Handbook of Flotation Reagents: Chemistry, Theory and Practice: Flotation of Gold, PGM and Oxide Minerals, Volume 2 focuses on the theory, practice, and chemistry of flotation of gold, platinum group minerals (PGMs), and the major oxide minerals, along with rare earths. It examines separation methods whose effectiveness is limited when using conventional treatment processes and considers commercial plant practices for most oxide minerals, such as pyrochlore-containing ores, copper cobalt ores, zinc ores, tin ores, and tantalum/niobium ores. It discusses the geology and mineralogy of gold, PGMs, and oxide minerals, as well as reagent and flotation practices in beneficiation. The book also looks at the factors affecting the floatability of gold minerals and describes PGM-dominated deposits such as Morensky-type deposits, hydrothermal deposits, and placer deposits. In addition, case studies of flotation and beneficiation in countries such as Canada, Africa, Russia, Chile, and Saudi Arabia are presented. This book will be useful to researchers, university students, and professors, as well as mineral processors faced with the problem of beneficiation of difficult-to-treat ores.

This book discusses the latest developments in plant-mediated fabrication of metal and metal-oxide nanoparticles, and their characterization by using a variety of modern techniques. It explores in detail the application of nanoparticles in drug delivery, cancer treatment, catalysis, and as antimicrobial agent, antioxidant and the promoter of plant production and protection. Application of these nanoparticles in plant systems has started only recently and information is still scanty about their possible effects on plant growth and development. Accumulation and translocation of nanoparticles in plants, and the consequent growth response and stress modulation are not well understood. Plants exposed to these particles exhibit both positive and negative effects, depending on the concentration, size, and shape of the nanoparticles. The impact on plant growth and yield is often positive at lower concentrations and negative at higher ones. Exposure to some nanoparticles may improve the free-radical scavenging potential and antioxidant enzymatic activities in plants and alter the micro-RNAs expression that regulate the different morphological, physiological and metabolic processes in plant system, leading to improved plant growth and yields. The nanoparticles also carry out genetic reforms by efficient transfer of DNA or complete plastid genome into the respective plant genome due to their miniscule size and improved site-specific penetration. Moreover, controlled application of nanomaterials in the form of nanofertilizer offers a more synchronized nutrient fluidity with the uptake by the plant exposed, ensuring an increased nutrient availability. This book addresses these issues and many more. It covers fabrication of different/specific nanomaterials and their wide-range application in agriculture sector, encompassing the controlled release of nutrients, nutrient-use efficiency, genetic exchange, production of secondary metabolites, defense mechanisms, and the growth and productivity of plants exposed to different manufactured nanomaterials. The role of nanofertilizers and nano-biosensors for improving plant production and protection and the possible toxicities caused by certain nanomaterials, the aspects that are little explored by now, have also been generously elucidated.

With the recent shift of chemical fertilizers and pesticides to organic agriculture, the employment of microbes that perform significant beneficial functions for plants has been highlighted. This book presents timely discussion and coverage on the use of microbial formulations, which range from powdered or charcoal-based to solution and secondary metabolite-based bioformulations. Bioformulation development of biofertilizers and biopesticides coupled with the advantages of nanobiotechnology propose significant applications in the agricultural section including nanobiosensors, nanoherbicides, and smart transport systems for the regulated release of agrochemical. Moreover, the formulation of secondary metabolites against individual phytopathogens could be used irrespective of geographical positions with higher disease incidences. The prospective advantages and uses of nanobiotechnology generate tremendous interest, as it could augment production of agricultural produce while being cost-effective both energetically and economically. This bioformulation approach is incomparable to existing technology, as the bioformulation would explicitly target the particular pathogen without harming the natural microbiome of the ecosystem. Nanobiotechnology in Bioformulations covers the constraints associated with large-scale development and commercialization of bioinoculant formations. Furthermore, exclusive emphasis is be placed on next-generation efficient bioinoculants having secondary metabolite formulations with longer shelf life and advanced competence against several phytopathogens. Valuable chapters deal with bioformulation strategies that use divergent groups of the microbiome and include detailed diagrammatic and pictorial representation. This book will be highly beneficial for both experts and novices in the fields of microbial bioformulation, nanotechnology, and nano-microbiotechnology. It discusses the prevailing status and applications available for microbial researchers and scientists, agronomists, students, environmentalists, agriculturists, and agribusiness professionals, as well as to anyone devoted to sustaining the ecosystem.

