Phytoremediation Potential of Bioenergy Plants
The “Phytoremediation-Cellulosic Biofuels” (PCB) process will be socially beneficial through reducing pollution impacts on people, ecologically beneficial through pollution abatement, and economically viable through providing revenue that supplies an energy source that is renewable and also provides...
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| Format: | eBook |
| Language: | English |
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Singapore
Springer Nature Singapore
2017, 2017
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| Edition: | 1st ed. 2017 |
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| Online Access: | |
| Collection: | Springer eBooks 2005- - Collection details see MPG.ReNa |
Table of Contents:
- Chapter 9.Efficiency of an industrially important crop Hibiscus cannabinus for phytoremediation and bioenergy production (Neha Vishnoi)
- Chapter 10. Canabis sativa: A plant suitable for Phytoremediation and Bioenergy production (Sanjeev Kumar)
- Chapter 11. Phytoremediation and bioenergy production efficiency of medicinal and aromatic plants (Jisha C.K.)
- Chapter 12. A sustainable approach to clean contaminated land using terrestrial grasses (Anju Patel)
- Chapter 13. Macrophytes for the reclamation of degraded water bodies with potential for bio-energy production (Sangeeta Anand)
- Chapter 14. Efficiency of bioenergy plant in phytoremediation of saline and sodic soil (Priyanka Bharti)
- Chapter 15. Managing waste dumpsites through energy plantations (Vimal Chandra Pandey)
- Chapter 16. Biotechnological intervention to enhance the potential ability of bioenergy plants for phytoremediation (Gulshan Singh)
- Chapter 1. Phytoremediation: A multidimensional and ecologically viable practice for the cleanup of environmental contaminants (Poulomi Chakravarty)
- Chapter 2. Bioenergy: A sustainable approach for cleaner environment (Abhishek Guldhe)
- Chapter 3. Phytoremediation of Heavy Metal Contaminated Soil using Bioenergy Crops (Ambuj Bhushan Jha)
- Chapter 4. PHYTOREMEDIATION OF SOIL CONTAMINANTS BY BIODIESEL PLANT Jatropha curcas (Abioye OP)
- Chapter 5. Ricinus Communis: An ecological engineer and a biofuel resource (Dhananjay Kumar)
- Chapter 6. Bioenergy and Phytoremediation Potential of Millettia pinnata (Dipesh kumar)
- Chapter 7. PHYTOREMEDIATION POTENTIAL OF Leucaena leucocephala (Lam.) de Wit. FOR HEAVY METAL POLLUTED AND DEGRADED ENVIRONMENTS (Jamilu Edrisa Ssenku)
- Chapter 8. Phytoremediation potential of industrially important and biofuel plants: Azadirachta indica and Acacia nilotica (Jaya Tiwari)
- Chapter 17. Sustainability of three (Jatropha, Karanja and Castor) oil seed bearing bio-energy plants for phytoremediation: A meta-analysis based case study of India (Dipesh Kumar)
- Chapter 18. Phycoremediation: An ecofriendly algal technology for bioremediation and bioenergy production (Sanjay Kumar Gupta)
- Chapter 19. Coupling phytoremediation appositeness with bioenergy plants: A socio-legal perspective (Rashwet Shrinkhal)