Kooperativer Bibliotheksverbund

UID:

Format: XVI, 528 S. : , Ill., graph. Darst., Kt.

ISBN: 0-262-14095-0 , 0-262-64064-3 , 978-0-262-14095-9 , 978-0-262-64064-0

Content: "This comprehensive overview of the modern Chinese economy by a noted expert on China's economic development offers a quality and breadth of coverage not found in any other English-language text. In The Chinese Economy, Barry Naughton provides both an engaging, broadly focused introduction to China's economy since 1949 and original insights based on his own extensive research. The book will be an essential resource for students, teachers, scholars, business people, and policymakers. It is suitable for classroom use for undergraduate or graduate courses." "After presenting background material on the pre-1949 economy and the industrialization, reform, and market transition that have taken place since, the book examines different aspects of the modern Chinese economy. It analyzes patterns of growth and development, including population growth and the one-child family policy, the rural economy, including agriculture and rural industrialization; industrial and technological development in urban areas; international trade and foreign investment; macroeconomic trends and cycles and the financial system; and the largely unaddressed problems of environmental quality and the sustainability of growth." "The text is notable also for placing China's economy in interesting comparative contexts, discussing it in relation to other transitional or developing economies and to such advanced industrial countries as the United States and Japan. It provides a broad historical and macro perspective as well as a focused examination of the actual workings of China's complex and dynamic economic development. Interest in the Chinese economy will continue to grow as China becomes an increasingly important player on the world's stage. This book will be the standard reference for understanding and teaching about the next economic superpower. Book jacket."--BOOK JACKET.

Note: Includes bibliographical references and index

Language: English

Subjects: Economics , Geography

Keywords: Wirtschaftspolitik ; Wirtschaftspolitik ; Wirtschaftsreform ; Wirtschaftswachstum ; Wirtschaftsentwicklung ; Lehrbuch

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

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Format: XXXIX, 520 S. : , Ill., graph. Darst., Kt.

ISBN: 0-88318-712-4 , 0-88318-711-6 , 978-0-88318-712-8

Content: "A superb reference." Physics Today "Will become a classic text in climate research. " Physics World "Valuable to anyone who studies, models, or uses the climate of the earth." Walter Robinson, Bulletin of the American Meteorological Society "Informative and authoritative on a remarkably wide range of topics." Nature Are we entering a period of global warming? Is weather predictable? Physics of Climate offers you an in-depth description of atmospheric circulation and how environmental phenomena worldwide interact in a single, unified system. This integrated approach unites all the key features of the climate system--oceans, atmosphere, and cryosphere--to explain the structure and behavior of climate over time. Ideal for students and professionals in meteorology, oceanography, geophysics, and physics.

Note: Hier auch später erschienene, unveränderte Nachdrucke

Language: English

Subjects: Physics , Geography

Keywords: Atmosphäre ; Klimatologie ; Physik ; Dynamische Meteorologie ; Klima ; Lehrbuch

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

UID:

Format: xxxii, 302 Seiten : , Diagramme.

ISBN: 978-1-108-41987-1 , 978-1-108-41987-1

Content: "Global climate change is a topic of continuously growing interest. As more international treaties come into force, media coverage has increased and many universities are now starting to conduct courses specifically on climate change laws and policies. This textbook provides a survey of the international law on climate change, explaining how significant international agreements have sought to promote compliance with general norms of international law.Benoit Mayer provides an account of the rules agreed upon through lengthy negotiations under the United Nations Framework Convention on Climate Change (UNFCCC) and multiple other forums on mitigation, geoengineering, adaptation, loss and damage and international support.The International Law on Climate Change is suitable for undergraduate and graduate students studying climate, environmental or international law. It is supported by a suite of online resources featuring regularly updated lists of complementary materials and weblinks, and annually updated briefs for specific chapters"...

Content: "Climate change is one of the greatest concerns of our time. For more than a quarter century, efforts have been made to mobilize international law as a tool to tackle climate change. Through the outcomes of protracted international negotiations and extensive doctrinal research, a new field of study has gradually emerged in international law. The international law on climate change is a system of State obligations to tackle climate change. It seeks to protect not only the sovereign rights of every State, but also the effective enjoyment of human rights, the interests of future generations and humankind as a whole, as well as other forms of life on Earth. The task is formidable: an attempt at altering the way we are changing our world. Some of the most complex negotiations ever undertaken have only touched the surface of the problem. The challenges are daunting, but the stakes are high and failure is not an option. It is hardly an overstatement that the fate of humankind depends on the international law on climate change"...

Language: English

Subjects: Law

Keywords: Klimaänderung ; Migration ; Gesetzgebung ; Klimaschutz ; Internationales Umweltrecht ; Lehrbuch

URL: http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030634152&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA

URL: Inhaltsverzeichnis

URL: Inhaltsverzeichnis

UID:

Format: X, 280 S. : , graph. Darst., Kt. , 1 CD-ROM (12 cm)

ISBN: 0-470-86172-X , 0-470-86173-8 , 978-0-470-86172-1 , 978-0-470-86173-8

Content: The weather can be a cause of disruption, despair and even danger everywhere around the world at one time or another. Even when benign it is a source of constant fascination. Applied Atmospheric Dynamics connects this interest with the theoretic underpinnings of fluid dynamics; linking real physical events as diverse as Hurricane Katrina and the strong katabatic winds of Antarctica, with quantitative conceptual models of atmospheric behaviour. Assuming only basic calculus the book provides a physical basis for understanding atmospheric motions around the globe as well as detailing the advances that have led to a greater understanding of weather and climate. The accompanying supplementary cd-rom features colour graphics, maps, databases, animations, project materials, as well as weather data tips.

