Arsenic in Environments and Plants: Management and Remediation Strategies
Editat de Shafaqat Ali, Muhammad Bilal Shakoor, Muhammad Rizwan, Awais Ahmad, Zhaohui Tongen Limba Engleză Paperback – 30 sep 2022
Phytoremediation of arsenic contaminated soil, bioremediation of contaminated water and soil using microbial fauna, removal of arsenic in constructed wetlands and arsenic immobilization in soil by application of organic and inorganic amendments are also covered.
- Highlights all key aspects and involvements of metals in plants, along with what advancements and developments are expected
- Discusses arsenic contamination as an emerging threat to soil, water and plants
- Provides the latest research on potential applications
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Specificații
ISBN-13: 9780323858656
ISBN-10: 0323858651
Pagini: 410
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0323858651
Pagini: 410
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
Public țintă
Researchers interested in plant science, environmental safety, plant toxicityCuprins
1.
World
scenario
of
arsenic
–
an
overview
2. Sources of arsenic in the environment
3. Biogeochemistry of arsenic
4. Arsenic contamination in water and soil
5. Fate of arsenic in water, soil and plants
6. Human health implication of arsenic
7. Human health risk assessment of arsenic in food and water
8. Arsenic in rice – recent advances
9. Arsenic uptake and transportation in plants
10. Water and nutrient imbalance under arsenic stress
11. Effect of arsenic on morphological and physiological features of plants
12. Effect of arsenic on crop yield and quality
13. Arsenic induced reactive oxygen species stress in plants
14. Antioxidant defence system in plants in response to arsenic stress
15. Biomarkers of arsenic phytotoxicity
16. Adaptive and tolerance mechanisms in plants exposed to arsenic
17. Molecular approaches in developing arsenic tolerance in plants
18. Sorption of arsenic using organic and inorganic materials from contaminated water
19. Potential of coagulation process in treatment of arsenic-contaminated water
20. Phytormediation of arsenic-contaminated water and soil
21. Bioremediation of arsenic-contaminated water and soil using microbiota
22. hyperaccumulation mechanism
23. Removal of arsenic in constructed wetlands
24. Application of organic and inorganic amendments for soil arsenic immobilization
25. soil invertebrates
2. Sources of arsenic in the environment
3. Biogeochemistry of arsenic
4. Arsenic contamination in water and soil
5. Fate of arsenic in water, soil and plants
6. Human health implication of arsenic
7. Human health risk assessment of arsenic in food and water
8. Arsenic in rice – recent advances
9. Arsenic uptake and transportation in plants
10. Water and nutrient imbalance under arsenic stress
11. Effect of arsenic on morphological and physiological features of plants
12. Effect of arsenic on crop yield and quality
13. Arsenic induced reactive oxygen species stress in plants
14. Antioxidant defence system in plants in response to arsenic stress
15. Biomarkers of arsenic phytotoxicity
16. Adaptive and tolerance mechanisms in plants exposed to arsenic
17. Molecular approaches in developing arsenic tolerance in plants
18. Sorption of arsenic using organic and inorganic materials from contaminated water
19. Potential of coagulation process in treatment of arsenic-contaminated water
20. Phytormediation of arsenic-contaminated water and soil
21. Bioremediation of arsenic-contaminated water and soil using microbiota
22. hyperaccumulation mechanism
23. Removal of arsenic in constructed wetlands
24. Application of organic and inorganic amendments for soil arsenic immobilization
25. soil invertebrates