Plant Exposure to Engineered Nanoparticles: Uptake, Transformation, Molecular and Physiological Responses: Nanomaterial-Plant Interactions
Editat de Cyren Ricoen Limba Engleză Paperback – 8 aug 2022
Subsequent chapters cover risks to trophic transfer, as well as human health and ecological functions, before concluding with future approaches to plant-nanomaterial research. The book covers important aspects of the interactions between plant and nanomaterials and will be a valuable resource to scientists and researchers in plant physiology, nanotechnology, agronomy and environmental science.
- Analyzes research on environmental and ecological implications of nanomaterials in plants
- Includes the latest information on toxicity and human exposure
- Reviews modifications and alterations in plant expressions and biochemical pathways
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Specificații
ISBN-13: 9780323850322
ISBN-10: 0323850324
Pagini: 276
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Seria Nanomaterial-Plant Interactions
ISBN-10: 0323850324
Pagini: 276
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Seria Nanomaterial-Plant Interactions
Public țintă
Researchers and scientists interested in plant physiology and chemistry, agronomy, nanotechnology and environmental scienceCuprins
1. Changes in metabolite profile in plants exposed to engineered nanomaterials
2. Alterations in gene expression of plants exposed to nanomaterials
3. Modifications in elemental content of edible portions of plants exposed to nanomaterials
4. Plant biochemical pathways sensitive to nanomaterial exposure
5. Elemental and exudate profile of roots exposed to engineered nanomaterials
6. Full life cycle exposure of plants to nanomaterials: Impact on physiology and biomass productivity
7. Plants generational exposure to engineered nanomaterials
8. C & N Isotope discrimination in plants exposed to engineered nanomaterials
9. Plants co-exposure to nanomaterials and abiotic environmental stressors
10. Nanomaterial transformation in root-soil interface: A function of root exudate or microbial activity?
11. Risk of trophic transfer: Nanomaterial uptake and transformation in above ground plant tissue
12. Risks to human health or ecological function? Lessons learned in the last ten years
13. Future questions and approaches in plant-nanomaterial research
2. Alterations in gene expression of plants exposed to nanomaterials
3. Modifications in elemental content of edible portions of plants exposed to nanomaterials
4. Plant biochemical pathways sensitive to nanomaterial exposure
5. Elemental and exudate profile of roots exposed to engineered nanomaterials
6. Full life cycle exposure of plants to nanomaterials: Impact on physiology and biomass productivity
7. Plants generational exposure to engineered nanomaterials
8. C & N Isotope discrimination in plants exposed to engineered nanomaterials
9. Plants co-exposure to nanomaterials and abiotic environmental stressors
10. Nanomaterial transformation in root-soil interface: A function of root exudate or microbial activity?
11. Risk of trophic transfer: Nanomaterial uptake and transformation in above ground plant tissue
12. Risks to human health or ecological function? Lessons learned in the last ten years
13. Future questions and approaches in plant-nanomaterial research