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Titre : Environmental Soil Chemistry Type de document : texte imprimé Auteurs : Donald L. Sparks, Auteur ; Balwant Singh, Auteur ; ,Matthew G. Siebecker, Auteur Editeur : Academic Press Année de publication : 2023 Importance : 447p Format : 19X23,5cm ISBN/ISSN/EAN : 978-0-443-14034-1 Langues : Anglais (eng) Catégories : Soil science Mots-clés : Highlights advances in understanding reactions at mineral-water interfaces, including adsorption, dissolution, and surface precipitation
Offers a new online course supplement for instructorsIndex. décimale : 631 Note de contenu : Environmental Soil Chemistry, Third Edition provides an up-to-date overview of the interdisciplinary field of environmental soil chemistry. This classic text covers the fundamental principles of soil chemistry, including the inorganic and organic components of soil, soil porewater chemistry, interfacial chemical reactions between solids and dissolved ions/molecules, ion exchange, and the kinetics of the soil chemical process, such as sorption and redox. Soil acidity and salinity are also discussed. This fully updated third edition places particular emphasis on environmental reactions between clay minerals, metal oxides, and soil organic matter with heavy metals, pesticides, and industrial contaminants.
This text provides the latest technological advances representing the cutting edge of the science. Completely updated throughout with new content and updated full color figures, the third edition contains expanded information on soil minerals and an increased emphasis on the coupling between chemical and biological reactions, mechanisms, and processes. This third edition provides upper-level undergraduate and graduate students in soil science with sound contemporary training in the basics of soil chemistry and applications to real-world environmental concerns. The book offers a competitive advantage for those students looking to incorporate novel, advanced tools into their research.
Includes problem sets in each chapter for enhanced learning and comprehension
Emphasizes soil organic carbon reactions with clay minerals and metal oxides, including examples from advanced spectromicroscopic techniques
Features revised content highlighting the role of soils in environmental and ecosystem services
Presents new material on advances in surface complexation modeling
Delivers concise summaries of research using state-of-the art techniques
Highlights advances in understanding reactions at mineral-water interfaces, including adsorption, dissolution, and surface precipitation
Offers a new online course supplement for instructors
Environmental Soil Chemistry [texte imprimé] / Donald L. Sparks, Auteur ; Balwant Singh, Auteur ; ,Matthew G. Siebecker, Auteur . - Academic Press, 2023 . - 447p ; 19X23,5cm.
ISBN : 978-0-443-14034-1
Langues : Anglais (eng)
Catégories : Soil science Mots-clés : Highlights advances in understanding reactions at mineral-water interfaces, including adsorption, dissolution, and surface precipitation
Offers a new online course supplement for instructorsIndex. décimale : 631 Note de contenu : Environmental Soil Chemistry, Third Edition provides an up-to-date overview of the interdisciplinary field of environmental soil chemistry. This classic text covers the fundamental principles of soil chemistry, including the inorganic and organic components of soil, soil porewater chemistry, interfacial chemical reactions between solids and dissolved ions/molecules, ion exchange, and the kinetics of the soil chemical process, such as sorption and redox. Soil acidity and salinity are also discussed. This fully updated third edition places particular emphasis on environmental reactions between clay minerals, metal oxides, and soil organic matter with heavy metals, pesticides, and industrial contaminants.
This text provides the latest technological advances representing the cutting edge of the science. Completely updated throughout with new content and updated full color figures, the third edition contains expanded information on soil minerals and an increased emphasis on the coupling between chemical and biological reactions, mechanisms, and processes. This third edition provides upper-level undergraduate and graduate students in soil science with sound contemporary training in the basics of soil chemistry and applications to real-world environmental concerns. The book offers a competitive advantage for those students looking to incorporate novel, advanced tools into their research.