Note: Includes bibliographical references and index

Language: English

Subjects: Geography

Keywords: Allgemeine atmosphärische Zirkulation ; Lehrbuch

URL: Table of contents

URL: Inhaltsverzeichnis

URL: http://bvbr.bib-bvb.de:8991/exlibris/aleph/a22_1/apache_media/5KU8XL8U5XD44TEL99YKJRMF99HTPK.pdf

URL: Table of contents

URL: Inhaltsverzeichnis

UID:

Format: x, 231 Seiten : , Illustrationen, Diagramme, Karte.

ISBN: 978-0-691-15761-0

Content: "Sustainability is a global imperative and a scientific challenge like no other. This concise guide provides students and practitioners with a strategic framework for linking knowledge with action in the pursuit of sustainable development, and serves as an invaluable companion to more narrowly focused courses dealing with sustainability in particular sectors such as energy, food, water, and housing, or in particular regions of the world. Written by leading experts, Pursuing Sustainability shows how more inclusive and interdisciplinary approaches and systems perspectives can help you achieve your sustainability objectives. It stresses the need for understanding how capital assets are linked to sustainability goals through the complex adaptive dynamics of social-environmental systems, how committed people can use governance processes to alter those dynamics, and how successful interventions can be shaped through collaborations among researchers and practitioners on the ground. The ideal textbook for undergraduate and graduate students and an invaluable resource for anyone working in this fast-growing field, Pursuing Sustainability also features case studies, a glossary, and suggestions for further reading. Provides a strategic framework for linking knowledge with action Draws on the latest cutting-edge science and practices. Serves as the ideal companion text to more narrowly focused courses. Utilizes interdisciplinary approaches and systems perspectives. Illustrates concepts with a core set of case studies used throughout the book. Written by world authorities on sustainability. An online illustration package is available to professors"...

Language: English

Subjects: Economics , Geography , General works

Keywords: Nachhaltigkeit ; Umweltpolitik ; Umweltökonomie ; Nachhaltigkeit ; Ressourcenökonomie ; Nachhaltigkeit ; Lehrbuch ; Glossar enthalten ; Lehrmittel

URL: http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028925376&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA

URL: Inhaltsverzeichnis

URL: http://press.princeton.edu/titles/10777.html

URL: http://www.gbv.de/dms/zbw/848294327.pdf

UID:

Format: 1 Online-Ressource (LVIII, 1748 Seiten) , Illustrationen

ISBN: 9783030521714

Series Statement: Springer Handbooks

Content: Basics of Atmospheric Measurement Techniques -- In-situ Measurement Techniques -- Remote Sensing Techniques (Ground-Based) -- Remote Sensing Techniques (Space- and Aircraft-Based) -- Complex Measurements - Methods and Applications -- Measurements Networks

Content: This practical handbook provides a clearly structured, concise and comprehensive account of the huge variety of atmospheric and related measurements relevant to meteorologists and for the purpose of weather forecasting and climate research, but also to the practitioner in the wider field of environmental physics and ecology. The Springer Handbook of Atmospheric Measurements is divided into six parts: The first part offers instructive descriptions of the basics of atmospheric measurements and the multitude of their influencing factors, fundamentals of quality control and standardization, as well as equations and tables of atmospheric, water, and soil quantities. The subsequent parts present classical in-situ measurements as well as remote sensing techniques from both ground-based as well as airborn or satellite-based methods. The next part focusses on complex measurements and methods that integrate different techniques to establish more holistic data. Brief discussions of measurements in soils and water, at plants, in urban and rural environments and for renewable energies demonstrate the potential of such applications. The final part provides an overview of atmospheric and ecological networks. Written by distinguished experts from academia and industry, each of the 64 chapters provides in-depth discussions of the available devices with their specifications, aspects of quality control, maintenance as well as their potential for the future. A large number of thoroughly compiled tables of physical quantities, sensors and system characteristics make this handbook a unique, universal and useful reference for the practitioner and absolutely essential for researchers, students, and technicians.

Additional Edition: Erscheint auch als Druck-Ausgabe, Festeinband ISBN 978-3-030-52170-7

Language: English

Subjects: Physics , Geography

Keywords: Meteorologische Messung ; Handbuch ; Fernerkundung ; Atmosphäre ; Meteorologie ; Methode ; Atmosphäre ; Messtechnik ; Methode ; Angewandte Meteorologie ; Fernerkundung ; Atmosphäre ; Messung ; Electronic books ; Lehrbuch

DOI: 10.1007/978-3-030-52171-4

URL: Volltext  (URL des Erstveröffentlichers)

URL: https://doi.org/10.1007/978-3-030-52171-4

Author information: Foken, Thomas 1949-

UID:

Format: 1 online resource (554 pages)