Clinical decision support systems, medical applications, and electronic health records each help to ensure the provision of efficient, accurate healthcare services, thereby providing patients with a better experience and overall reducing health care costs. Advancing Technologies and Intelligence in Healthcare and Clinical Environments Breakthroughs is a prime resource for both academic researchers and practitioners looking to advance their knowledge of the interdisciplinary areas of healthcare information technology and management research. This book addresses innovative concepts and critical issues in the emerging field of health information systems and informatics, with an emphasis on sustainable computer information systems, ensuring healthcare efficiency, and denoising MRI and ECG outputs.

This book gives a comprehensive overview of modern hydrogenation methods used in organic synthesis. In clearly structured chapters, the authors cover the catalysts, scope and limitations of their application, and the techniques for hydrogenation of carbon-carbon, carbon-heteroatom and heteroatom-heteroatom multiple bonds.

Wound Healing Biomaterials: Volume Two, Functional Biomaterials discusses the types of wounds associated with trauma, illness, or surgery that can sometimes be extremely complex and difficult to heal. Consequently, there is a prominent drive for scientists and clinicians to find methods to heal wounds opening up a new area of research in biomaterials and the ways they can be applied to the challenges associated with wound care. Much research is now concerned with new therapies, regeneration methods, and the use of biomaterials that can assist in wound healing and alter healing responses. This book provides readers with a thorough review of the functional biomaterials used for wound healing, with chapters discussing the fundamentals of wound healing biomaterials, films for wound healing applications, polymer-based dressing for wound healing applications, and functional dressings for wound care.

Wound Healing Biomaterials: Volume One, Therapies and Regeneration discusses the types of wounds associated with trauma, illness, or surgery that can sometimes be extremely complex and difficult to heal. Consequently, there is a prominent drive for scientists and clinicians to find methods to heal these types of wounds, with science increasingly turning towards biomaterials to address these challenges. Much research is now concerned with new therapies, regeneration methods, and biomaterials to assist in wound healing and healing response. This book provides readers with a comprehensive review of the fundamentals and advances in the field of wound healing with regard to therapies and tissue regeneration. Chapters in Part One discuss fundamentals and strategies of wound healing, while Part Two reviews gene, stem cell, and drug delivery therapies for wound healing. Final chapters look at tissue regeneration strategies, making this an all-encompassing book on the topic of wound care and biomaterials.

Nature, by dint of its constitution, harbors many unassuming mysteries broadly manifested by its constituent cohorts. If physics is the pivot that holds nature and chemistry provides reasons for its existence, then the rest is just manifestation. Nanoscience and technology harbor the congruence of these two core subjects, whereby many phenomenon may be studied in the same perspective. That nature operates at nanoscale-obeying the principles of thermodynamics and supramolecular chemistry-is a well understood fact manifested in a variety of life processes: bones are restored after a fracture; clots potentially leading to cerebral strokes can be dissolved. The regeneration of new structures in our system follows a bottom-up approach. Be it a microbe (benign or pathogenic), plant (lower or higher), plant parts/organs, food beneficiaries, animal (lower), higher animal processing wastes, these all are found to deliver nanomaterials under amenable processing conditions. Identically, the molecules also seem to obey the thermodynamic principles once they get dissociated/ionized and the energy captured in the form of bonding helps in the synthesis of a myriad of nanomaterials. This edited volume explores the various green sources of nanomaterial synthesis and evaluates their industrial and biomedical applications with a scope of scaling up. It provides useful information to researchers involved in the green synthesis of nanomaterials in fields ranging from medicine to integrated agricultural management.

The paddy field is a unique agro-ecosystem and provides services such as food, nutrient recycling and diverse habitats. However, chemical contamination of paddy soils has degraded the quality of this important ecosystem. This book provides an overview of our current understanding of paddy soil pollution, addressing topics such as the major types of pollutants in contaminated paddy soil ecosystems; factors affecting the fate of pollutants in paddy soil; biomonitoring approaches to assess the contaminated paddy soil; the impact of chemicals on soil microbial diversity; and climate change. It also covers arsenic and heavy metal pollution of paddy soils and their impact on rice quality. Further, new emerging contaminants such as antibiotics and antibiotics resistance genes (ARGs) in paddy soil and their impact on environmental health are also discussed. The last chapters focus on the bioremediation approaches for the management of paddy soils.

