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Soil- Water- Root Processes
Rapid advances in tomography and imaging techniques and their successful application in soil and plant science are changing our sciences today. Many more articles using imaging and tomography are being published currently compared to 20 years ago. Soil–Water–Root Processes: Advances in Tomography and Imaging is a unique assemblage of contributions exploring applications of imaging and tomography systems in soil science—it provides an updated collection of X-ray computed tomography, synchrotron microtomography, neutron imaging, magnetic resonance imaging, geophysical imaging tools, and other tomography techniques for evaluating soils and roots. Exciting new procedures and applications have been developed, with the promise to propel forward our understanding of soil and plant properties and processes.
Agricultural Nanobiotechnology
Nanobiotechnology in agriculture is a new knowledge area that offers novel possibilities to achieve high productivity levels at manageable costs during the production and merchandising of crops. This book shows us how we can use the cutting-edge knowledge about agriculture, nanotechnology, and biotechnology to increase the agricultural productivity and shape a sustainable future in order to increase the social welfare in rural areas and preserve the environmental health. Specialists from several countries will provide their feedback on a range of relevant topics such as environment-friendly use of nanofertilisers, nanodevices, nano-food packaging, nanocoating and nanocarriers and their relationship with the modern agriculture.
Advances in Visual Computing
This two-volume set LNCS 15046 and 15047 constitutes the refereed proceedings of the 17th International Symposium, ISVC 2024, held at Lake Tahoe, NV, USA, during October 21-23, 2024. The 54 (60) full papers and 12 poster papers were carefully reviewed and selected from 120 submissions. A total of 8 (13) papers were also accepted for oral presentation in special tracks from 15 submissions. The papers cover the following topical sections: Part I: Deep Learning; Computer Graphics; Video Analysis and Event Recognition; Motion and Tracking; Detection and Recognition; Visualization, and Medical Image Analysis. Part II: Segmentation; Recognition; Generalization in Visual Machine Learning; Vision and Robotics for Agriculture; Virtual Reality; Applications, and Poster.
Nanotechnology-Based Detection and Remediation for the Environment, Food and Agriculture
Nanotechnology is not just a tool of the future—it is the catalyst transforming how we detect, protect, and sustain the world around us. Nanotechnology surpasses conventional techniques by offering unparalleled precision, efficiency, and scalability. It enables real-time detection, targeted remediation, and resource optimization in ways traditional methods cannot achieve. From revolutionizing environmental cleanup to enhancing food safety and agricultural practices, nanotechnology is the key to sustainable innovation in a rapidly changing world. This book illuminates cutting-edge research and charts a visionary path for leveraging nanotechnology to address global challenges in the environment, food safety, and agriculture. From ensuring food quality to revitalizing soil and purifying water, it offers innovative solutions to safeguard our planet's resources and future.
Emerging Pollutant Treatment in Wastewater
This book highlights the innovations and techniques to identify and treat emerging pollutants in waste and polluted water. It begins with the classification of emerging pollutants and is followed by a review on existing detection and elimination techniques as well as the current regulations in place. Subsequent chapters cover membrane-based separation processes, polymer-based or resin-based water filters, functional materials, nanomaterials-based adsorbents, microplastics and a summary of the potential solutions in treating or removing emerging pollutants. Features Presents an overview of current and developing treatment technologies for water polluted with emerging pollutants Gives an in-depth account and analysis of advanced materials and methods for separation and treatment Reviews analytical techniques applied to detect emerging pollutants Discusses the overall effect of policies on current chemicals/plastics/APIs in the market Includes pertinent case studies and regulations This book is aimed at researchers, professionals and graduate students in environmental, civil and chemical engineering and waste and drinking water treatment.
Subsoil Compaction
Teory; Modelling; Properties; Distribution; Methods.
Transactions of the American Society of Civil Engineers
Vols. 29-30 contain papers of the International Engineering Congress, Chicago, 1893; v. 54, pts. A-F, papers of the International Engineering Congress, St. Louis, 1904.
Quantifying and Modeling Soil Strucure Dynamics
Quantifying and Modeling Soil Structure Dynamics emphasizes a systems approach to how soil structure changes in response to inputs and to the environment. Soil structure is a dynamic, complex system affected by tillage, wheel traffic, roots, soil life, shrink–swell, and freeze–thaw. In turn, soil structure affects root growth and function, soil fauna, solute transport, water infiltration, gas exchange, thermal and electrical conductivities, traffic bearing capacity, and more. Ignoring soil structure or viewing it as “static” can lead to poor predictions and management. Readers will especially appreciate the description of soil structure influence on endpoints, such as environmental contamination and efficient water use, and how models should be adjusted to include dynamic soil structure components for accurate outputs.
Das Schweizer Buch
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Der Führer
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