ISBN: 0-12-816060-8 , 0-12-816059-4

Note: Intro -- Ocean Currents: Physical Drivers in a Changing World -- Copyright -- Contents -- Acknowledgements -- Chapter 1: The restless ocean -- 1.1. Ten big questions -- 1.2. Organization vs. chaos -- 1.3. Measuring the ocean-Challenges and international organization -- 1.4. Measuring ocean currents -- 1.4.1. Drift measurements -- 1.4.2. Point measurements -- 1.4.3. Profile measurements -- 1.4.4. Radar measurements -- 1.5. Estimating ocean currents -- 1.5.1. Hydrography -- 1.5.2. Bottom pressure recorders -- 1.5.3. Satellite altimeters -- 1.5.4. Electrical cables -- 1.6. Computer simulation of ocean currents -- 1.7. An ocean of scales -- 1.8. Summary -- Chapter 2: Frameworks, data, and methods -- 2.1. Essential physics and scalar conservation -- 2.1.1. Seawater properties, the equation of state, and neutral surfaces -- 2.1.2. Conservation of mass, salt, and heat -- 2.2. Essential dynamics-With the flow and at a fixed point -- 2.2.1. Real forces -- 2.2.2. The effects of Earth's rotation -- 2.2.3. The equations of motion-Following the flow -- 2.2.4. Advection of momentum -- 2.2.5. The equations of motion-At a fixed point -- 2.3. Scaling arguments and approximating the equations of motion -- 2.4. Ocean and climate data products -- 2.4.1. Ocean observations (Argo) -- 2.4.2. Ocean reanalysis (GODAS) -- 2.4.3. Ocean analysis (EN4) -- 2.4.4. Air-sea fluxes (COREv2) -- 2.4.5. Atmospheric reanalysis (NCEP/NCAR) -- 2.4.6. Tropical cyclone tracks (IBTRaCS -- HURDAT) -- 2.4.7. Sea ice (NSIDC) and icebergs (IIP -- BYU/NIC) -- 2.5. Numerical models of the ocean and climate -- 2.5.1. Governing equations and approximations -- 2.5.2. Numerical solution -- 2.5.3. Meshes, grids, and vertical coordinates -- 2.5.4. Resolution, processes, and parameterizations -- 2.5.5. From bespoke to community codes -- 2.5.6. Coupling, complexity, and climate. , 2.6. Particle tracking -- 2.7. Resourcing Chapters 3-1234567891012 -- 2.8. Exercises -- Chapter 3: Surface drift, gyres, and the fate of plastic -- 3.1. Large scales in space and time -- 3.2. The restless atmosphere -- 3.2.1. A moist thermodynamic heat engine-Basics -- 3.2.2. Large-scale wind patterns -- 3.3. Local response to wind-Surface drift -- 3.3.1. Wind stress -- 3.3.2. The inertial response to a wind impulse -- 3.3.3. Balancing forces at the surface -- 3.3.4. Balancing forces sub-surface -- 3.3.5. Large-scale consequences -- 3.4. Basin-scale response-The great gyres -- 3.4.1. The wind-driven circulation and vorticity -- 3.4.2. Opposing vorticity tendencies -- 3.4.3. Horizontal pressure gradients and sea surface slopes -- 3.5. Gyre circulation and Ekman currents-The combined surface drift -- 3.6. Additional influences on surface and near-surface drift -- 3.7. Examples of surface drift at basin scale -- 3.7.1. Sargassum seaweed in the Sargasso Sea -- 3.7.2. Subsea volcanic eruptions and pumice rafts -- 3.7.3. Tsunami debris and container spills -- 3.7.4. The fate of plastics in the World Ocean -- Chapter 4: Western boundary currents and drifting organisms -- 4.1. Mapping and characterizing western boundary currents -- 4.2. Local force balance -- 4.2.1. Sea surface slopes -- 4.2.2. Horizontal density gradients -- 4.2.3. Estimating geostrophic currents -- 4.3. Basin-scale force balance -- 4.3.1. Conservation of absolute vorticity in the interior of a subtropical gyre -- 4.3.2. Balancing vorticity at the western boundary -- 4.3.3. Vorticity tendencies around a subtropical gyre -- 4.3.4. Leaving the boundary behind -- 4.4. Drift through western boundary current systems-Particle trajectories, ensemble statistics, and ecological consequences -- 4.4.1. The enigmatic first year in the life of sea turtles-Finding Nemo in NEMO. , 4.4.2. Tracing the fate and source of the Gulf Stream -- 4.4.3. Separation and retroflection -- 4.4.4. Vertical shear in western boundary currents and vertical motion along trajectories -- 4.5. Transports associated with western boundary currents -- 4.5.1. Hydrographic changes along western boundary current trajectories -- 4.5.2. Nutrient streams and wider biogeochemical contexts -- 4.5.3. Temperature-sensitive microbial ecology -- Chapter 5: Eastern boundary currents, upwelling, and high biological productivity -- 5.1. Mapping and characterizing EBC systems -- 5.1.1. Eastern boundaries in the subtropics-The `Big Four upwelling systems -- 5.1.2. The Leeuwin Current-An exception to the rule in the subtropics -- 5.1.3. Eastern boundaries in subpolar latitudes -- 5.2. Ekman dynamics in the presence of a coast -- 5.3. Geostrophy in the presence of topography -- 5.4. Slope currents -- 5.5. Drift along and across