The book covers the latest development in the biosciences field covering key topics in crop improvement including 'omic approaches to improving sustainable crop production, advancement in marker technology, strategies in genetic manipulation, crop quality and sustainability and plant microbe interaction detailing on proven technologies to address critical issue for agricultural sustainability which are beneficial for researchers and students. The book also includes aspects of preserving crops after harvest as this is a key factor in promoting sustainable crop quality in terms of addressing waste, choosing the appropriate packaging and moving crops through the food and industrial supply chain. An important strategy to overcome the challenges in providing food for the world population in a sustainable manner is through concerted efforts by crop scientists to embrace new technologies in increasing yield, quality and improving food safety while minimizing adverse environmental impact of the agricultural activities. Most of the proven molecular and genetic technologies in crop science have been tested and verified in model plants such as Arabidopsis and tomato. The technologies, when deployed on various plant species of importance for human nutrition and industrial applications, including cereals, vegetables, fruits, herbs, fibre and oil crops, face many challenges, not only due to their longer life cycle but many other physiological and environmental factors affecting yield and quality of plant products. Furthermore, major impacts on crop production due to catastrophic diseases and global climate change needs urgent and innovative solutions. Therefore a systematic approach, employing various leading-edge technologies that enable the functional elucidation of key pathway genes via 'omics tools, genome wide association with desired phenotypes and development of cost effective and practicable molecular tools for selection, is vital. The International Conference on Crop Improvement was held to address these and other pressing issues. This volume summarizes the keynote presentations from the meeting and highlights addition discussions that are critical to crop improvement in a challenging time.

Biomaterials Effect on the Bone Microenvironment Practical resource on clinical bone regeneration from a variety of related interdisciplinary researchers Biomaterials Effect on the Bone Microenvironment focuses on the structure-activity relationship between bone biomaterials and microenvironment regulation, presenting a systematic exposition from all aspects of biomaterials regulated microenvironment in bone regeneration and covering design strategies, applications, and mechanisms of biomaterials that regulate bone microenvironment, along with the methods for manufacturing biomaterials and their clinical translation. The subject's potential challenges and future development direction are discussed, and the design and initiative principle of tailored biomaterials with various features, including bioactive components and physicochemical property, are elucidated in depth. Numerous biomaterials, including natural and synthetic, are summarized and compared. Their advantages and features are also evaluated, particularly in bone microenvironmental regulation and bone generation. Moreover, the stimulation mechanism of the microenvironment to bone generation is discussed in detail, including mechanical-support effect, redox effect, pro-angiogenesis effect, inflammatory immune effect, and anti-aging effect. Biomaterials Effect on the Bone Microenvironment provides further coverage of sample topics such as: Role of bone microenvironment and its associated biomaterials in modulation bone diseases, reviewing the biomaterials used to regulate bone microenvironment Relationship between biological factors of various materials and physiological functions in bone microenvironment Application of the third generation of biomaterials, which would regenerate the bone to regulate bone microenvironment Emerging biological material manufacturing technology and mechanisms of novel biomaterial modulating microenvironment for bone regeneration Future outlook of bone tissue engineering along with the general process of bone remodeling and regeneration With comprehensive coverage of one of the most promising and valuable candidates for clinical bone regeneration, Biomaterials Effect on the Bone Microenvironment is an ideal resource for materials scientists, biotechnologists, biochemists, bioengineers, orthopedists, and clinical chemists who want to stay on the cutting edge of this rapidly evolving field.

The book introduces fundamentals of 3D printing with light, photoinitiating system for 3D printing as well as resins. Plenty of applications, trends and prospects are also discussed, which make the book an essential reference for both scientists and industrial engineers in the research fields of photochemistry, polymer chemistry, rapid prototyping and photopolymerization.