Includes problem sets in each chapter for enhanced learning and comprehension
Emphasizes soil organic carbon reactions with clay minerals and metal oxides, including examples from advanced spectromicroscopic techniques
Features revised content highlighting the role of soils in environmental and ecosystem services
Presents new material on advances in surface complexation modeling
Delivers concise summaries of research using state-of-the art techniques
Highlights advances in understanding reactions at mineral-water interfaces, including adsorption, dissolution, and surface precipitation
Offers a new online course supplement for instructors
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Code-barres Cote Support Localisation Section Disponibilité HSA-B-6159 631/75.1 Livre Bibliothèque principale Documentaires Disponible HSA-B-6160 631/75.2 Livre Bibliothèque principale Documentaires Disponible
Titre : Smart Agrochemicals for Sustainable Agriculture Type de document : texte imprimé Auteurs : Katarzyna Chojnacka, Auteur ; Agnieszka Saeid, Auteur Editeur : Academic Press Année de publication : 2021 Importance : 313p Format : 19X23,5cm ISBN/ISSN/EAN : 978-0-12-817036-6 Langues : Anglais (eng) Catégories : Soil science Index. décimale : 631 Note de contenu : Smart Agrochemicals for Sustainable Agriculture proposes products that fulfill the need for chemicals that provide a sustainable delivery system for nutrients necessary to maximize the production of agricultural animals and plants while producing the smallest possible environmental footprint. This book addresses all aspects related to the production process, including chemical formulas, stability of formulations, and the application of the effect of its utilization. Over the past decade, biobased chemicals have received significant attention as candidate resource materials in fertilizers and agrochemicals production due to their renewability.
Substitution of conventional raw materials with biobased requires a new approach towards the development of technology. On the other hand, the use of biobased chemicals, such as biostimulants, bioregulators and biofertilizers offers a new palette of products that are natural, thus their application does not pose an impact on the environment (residues) or cultivated plants.
- Presents ideas for new products that provide appropriate nutrition while limiting environmental footprints
- Includes a full range of the production process, from chemical formulas to establishing the stability of formulations, applications and effects
- Offers a host of new products that are natural and whose applications do not negatively impact the environment nor cultivated plantsSmart Agrochemicals for Sustainable Agriculture [texte imprimé] / Katarzyna Chojnacka, Auteur ; Agnieszka Saeid, Auteur . - Academic Press, 2021 . - 313p ; 19X23,5cm.
ISBN : 978-0-12-817036-6
Langues : Anglais (eng)
Catégories : Soil science Index. décimale : 631 Note de contenu : Smart Agrochemicals for Sustainable Agriculture proposes products that fulfill the need for chemicals that provide a sustainable delivery system for nutrients necessary to maximize the production of agricultural animals and plants while producing the smallest possible environmental footprint. This book addresses all aspects related to the production process, including chemical formulas, stability of formulations, and the application of the effect of its utilization. Over the past decade, biobased chemicals have received significant attention as candidate resource materials in fertilizers and agrochemicals production due to their renewability.
Substitution of conventional raw materials with biobased requires a new approach towards the development of technology. On the other hand, the use of biobased chemicals, such as biostimulants, bioregulators and biofertilizers offers a new palette of products that are natural, thus their application does not pose an impact on the environment (residues) or cultivated plants.
- Presents ideas for new products that provide appropriate nutrition while limiting environmental footprints
- Includes a full range of the production process, from chemical formulas to establishing the stability of formulations, applications and effects
- Offers a host of new products that are natural and whose applications do not negatively impact the environment nor cultivated plantsRéservation
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Code-barres Cote Support Localisation Section Disponibilité HSA-B-6200 631/76.1 Livre Bibliothèque principale Documentaires Disponible
Titre : Applied Plant Biotechnology for Improving Resistance to Biotic Stress Type de document : texte imprimé Auteurs : Palmiro Poltronieri, Auteur ; Yiguo Hong, Auteur Editeur : Academic Press Année de publication : 2020 Importance : 355p Format : 19X23,5cm ISBN/ISSN/EAN : 978-0-12-816030-5 Langues : Français (fre) Catégories : Soil science Mots-clés : Applied Plant Biotechnology for Improving Resistance to Biotic Stress virus induced gene silencing for functional genomics in plants bringing PTI into the field microbial products and secondary metabolites in plant health molecular tools to investigate SHarka. Index. décimale : 631 Note de contenu :
Applied Plant Biotechnology for Improvement of Resistance to Biotic Stress applies biotechnology insights that seek to improve plant genomes, thus helping them achieve higher resistance and optimal hormone signaling to increase crop yield. The book provides an analysis of the current state-of-the-art in plant biotechnology as applied to improving resistance to biotic stress. In recent years, significant progress has been made towards understanding the interplay between plants and their hosts, particularly the role of plant immunity in regulating, attenuating or neutralizing invading pathogens. As a result, there is a great need to integrate these insights with methods from biotechnology.
