Physicochemical Interactions of Engineered Nanoparticles and Plants
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Physicochemical Interactions of Engineered Nanoparticles and Plants
A Systemic Approach
Peralta-Videa, Jose; La Rosa, Guadalupe De
Elsevier Science & Technology
10/2022
346
Mole
Inglês
9780323905589
15 a 20 dias
570
Descrição não disponível.
Section I. Introduction 1. Why is this topic important? 2. Source, fate and transport of ENMs in the environment, especially those that may eventually reach plant systems.
Section II Biogeochemical cycle of ENMs before plant exposure explained at the molecular level 3. Biophysicochemical transformations of ENMs in soil 4. Biophysicochemical transformations of ENMs in water 5. Biophysicochemical transformations of ENMs in air
Section III Molecular interaction of ENMs and plants: Reactions and mechanisms 6. Biophysicochemical transformation of ENMs at the root level 7. Chemical reactions and mechanisms of ENMs transport in plants 8. Biotransformation of ENMs in leaves 9. ENMs and plants: Are the reaction products more or less toxic? 10. Biodegradation of plants laden with ENMs
Section II Biogeochemical cycle of ENMs before plant exposure explained at the molecular level 3. Biophysicochemical transformations of ENMs in soil 4. Biophysicochemical transformations of ENMs in water 5. Biophysicochemical transformations of ENMs in air
Section III Molecular interaction of ENMs and plants: Reactions and mechanisms 6. Biophysicochemical transformation of ENMs at the root level 7. Chemical reactions and mechanisms of ENMs transport in plants 8. Biotransformation of ENMs in leaves 9. ENMs and plants: Are the reaction products more or less toxic? 10. Biodegradation of plants laden with ENMs
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Aggregation; Agricultural products; Agricultural soil science; Airborne engineered nanomaterials; Apoplastic; Bioavailability; Biodegradation; Biophysicochemical transformations,Environmental Toxicology; Biotic and abiotic components; Biotransformation; Chemical compound; Chemical transformations; Deposition; Engineered nanomaterial; Engineered nanomaterials in plants; Engineered nanomaterials; ENMs biotransformation; ENMs; Environment; Environmental behavior; Environmental chemistry; Environmental fate; Environmental impact; Environmental nanotechnology; Environmental pollution; Environmental science; Environmental toxicology; Fate; Foliar adhesion; Foliar uptake; Instrumental techniques; Interactions; Light spectroscopy; Macro level; Mass spectroscopy; Metal oxide nanoparticle; Micro level; Molecular level; Nanomaterials and plant interactions; Nanomaterials fate; Nanomaterials; Nanoparticle characterization; Nanoparticle genotoxicity; Nanoparticle transformations; Nanoparticle-loaded plants; Nanoparticles; Nanotechnology; Nanotoxicity; Nanotoxicology; Natural resources; Phytotoxicity; Plant (plant biology)Plant physiology; Plant biochemistry; Plant decay; Plant ecosystems; Plant physiology; Plant system; Plant-microbe interactions; Plants; Principles of plant physiology; Process in plant; Rhizosphere; Root-plant-soil; Root-plant-water; Soil microorganisms; Soil science; Soil; Spectroscopy; Symplastic; Systemic approach; Terrestrial ecosystems; Toxicity; Toxicology; Transport; Water; X-ray techniques
Section I. Introduction 1. Why is this topic important? 2. Source, fate and transport of ENMs in the environment, especially those that may eventually reach plant systems.
Section II Biogeochemical cycle of ENMs before plant exposure explained at the molecular level 3. Biophysicochemical transformations of ENMs in soil 4. Biophysicochemical transformations of ENMs in water 5. Biophysicochemical transformations of ENMs in air
Section III Molecular interaction of ENMs and plants: Reactions and mechanisms 6. Biophysicochemical transformation of ENMs at the root level 7. Chemical reactions and mechanisms of ENMs transport in plants 8. Biotransformation of ENMs in leaves 9. ENMs and plants: Are the reaction products more or less toxic? 10. Biodegradation of plants laden with ENMs
Section II Biogeochemical cycle of ENMs before plant exposure explained at the molecular level 3. Biophysicochemical transformations of ENMs in soil 4. Biophysicochemical transformations of ENMs in water 5. Biophysicochemical transformations of ENMs in air
Section III Molecular interaction of ENMs and plants: Reactions and mechanisms 6. Biophysicochemical transformation of ENMs at the root level 7. Chemical reactions and mechanisms of ENMs transport in plants 8. Biotransformation of ENMs in leaves 9. ENMs and plants: Are the reaction products more or less toxic? 10. Biodegradation of plants laden with ENMs
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Aggregation; Agricultural products; Agricultural soil science; Airborne engineered nanomaterials; Apoplastic; Bioavailability; Biodegradation; Biophysicochemical transformations,Environmental Toxicology; Biotic and abiotic components; Biotransformation; Chemical compound; Chemical transformations; Deposition; Engineered nanomaterial; Engineered nanomaterials in plants; Engineered nanomaterials; ENMs biotransformation; ENMs; Environment; Environmental behavior; Environmental chemistry; Environmental fate; Environmental impact; Environmental nanotechnology; Environmental pollution; Environmental science; Environmental toxicology; Fate; Foliar adhesion; Foliar uptake; Instrumental techniques; Interactions; Light spectroscopy; Macro level; Mass spectroscopy; Metal oxide nanoparticle; Micro level; Molecular level; Nanomaterials and plant interactions; Nanomaterials fate; Nanomaterials; Nanoparticle characterization; Nanoparticle genotoxicity; Nanoparticle transformations; Nanoparticle-loaded plants; Nanoparticles; Nanotechnology; Nanotoxicity; Nanotoxicology; Natural resources; Phytotoxicity; Plant (plant biology)Plant physiology; Plant biochemistry; Plant decay; Plant ecosystems; Plant physiology; Plant system; Plant-microbe interactions; Plants; Principles of plant physiology; Process in plant; Rhizosphere; Root-plant-soil; Root-plant-water; Soil microorganisms; Soil science; Soil; Spectroscopy; Symplastic; Systemic approach; Terrestrial ecosystems; Toxicity; Toxicology; Transport; Water; X-ray techniques