This volume describes up-to-date techniques for improved production of secondary metabolites of economic interest using field and laboratory methods. Biotechnology of Plant Secondary Metabolism: Methods and Protocols explores different secondary metabolite classes, whole-plant and cell/organ culture systems, and environmental and genetic transformation-based modulation of biochemical pathways. Special focus is given to cell and tissue specific metabolism, metabolite transport, microRNA-based technology, heterologous systems expression of enzymes and pathways leading to products of interest, as well as applications using both model and non-model plant species. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Practical and cutting-edge, Biotechnology of Plant Secondary Metabolism: Methods and Protocols is a great resource for scientists of interdisciplinary fields--plant science, plant physiology, pharmacy, molecular biology, biochemistry, bioengineering, and forestry--in reaching their goals of producing plant biochemicals in a sustainable and efficient manner, while minimizing impacts to the environment and providing the required quantities of these commodities to industry.

Clinical Systems Engineering: New Challenges for Future Healthcare covers the critical issues relating to the risk management and design of new technologies in the healthcare sector. It is a comprehensive summary of the advances in clinical engineering over the past 40 years, presenting guidance on compliance and safety for hospitals and engineering teams. This contributed book contains chapters from international experts, who provide their solutions, experiences, and the successful methodologies they have applied to solve common problems in the area of healthcare technology. Topics include compliance with the European Directive on Medical Devices 93/42/EEC, European Norms EN 60601-1-6, EN 62366, and the American Standards ANSI/AAMI HE75: 2009. Content coverage includes decision support systems, clinical complex systems, and human factor engineering. Examples are fully supported with case studies, and global perspective is maintained throughout. This book is ideal for clinical engineers, biomedical engineers, hospital administrators and medical technology manufacturers.

The development of biotechnological innovations is quickly becoming a globalized phenomenon as emerging nations are making major strides to compete with more developed economies. Though efforts to bridge the gap between emerging and developed nations have been successful, there are still many barriers that need to be overcome. Comparative Approaches to Biotechnology Development and Use in Developed and Emerging Nations evaluates the importance of manufacturing biotechnological products around the world. Highlighting a comparative analysis of public policies, technological policies, innovations, and marketing capabilities of developed and emerging nations, this publication is a pivotal reference source for government officers, policy makers, academics, and practitioners.

This detailed book provides a set of protocols necessary for the development of a variety of microchip-based electrophoretic assays. It compiles a range of such electrophoretic methods by leading researchers in the field, covering subjects such as microfluidic device fabrication, on-chip sample preparation, theoretical/simulation protocols for assessing these separation methods, as well as common practices followed when applying them to important real world applications. The contents of the book range from protocols for classical assays to those involving pioneering separation techniques recently developed by the scientific community for advancing our analytical capabilities. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and accessible, Microfluidic Electrophoresis: Methods and Protocols serves as an convenient text for academic researchers as well as practicing engineers, biochemists, and analytical laboratory professionals.

Remediation of wastewater is important to ensure that pollutants generated in industry do not effect our environment negatively. Traditional wastewater remediation is not a sustainable process, however by using biological means the sustainability can be improved. This book explores how bioremediation biotechnology is used to remove pollutants in wastewater. Both conventional methods bioremediation technologies are discussed.