eastern boundary current systems-3D water parcel trajectories and the ecological consequences -- 5.5.1. The source of upwelled water, nutrients, and productivity -- 5.5.2. Sources of the European Slope Current and downstream influences on North Sea ecosystems -- Chapter 6: The tropical oceans, interannual climate variability, and ecosystem adaptation -- 6.1. Mapping and characterizing currents near the Equator -- 6.1.1. The Pacific -- 6.1.2. The Atlantic -- 6.1.3. The Indian Ocean -- 6.2. Ekman dynamics near the Equator -- 6.3. Tropical variability -- 6.3.1. Planetary waves near the Equator -- 6.3.2. El Niño and the Southern Oscillation -- 6.3.3. Tropical Instability Waves -- 6.4. Drift in the tropics-2D water parcel trajectories and some ecological consequences -- 6.4.1. Dispersal of coral spores and connectivity throughout the tropics -- 6.4.2. Re-visiting pumice drift-An eruption in the tropical South Pacific. , 6.4.3. Adaptation of sea turtles to tropical ocean currents -- 6.4.4. The Sargassum Crisis in the Atlantic -- 6.5. Tropical ocean circulation and climate variability -- 6.5.1. Recent ENSO variability and associated teleconnections -- 6.5.2. Variable Atlantic hurricane seasons -- 6.5.3. Western Indian Ocean warming and the South Asian Monsoon -- Chapter 7: From the northern subpolar oceans to the Arctic and its retreating sea ice -- 7.1. The northern cryosphere -- 7.1.1. Sea ice -- 7.1.2. Glacial ice -- 7.2. The atmosphere at mid and high latitudes -- 7.2.1. The jet stream -- 7.2.2. The stratospheric polar vortex (SPV) -- 7.2.3. The North Atlantic Oscillation (NAO) and the Arctic Oscillation (AO) -- 7.2.4. Greenland tip jets and intense air-sea interaction -- 7.3. Water masses of subpolar and high latitudes -- 7.3.1. Mode waters -- 7.3.2. Intermediate waters -- 7.3.3. Dense waters -- 7.4. Ocean circulation at subpolar and high latitudes -- 7.4.1. The subpolar North Atlantic and water mass transformation -- 7.4.2. The Greenland-Iceland-Norwegian Seas -- 7.4.3. The Arctic -- 7.4.4. The deep circulation -- 7.5. Variability and long-term change -- 7.5.1. Variability and recent events across the subpolar North Atlantic -- 7.5.2. Greenland mass imbalance and peripheral seas -- 7.5.3. The changing Arctic -- Chapter 8: From the Southern Ocean to Antarctica and its changing ice shelves -- 8.1. The southern cryosphere -- 8.1.1. Sea ice -- 8.1.2. Glacial ice -- 8.2. The atmosphere at southern high latitudes -- 8.2.1. Mid-latitude atmospheric circulation and the Roaring Forties -- 8.2.2. High latitude atmospheric circulation and the Southern Polar Vortex -- 8.2.3. Katabatic winds -- 8.2.4. The Southern Annular Mode -- 8.2.5. Air-sea exchanges of heat and freshwater -- 8.3. Water masses of the Southern Ocean and around Antarctica. , 8.3.1. Mode Waters and Intermediate Waters -- 8.3.2. Dense water preconditioning around Antarctica -- 8.3.3. Abyssal and Deep Waters -- 8.4. Surface and deep-reaching currents -- 8.4.1. Ekman currents in the Southern Ocean -- 8.4.2. The Antarctic Circumpolar Current (ACC) -- 8.4.3. Fronts, jets, and eddies -- 8.4.4. The subpolar gyres -- 8.4.5. Coastal and slope currents around Antarctica -- 8.5. Meridional overturning cells and sensitivity of the 3D circulation to wind forcing -- 8.5.1. The upper limb and CDW upwelling -- 8.5.2. The lower limb and AABW export -- 8.5.3. Sensitivity of the 3D circulation to wind forcing -- 8.6. Modelling the Southern Ocean-A brief history and the status quo -- 8.7. Applied contexts -- 8.7.1. Microplastics reaching the Southern Ocean and consequences for seabirds -- 8.7.2. Plastics reaching Antarctic waters -- 8.7.3. Ecological pathways to Antarctica -- 8.7.4. Natural and artificial iron fertilization -- 8.7.5. Heat and carbon uptake in the Southern Ocean -- 8.7.6. Interaction of warming ocean with Antarctic ice shelves and global sea level rise -- Chapter 9: Processes and flows in marginal seas -- 9.1. Processes in marginal seas -- 9.1.1. Turbulence and mixing -- 9.1.2. Tides -- 9.1.3. Seasonal stratification -- 9.1.4. Tidal mixing fronts and residual circulation -- 9.1.5. Runoff and freshwater -- 9.1.6. Exchanges -- 9.1.7. Summary of processes -- 9.2. Deep or isolated marginal seas -- 9.2.1. The Mediterranean and Black Seas -- 9.2.2. Red Sea and Persian Gulf -- 9.2.3. Japan and Okhotsk Seas -- 9.2.4. The Indonesian Seas -- 9.2.5. Caribbean Sea and Gulf of Mexico -- 9.3. Shelf seas -- 9.3.1. Northwest European shelf -- 9.3.2. China Seas -- 9.3.3. Sunda and Sahul shelves -- 9.3.4. Northeast US and east Canadian seaboard -- 9.3.5. Patagonian shelf -- 9.3.6. High-latitude shelf seas -- 9.4. Freshwater influences. , 9.4.1. Equatorial Atlantic.