Applies biotechnology insights towards improving plant genomes, achieving higher resistance and optimizing hormone signaling to increase crop yield
Presents the most modern techniques, investigations, diagnostic tools and assays to monitor and detect contaminating agents in crops, such as grape, tomato, coffee and stone fruit
Provides encyclopedic coverage of genes, proteins, interaction networks and mechanisms by which plants and hosts seek survival
Discusses the methods available to make crops resistant and tolerant to disease without decreased yield or food production
Provides insights for policymakers into the difficulties faced by scientific researchers in the use of biotechnology intervention, transgenes and genetically modified sequences
Applied Plant Biotechnology for Improving Resistance to Biotic Stress [texte imprimé] / Palmiro Poltronieri, Auteur ; Yiguo Hong, Auteur . - Academic Press, 2020 . - 355p ; 19X23,5cm.
ISBN : 978-0-12-816030-5
Langues : Français (fre)
Catégories : Soil science Mots-clés : Applied Plant Biotechnology for Improving Resistance to Biotic Stress virus induced gene silencing for functional genomics in plants bringing PTI into the field microbial products and secondary metabolites in plant health molecular tools to investigate SHarka. Index. décimale : 631 Note de contenu :
Applied Plant Biotechnology for Improvement of Resistance to Biotic Stress applies biotechnology insights that seek to improve plant genomes, thus helping them achieve higher resistance and optimal hormone signaling to increase crop yield. The book provides an analysis of the current state-of-the-art in plant biotechnology as applied to improving resistance to biotic stress. In recent years, significant progress has been made towards understanding the interplay between plants and their hosts, particularly the role of plant immunity in regulating, attenuating or neutralizing invading pathogens. As a result, there is a great need to integrate these insights with methods from biotechnology.
Applies biotechnology insights towards improving plant genomes, achieving higher resistance and optimizing hormone signaling to increase crop yield
Presents the most modern techniques, investigations, diagnostic tools and assays to monitor and detect contaminating agents in crops, such as grape, tomato, coffee and stone fruit
Provides encyclopedic coverage of genes, proteins, interaction networks and mechanisms by which plants and hosts seek survival
Discusses the methods available to make crops resistant and tolerant to disease without decreased yield or food production
Provides insights for policymakers into the difficulties faced by scientific researchers in the use of biotechnology intervention, transgenes and genetically modified sequences
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Code-barres Cote Support Localisation Section Disponibilité HSA-B-6149 631/78.1 Livre Bibliothèque principale Documentaires Disponible
Titre : Biotechnology of Emerging Microbes Titre original : Prospects for Agriculture and Environment Type de document : texte imprimé Auteurs : Hemen Sarma, Auteur ; Sanket Joshi, Auteur Editeur : Academic Press Année de publication : 2023 Importance : 372 pages Format : 19.1 x 23.39 cm ISBN/ISSN/EAN : 978-0-443-15397-6 Langues : Anglais (eng) Catégories : Microbilogy Index. décimale : 573 Résumé : Biotechnology of Emerging Microbes: Prospects for Agriculture and Environment provides the latest developments of leading biotechnologists and bioengineers. The book covers various aspects of microbes mediated rhizosphere, biosphere, environmental, and ecosystem biotechnology, and focuses on the restoration and management of the rhizosphere, the biosphere, and the ecosystem with microbes for a sustainable future. It is designed to address various technical and application details of microorganisms and their products in biotechnology and bioengineering approaches. Users will find up-to-date knowledge that is beneficial to beginners, researchers, students, scientists, engineers, and industry stakeholders who can support the management of ecosystems through the use of microbes.Planet Earth is undergoing an accelerated process of change associated with a wide range of anthropogenic phenomena. The future of these changes is uncertain, but there is general agreement that this negative development might be detrimental to our own survival. Although different environmental engineering strategies have been developed, none of them seem to address carbon dioxide accumulation, biosphere, and ecosystem safety. The rapidly increasing potential for the development of living systems through the biotechnology and bioengineering of microbes is a sustainable alternative to address safety issues. Note de contenu : Table of contents
1. Potential microbiomes for sustainable bioengineering: a global scenario and future prospects2. Endophytic bacteria mediated resistance to plant diseases: bioengineering approaches3. Actinobacteria from Rhizosphere: genetic diversity and future engineering applications4. Enhancing nutrient availability in soil and ecosystem productivity through rhizosphere engineering-sustainable approach5. Microbiome of rhizosphere for improve production of plant probiotics and secondary metabolites6. Rhizoremediation of organic emerging soil contaminants- green technology7. Rhizobacterium that boosts plant growth while lowering abiotic stress - a profitable solution8. Rhizoremediation as a green technology for heavy metal remediation: Prospects and challenges9. Plant-soil-microbe interactions: A metabolomics strategy to eliminate pathogenic organisms and boost crop productivity10. Boosting soil carbon storage for carbon remediation: potential microbial inputs and constraints11. Omics-Based Bioengineering: emerging strategies for sustainable agriculture development and future perspectives12. Restoration of degraded biosphere habitats through microbial biomass13. Bioengineered and biohybrid bacteria-based system for sustainable agriculture14. Restoration of soil by a phytase-producing microorganism15. Promoting crop production in the era of climate change with symbiotic microbes16. Migration of microplastics in agriculture and Marian Ecosystem: biotechnology approaches17. Halotolerant and halophilic bacteria present in the mangrove ecosystem: Bioengineering potential18. Microbes are natural ecological engineers in the forest ecosystem, enhancing the interaction between plants and herbivores19. Use of microbial enzymes to degrade pesticide residues in agroecosystems-Sustainable practises20. Using molecular tools to improve the decomposer potential of organic bio-waste in certain fungi - future prospectsBiotechnology of Emerging Microbes = Prospects for Agriculture and Environment [texte imprimé] / Hemen Sarma, Auteur ; Sanket Joshi, Auteur . - Academic Press, 2023 . - 372 pages ; 19.1 x 23.39 cm.