1 Einleitung.- 1.1 Rechtliche Hygieneregelung.- 1.2 Aspekte zum Hygienekonzept.- Literatur.- 2 Begriffe zur Lebensmittelhygiene.- 2.1 Lebensmittel.- 2.2 Lebensmittelhygiene.- 2.3 Leichtverderbliche Lebensmittel.- 2.4 Verpackte Lebensmittel.- 2.5 Herstellen.- 2.6 Behandeln.- 2.7 In-Verkehr-bringen.- 2.8 Verzehren.- 2.9 Nachteilige Beeinflussung.- 2.10 Genusstauglichkeit/ Genusswert.- 2.11 Mindesthaltbarkeitsdatum.- 2.12 Bedarfsgegenstande.- Literatur.- 3 Lebensmittelmikrobiologie.- 3.1 Einteilung von Mikroorganismen.- 3.1.1 Bakterien und Bakteriensporen.- 3.1.2 Schimmelpilze.- 3.1.3 Hefepilze.- 3.1.4 Viren.- 3.2 Groessenordnung von Mikroorganismen und Viren.- 3.3 Erkennbarmachung von Keimen.- 3.4 Vermehrungsformen von Mikroorganismen.- 3.4.1 Ungeschlechtliche Fortpflanzung.- 3.4.2 Geschlechtliche Fortpflanzung von Hefen.- 3.5 Gesundheitsgefahrdende Mikroorganismen, Lebensmittelverderber und Nutzlinge.- 3.5.1 Gesundheitsgefahrdende Mikroorganismen und schadliche Stoffwechselprodukte.- 3.5.2 Lebensmittelverderber.- 3.5.3 Technologisch erwunschte Mikroorganismen.- Literatur.- 4 Wachstumsvoraussetzungen fur Mikroorganismen - Beeinflussung der Vermehrung.- 4.1 Wachstumsfaktoren.- 4.1.1 Nahrstoffangebot.- 4.1.2 Wasseraktivitat und Feuchtigkeit.- 4.1.3 pH-Wert.- 4.1.4 Temperatur.- 4.1.5 Redoxpotential.- 4.2 Beeinflussung des Wachstums von Mikroorganismen.- Literatur.- 5 Mikrobielle Gefahrdung von Produkten.- 5.1 Lebensmittelverderb.- 5.1.1 Faulnis.- 5.1.2 Garung.- 5.1.3 Sauerung.- 5.1.4 Ranziditat.- 5.1.5 Schimmeln.- 5.2 Lebensmittelvergiftung.- 5.2.1 Salmonellen.- 5.2.2 Staphylococcus aureus.- 5.2.3 Clostridium perfringens.- 5.2.4 Clostridium botulinum.- 5.2.5 Bacillus cereus.- 5.2.6 Listeria monocytogenes.- 5.3 Gefahrdungen physikalischen Ursprungs.- Literatur.- 6 Schadlingsbefall und weitere Gefahrdungen.- 6.1 Insekten.- 6.2 Nager und Voegel.- 6.3 Schadlingsbekampfung als Teil der Betriebshygiene.- 6.4 Chemische Schadensquellen.- 6.5 Physikalische Schadensquellen.- 7 Raum-und Anlagenhygiene.- 7.1 Reinigung und Desinfektion.- 7.1.1 Reinigungsverfahren.- 7.1.2 Desinfektion.- 7.1.3 Reinigungsintervalle.- 7.2 Raumtemperaturen.- 7.3 Konstruktive Anlagenhygiene.- Literatur.- 8 Stichprobenplane.- 8.1 Mikrobiologische Stichprobenplane.- 8.1.1 2-Klassenplan.- 8.1.2 3-Klassenplan.- 8.2 Stichprobenplane fur die sensorische Prufung.- Literatur.- 9 Betriebseigene Massnahmen und Kontrollen - HACCP-Konzept.- 9.1 Produktbeschreibung, Ermittlung potentieller Gefahren, Identifizierung kritischer Punkte (HACCP-Grundsatze 1-3).- 9.2 Festlegung und Durchfuhrung des Verfahrens zur UEberwachung und Kontrolle der kritischen Punkte (HACCP-Grundsatze 4, 5).- 9.3 UEberprufung der Eigenkontrollsysteme, Dokumentation (HACCP-Grundsatze 6, 7).- Literatur.

Genetic and Genomic Resources For Cereals Improvement is the first book to bring together the latest available genetic resources and genomics to facilitate the identification of specific germplasm, trait mapping, and allele mining that are needed to more effectively develop biotic and abiotic-stress-resistant grains. As grain cereals, including rice, wheat, maize, barley, sorghum, and millets constitute the bulk of global diets, both of vegetarian and non-vegetarian, there is a greater need for further genetic improvement, breeding, and plant genetic resources to secure the future food supply. This book is an invaluable resource for researchers, crop biologists, and students working with crop development and the changes in environmental climate that have had significant impact on crop production. It includes the latest information on tactics that ensure that environmentally robust genes and crops resilient to climate change are identified and preserved.

This book review series presents current trends in modern biotechnology. The aim is to cover all aspects of this interdisciplinary technology where knowledge, methods and expertise are required from chemistry, biochemistry, microbiology, genetics, chemical engineering and computer science. Volumes are organized topically and provide a comprehensive discussion of developments in the respective field over the past 3-5 years. The series also discusses new discoveries and applications. Special volumes are dedicated to selected topics which focus on new biotechnological products and new processes for their synthesis and purification. In general, special volumes are edited by well-known guest editors. The series editor and publisher will however always be pleased to receive suggestions and supplementary information. Manuscripts are accepted in English.