Language: English

Keywords: Electronic books ; Lehrbuch

URL: Fulltext @ Ebook Central (AWI only)

UID:

Format: xiii, 210 Seiten , Illustrationen

Edition: [Final report]

ISBN: 9780309301831 , 0-309-30183-1

Content: Once ice-bound, difficult to access, and largely ignored by the rest of the world, the Arctic is now front and center in the midst of many important questions facing the world today. Our daily weather, what we eat, and coastal flooding are all interconnected with the future of the Arctic. The year 2012 was an astounding year for Arctic change. The summer sea ice volume smashed previous records, losing approximately 75 percent of its value since 1980 and half of its areal coverage. Multiple records were also broken when 97 percent of Greenland's surface experienced melt conditions in 2012, the largest melt extent in the satellite era. Receding ice caps in Arctic Canada are now exposing land surfaces that have been continuously ice covered for more than 40,000 years. What happens in the Arctic has far-reaching implications around the world. Loss of snow and ice exacerbates climate change and is the largest contributor to expected global sea level rise during the next century. Ten percent of the world's fish catches comes from Arctic and sub-Arctic waters. The U.S. Geological Survey estimated that up to 13 percent of the world's remaining oil reserves are in the Arctic. The geologic history of the Arctic may hold vital clues about massive volcanic eruptions and the consequent release of massive amount of coal fly ash that is thought to have caused mass extinctions in the distant past. How will these changes affect the rest of Earth? What research should we invest in to best understand this previously hidden land, manage impacts of change on Arctic communities, and cooperate with researchers from other nations? The Arctic in the Anthropocene reviews research questions previously identified by Arctic researchers, and then highlights the new questions that have emerged in the wake of and expectation of further rapid Arctic change, as well as new capabilities to address them. This report is meant to guide future directions in U.S. Arctic research so that research is targeted on critical scientific and societal questions and conducted as effectively as possible. The Arctic in the Anthropocene identifies both a disciplinary and a cross-cutting research strategy for the next 10 to 20 years, and evaluates infrastructure needs and collaboration opportunities. The climate, biology, and society in the Arctic are changing in rapid, complex, and interactive ways. Understanding the Arctic system has never been more critical; thus, Arctic research has never been more important. This report will be a resource for institutions, funders, policy makers, and students. Written in an engaging style, The Arctic in the Anthropocene paints a picture of one of the last unknown places on this planet, and communicates the excitement and importance of the discoveries and challenges that lie ahead.

Note: MAB0014.001: AWI P5-14-0057 , Contents: SUMMARY. - 1 INTRODUCTION. - Study Context and Charge to the Committee. - Study Approach and Methodology. - Report Organization. - 2 RATIONALE FOR CONTINUED ARCTIC RESEARCH. - 3 EMERGING QUESTIONS. - Evolving Arctic. - Will Arctic communities have greater or lesser influence on their futures?. - Will the land be wetter or drier, and what are the associated implications for surface water, energy balances, and ecosystems?. - How much of the variability of the Arctic system is linked to ocean circulation?. - What are the impacts of extreme events in the new ice-reduced system?. - How will primary productivity change with decreasing sea ice and snow cover?. - How will species distributions and associated ecosystem structure change with the evolving cryosphere?. - Hidden Arctic. - What surprises are hidden within and beneath the ice?. - What is being irretrievably lost as the Arctic changes?. - Why does winter matter?. - What can "break or brake" glaciers and ice sheets?. - How unusual is the current Arctic warmth?. - What is the role of the Arctic in abrupt change?. - What has been the Cenozoic evolution of the Arctic Ocean Basin?. - Connected Arctic. - How will rapid Arctic warming change the jet stream and affect weather patterns in lower latitudes?. - What is the potential for a trajectory of irreversible loss of Arctic land ice, and how will its impact vary regionally?. - How will climate change affect exchanges between the Arctic Ocean andsubpolar basins?. - How will Arctic change affect the long-range transport and persistence of biota?. - How will changing societal connections between the Arctic and the rest of the world affect Arctic communities?. - Managed Arctic. - How will decreasing populations in rural villages and increasing urbanization affect Arctic peoples and societies?. - Will local, regional, and international relations in the Arctic move toward cooperation or conflict?. - How can 21st-century development in the Arctic occur without compromising the environment or indigenous cultures while still benefiting global and Arctic inhabitants?. - How can we prepare forecasts and scenarios to meet emerging management needs?. - What benefits and risks are presented by geoengineering and other large-scale technological interventions to prevent or reduce climate change and associated impacts in the Arctic?. - Undetermined Arctic. - Priority Setting. - 4 MEETING THE CHALLENGES. - Enhancing Cooperation. - Interagency. - International. - Interdisciplinary. - Intersectoral. - Cooperation through Social Media. - Sustaining Long-Term Observations. - Rationale for Long-Term Observations. - Coordinating Long-Term Observation Efforts. - Managing and Sharing Information. - Preserving the Legacy of Research through Data Preservation and Dissemination. - Creating a Culture of Data Preservation and Sharing. - Infrastructure to Ensure Data Flows from Observation to Users, Stakeholders, and Archives. - Data Visualization and Analysis. - Maintaining and Building Operational Capacity. - Mobile Platforms. - Fixed Platforms and Systems. - Remote Sensing. - Sensors. - Power and Communication. - Models in Prediction, Projection, and Re-Analyses. - Partnerships with Industry. - Growing Human Capacity. - Community Engagement. - Investing in Research. - Comprehensive Systems and Synthesis Research. - Non-Steady-State Research. - Social Sciences and Human Capacity. - Stakeholder-Initiated Research. - International Funding Cooperation. - Long-Term Observations. - 5 BUILDING KNOWLEDGE AND SOLVING PROBLEMS. - REFERENCES. - APPENDIXES. - A Acronyms and Abbreviations. - B Speaker and Interviewee Acknowledgments. - C Summary of Questionnaire Responses. - D Biographical Sketches of Committee Members.