ISBN : 978-0-443-15397-6
Langues : Anglais (eng)
Catégories : Microbilogy Index. décimale : 573 Résumé : Biotechnology of Emerging Microbes: Prospects for Agriculture and Environment provides the latest developments of leading biotechnologists and bioengineers. The book covers various aspects of microbes mediated rhizosphere, biosphere, environmental, and ecosystem biotechnology, and focuses on the restoration and management of the rhizosphere, the biosphere, and the ecosystem with microbes for a sustainable future. It is designed to address various technical and application details of microorganisms and their products in biotechnology and bioengineering approaches. Users will find up-to-date knowledge that is beneficial to beginners, researchers, students, scientists, engineers, and industry stakeholders who can support the management of ecosystems through the use of microbes.Planet Earth is undergoing an accelerated process of change associated with a wide range of anthropogenic phenomena. The future of these changes is uncertain, but there is general agreement that this negative development might be detrimental to our own survival. Although different environmental engineering strategies have been developed, none of them seem to address carbon dioxide accumulation, biosphere, and ecosystem safety. The rapidly increasing potential for the development of living systems through the biotechnology and bioengineering of microbes is a sustainable alternative to address safety issues. Note de contenu : Table of contents
1. Potential microbiomes for sustainable bioengineering: a global scenario and future prospects2. Endophytic bacteria mediated resistance to plant diseases: bioengineering approaches3. Actinobacteria from Rhizosphere: genetic diversity and future engineering applications4. Enhancing nutrient availability in soil and ecosystem productivity through rhizosphere engineering-sustainable approach5. Microbiome of rhizosphere for improve production of plant probiotics and secondary metabolites6. Rhizoremediation of organic emerging soil contaminants- green technology7. Rhizobacterium that boosts plant growth while lowering abiotic stress - a profitable solution8. Rhizoremediation as a green technology for heavy metal remediation: Prospects and challenges9. Plant-soil-microbe interactions: A metabolomics strategy to eliminate pathogenic organisms and boost crop productivity10. Boosting soil carbon storage for carbon remediation: potential microbial inputs and constraints11. Omics-Based Bioengineering: emerging strategies for sustainable agriculture development and future perspectives12. Restoration of degraded biosphere habitats through microbial biomass13. Bioengineered and biohybrid bacteria-based system for sustainable agriculture14. Restoration of soil by a phytase-producing microorganism15. Promoting crop production in the era of climate change with symbiotic microbes16. Migration of microplastics in agriculture and Marian Ecosystem: biotechnology approaches17. Halotolerant and halophilic bacteria present in the mangrove ecosystem: Bioengineering potential18. Microbes are natural ecological engineers in the forest ecosystem, enhancing the interaction between plants and herbivores19. Use of microbial enzymes to degrade pesticide residues in agroecosystems-Sustainable practises20. Using molecular tools to improve the decomposer potential of organic bio-waste in certain fungi - future prospectsRéservation
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Code-barres Cote Support Localisation Section Disponibilité HSA-B-6150 579/18.1 Livre Bibliothèque principale Documentaires Disponible HSA-B-6151 579/18.2 Livre Bibliothèque principale Documentaires Disponible
