudes to releases of transgenic mosquitoes for disease control, with special reference to dengue and malaria.- Chapter 24. Safe application of genetically modified mosquito (GMM) to combat dengue and chikungunya depends on socio-economic status and social acceptance in the developing countries: A comprehensive analysis.- Chapter 25. Experiences and outcomes from a worldwide training programme on genetically modified vectors (GMVs) related biosafety for human health and the environment.-
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.