Language: English

Keywords: Lehrbuch

URL: http://www.nap.edu/catalog.php?record_id=18726

UID:

Format: 528 Seiten , Illustrationen, Diagramme , 26 cm x 16.5 cm

Edition: 5th revised edition

ISBN: 9783866305328 , 386630532X

Series Statement: European coatings library

Uniform Title: Das Rheologie-Handbuch 〈engl〉

Note: Contents 1. Introduction 1.1 Rheology, rheometry and viscoelasticity 1.2 Deformation and flow behavior 1.3 References 2 Flow behavior and viscosity 2.1 Introduction 2.2 Definition of terms 2.2.1 Shear stress 2.2.2 Shear rate 2.2.3 Viscosity 2.3 Shear load-dependent flow behavior 2.3.1 Ideal-viscous flow behavior 2.4 Types of flow illustrated by the Two-Plates model 2.5 References 3 Rotational tests 3.1 Introduction 3.2 Basic principles 3.2.1Test modes-controlled shear rate (CSR) and controlled shear stress (CSS), raw data and rheological parameters 3.3 Flow curves and viscosity functions 3.3.1 Description of the test 3.3.2 Shear-thinning flow behavior 3.3.3 Shear-thickening flow behavior 3.3.4 Yield point 3.3.5 Overview: flow curves and viscosity functions 3.3.6 Fitting functions for flow and viscosity curves 3.3.7 The effects of rheology additives in water-based dispersions 3.4 Time-dependent flow behavior and viscosity function 3.4.1 Test description 3.4.2 Time-dependent flow behavior of samples showing no hardening 3.4.3 Time-dependent flow behavior of samples showing hardening 3.5 Temperature-dependent flow behavior and viscosity function 3.5.1 Test description 3.5.2 Temperature-dependent flow behavior of samples showing no hardening 3.5.3 Temperature-dependent flow behavior of samples showing hardening 3.5.4 Fitting functions for curves of the temperature-dependent viscosity 3.6 Pressure-dependent flow behavior and viscosity function 3.7 References 4 Elastic behavior and shear modulus 4.1 Introduction 4.2 Definition of terms 4.2.1 Deformation and strain 4.2.2 Shear modulus 4.3 Shear load-dependent deformation behavior 4.3.1 Ideal-elastic deformation behavior 4.4 Yield point determination using the shear stress/deformation diagram 4.5 References 5 Viscoelastic behavior 5.1 Introduction 5.2 Basic principles 5.2.1 Viscoelastic liquids according to Maxwell 5.2.2 Viscoelastic solids according to Kelvin/Voigt 5.3 Normal stresses 5.4 References 6 Creep tests 6.1 Introduction 6.2 Basic principles 6.2.1 Description of the test 6.2.2 Ideal-elastic behavior 6.2.3 Ideal-viscous behavior 6.2.4 Viscoelastic behavior 6.3 Analysis 6.3.1 Behavior of the molecules 6.3.2 The Burgers model 6.3.3 Curve discussion 6.3.4 Definition of terms 6.3.5 Data conversion 6.3.6 Determination of the molar mass distribution 6.4 Determination of the yield point via creep tests 6.5 References 7 Relaxation tests 7.1 Introduction 7.2 Basic principles 7.2.1 Description of the test 7.2.2 Ideal-elastic behavior 7.2.3I deal-viscous behavior 7.2.4 Viscoelastic behavior 7.3 Analysis 7.3.1 Behavior of the molecules 7.3.2 Curve discussion 7.3.3 Definition of terms 7.3.4 Data conversion 7.3.5 Determination of the molar mass distribution 7.4 References 8 Oscillatory tests 8.1 Introduction 8.2 Basic principles 8.2.1 Ideal-elastic behavior 8.2.2 Ideal-viscous behavior 8.2.3 Viscoelastic behavior 8.2.4 Definition of terms 8.2.5 The test modes controlled shear strain and controlled shear stress, raw data and rheological parameters 8.3 Amplitude sweeps 8.3.1 Description of the test 8.3.3 Limiting value of the LVE range 8.3.4 Determination of the yield point and the flow point by amplitude sweeps 8.3.5 Frequency-dependence of amplitude sweeps 8.3.6 SAGS and LAOS tests, and Lissajous diagrams 8.4 Frequency sweeps 8.4.1 Description of the test 8.4.2 Behavior of uncrosslinked polymers (solutions and melts) 8.4.3 Behavior of crosslinked polymers5 8.4.4 Behavior of dispersions and gels 8.4.5 Comparison of superstructures using frequency sweeps 8.4.6 Multiwave test 8.4.7 Data conversion 8.5 Time-dependent behavior at constant dynamic-mechanical and isothermal conditions 8.5.1 Description of the test 8.5.2 Time-dependent behavior ofs amples showing no hardening 8.5.3 Time-dependent behavior of samples showing hardening 8.6 Temperature-dependent behavior at constant dynamic mechanical conditions 8.6.1 Description of the test 8.6.2 Temperature-dependent behavior of samples showing no hardening 8.6.3 Temperature-dependent behavior of samples showing hardening 8.6.4 Thermoanalysis (TA) 8.7 Time/temperature shift 8.7.1 Temperature shift factor according to the WLF method 8.8 The Cox/Merz relation 8.9 Combined rotational and oscillatory tests 8.9.1 Presetting rotation and oscillation in series 8.9.2 Superposition of oscillation and rotation 8.10 References 9 Complex behavior, surfactant systems 9.1 Surfactant systems 9.1.1 Surfactant structures and micelles 9.1.2 Emulsions 9.1.3 Mixtures of surfactants and polymers, polymers containing surfactant components 9.1.4 Applications of surfactant systems 9.2 Rheological behavior of surfactant systems 9.2.1 Typical shear behavior 9.2.2 Shear-induced effects, shear-banding and "rheochaos" 9.3 References 10 Measuring systems 10.1 Introduction 10.2 Concentric cylinder measuring systems (CCMS) 10.2.1 Cylinder measuring systems in general 10.2.2 Narrow-gap concentric cylinder measuring systems according to ISO3219 10.2.3 Double-gap measuring systems (DCMS) 10.2.4 High-shear cylinder measuring systems (HSMS) 10.3 Cone-and-plate measuring systems (CPMS) 10.3.1 Geometry 10.3.2 Calculations 10.3.3 Conversion between raw data and rheological parameters 10.3.4 Flow instabilities and secondary flow effects in CP systems 10.3.5 Cone truncation and gap setting 10.3.6 Maximum particle size 10.3.7 Filling of the cone-and-plate measuring system 10.3.8 Advantages and disadvantages of cone-and-plate measuring systems 10.4 Parallel-plate measuring systems (PPMS) 10.4.1 Geometry 10.4.2 Calculations 10.4.3 Conversion between raw data and rheological parameters 10.4.4 Flow instabilities and secondary flow effects in a PP system 10.4.5 Recommendations for gap setting 10.4.6 Automatic gap setting and automatic gap control using the normal force control option 10.4.7 Determination of the temperature gradient in the sample 10.4.8 Advantages and disadvantages of parallel-plate measuring systems 10.5 Mooney/Ewart measuring systems (MEMS) 10.6 Relative measuring systems 10.6.1 Measuring systems with sandblasted, profiled or serrated surfaces 10.6.2 Spindles in the form of disks, pins, and spheres 10.6.3 Krebs spindles 10.6.4 Paste spindles and rotors showing pins and vanes 10.6.5 Ball measuring systems (motion along a circular path) 10.6.6 Further relative measuring systems 10.7 Measuring systems for solid torsion bars 10.7.1 Bars showing a rectangular cross section 10.7.2 Bars showing a circular cross section 10.7.3 Composite materials 10.8 Special measuring devices 10.8.1 Special measuring conditions which influence rheology 10.8.2 Rheo-optical measuring devices 10.8.3 Other special measuring devices 10.8.4 Other kinds of testings besides shear tests 10.9 References 11 Instruments 11.1 Introduction 11.2 Short overview: methods for testing viscosity and elasticity 11.2.1 Very simple determinations 11.2.2 Flow on a horizontal plane 11.2.3 Spreading or slump on a horizontal plane after lifting a container 11.2.4 Flow on an inclined plane 11.2.5 Flow on a vertical plane or over a special tool 11.2.6 Flow in a channel, trough or bowl 11.2.7 Flow cups and other pressureless capillary viscometers 11.2.8 Devices showing rising, sinking, falling and rolling elements 11.2.9 Penetrometers, consistometers and texture analyzers 11.2.10 Pressurized cylinder and capillary devices 11.2.11 Simple rotational viscometer tests 11.2.12 Devices with vibrating oroscillating elements 11.2.13 Rotational and oscillatory curemeters (for rubber testing) 11.2.14 Tension testers 11.2.15 Compression testers 11.2.16 Linear shear testers 11.2.17 Bending or flexure testers 11.2.18 Torsion testers 11.3 Flow cups 11.3.1 ISO cups 11.3.2 Other types of flow cups 11.4 Capillary viscometers 11.4.1 Glas scapillary viscometers 11.4.2 Pressurized capillary viscometers 11.5 Falling-ball viscometers 11.6 Stabinger viscometer 11.7 Rotational and oscillatory rheometers 11.7.1 Rheometer set ups 11.7.2 Controll oops 11.7.3 Devices to measure to

Language: English

Keywords: Lehrbuch

URL: https://d-nb.info/1216579180/04

Author information: Mezger, Thomas G. 1954-

UID:

Format: 1 Online-Ressource (XVI, 723 Seiten) , Illustrationen

Edition: corrected publication 2019

Edition: Online edition Springer eBook Collection. Biomedical and Life Sciences

ISBN: 9783319773155 , 978-3-319-77315-5

Content: Intended as a text for upper-division undergraduates, graduate students and as a potential reference, this broad-scoped resource is extensive in its educational appeal by providing a new concept-based organization with end-of-chapter literature references, self-quizzes, and illustration interpretation. The concept-based, pedagogical approach, in contrast to the classic discipline-based approach, was specifically chosen to make the teaching and learning of plant anatomy more accessible for students. In addition, for instructors whose backgrounds may not primarily be plant anatomy, the features noted above are designed to provide sufficient reference material for organization and class presentation. This text is unique in the extensive use of over 1150 high-resolution color micrographs, color diagrams and scanning electron micrographs. Another feature is frequent side-boxes that highlight the relationship of plant anatomy to specialized investigations in plant molecular biology, classical investigations, functional activities, and research in forestry, environmental studies and genetics, as well as other fields. Each of the 19 richly-illustrated chapters has an abstract, a list of keywords, an introduction, a text body consisting of 10 to 20 concept-based sections, and a list of references and additional readings. At the end of each chapter, the instructor and student will find a section-by-section concept review, concept connections, concept assessment (10 multiple-choice questions), and concept applications. Answers to the assessment material are found in an appendix. An index and a glossary with over 700 defined terms complete the volume

Note: Contents I Plants as Unique Organisms; History and Tools of Plant Anatomy 1 The Nature of Plants 1.1 Plants Have Multiple Pigments with Multiple Functions 1.2 Plants Use Water, and the Properties of Water, in Unique Ways 1.3 Plants Use Anabolic Metabolism to Manufacture Every Molecule Needed for Growth and Produce Virtually No Waste 1.4 Cell Walls Are Nonliving Matrices Outside the Plant Cell Membrane that House and/or Perform a Variety of Functions 1.5 The Plant Life Cycle Alternates Between a Haploid Gametophyte Stage and a Diploid Sporophyte Stage 1.6 Meristematic Activity Continues Throughout the Life of a Plant 1.7 Fruits Disperse Seeds Through Space: Dormancy Disperses Seeds Through Time 1.8 Earth’s History Is Divided into Four Major Time Periods 1.8.1 The Precambrian: 4550 to 542 mya 1.8.2 The Paleozoic Era: 542 to 251 mya 1.8.3 The Mesozoic Era: 251–66 mya 1.8.4 The Cenozoic Era: 66 mya to Present 1.9 Life on Earth Has Experienced Five Mass Extinctions: A Sixth Is in Progress 1.10 Many Plants and Animals Have Coevolved 1.11 The Plant Body Consists of Four Organs 1.11.1 Roots 1.11.2 Stems 1.11.3 Leaves 1.11.4 Flowers and Fruit 1.12 Plant Organs Are Initially Made of Three Tissues 1.13 “Plant” Can Be Broadly Defined 1.14 Bryophytes Lack Vasculature and Produce Spores 1.15 Ferns and Fern Allies Are Seedless Tracheophytes 1.16 Gymnosperms Are Seed-Producing Tracheophytes that Lack Flowers and Fruit 1.17 Monocots and Eudicots Are the Two Largest Groups of Angiosperms 1.18 Understanding Plant Structure Requires a Sense of Scale 1.19 “Primary” and “Secondary” Are Important Concepts in Plant Anatomy 1.19.1 Primary Versus Secondary Growth and Meristems 1.19.2 Primary Versus Secondary Xylem and Phloem 1.19.3 Primary Versus Secondary Cell Walls 1.20 Chapter Review References and Additional Readings 2 Microscopy and Imaging 2.1 Robert Hooke, 1635–1703, Described a Cell as the Basic Unit of Life by Studying the Bark of the Cork Oak Tree, Quercus suber 2.2 Antoni Van Leeuwenhoek, 1632–1723, Was the First Scientist to Observe Microorganisms 2.3 Nehemiah Grew, 1641–1712, Was the Father of Plant Anatomy 2.4 Robert Brown, 1773–1858, Discovered the Nucleus of the Cell by Studying Orchid Petals 2.5 Katherine Esau, 1898–1997, Advanced the Field of Plant Anatomy with Her Influential Textbooks 2.6 Light Microscopy: The Most Useful Tool of the Plant Anatomist 2.7 The Compound Light Microscope Uses Multiple Lenses to Form and Capture Images 2.8 The Resolving Power of a Lens Places Limits on Resolution and Magnification 2.9 The Confocal Microscope Allows for Sharper Detail, Computer Control, and 3-D Imaging with a Modified Compound Microscope 2.10 Electron Microscopy Allows a View into the World of Cellular Ultrastructure 2.11 The Transmission Electron Microscope Reveals Internal Cellular Detail 2.12 The Scanning Electron Microscope Resolves Surface Detail 2.13 Different Microscopies Produce Different Images of the Same Specimen 2.14 Chapter Review References and Additional Readings II Cellular Plant Anatomy 3 Plant Cell Structure and Ultrastructure 3.1 Plant Cells Are Complex Structures 3.2 Plant Cells Synthesize an External Wall and Contain a Variety of Internal Compartments 3.3 Cells and Cell Organelles Are Typically Bound by Lipid Bilayer Membranes 3.4 Vacuoles Play a Role in Water and Ion Balance 3.5 Plastids Are a Diverse Family of Anabolic Organelles 3.5.1 Proplastid 3.5.2 Etioplast 3.5.3 Elaioplast 3.5.4 Amyloplast 3.5.5 Chromoplast 3.5.6 Gerontoplast 3.5.7 Chloroplast 3.5.8 Chloroplast Functions 3.5.9 The Dimorphic Chloroplasts of C 4 Photosynthesis 3.5.10 Guard Cell Chloroplasts 3.5.11 Sun Versus Shade Chloroplasts 3.6 All Plastids Are Developmentally Related 3.7 Mitochondria Synthesize ATP and Small Carbon Skeletons 3.8 Microbodies Are the Site of Specific Biochemical Pathways 3.9 The Endoplasmic Reticulum Synthesizes Proteins and Some Lipids 3.10 The Golgi Apparatus Processes and Packages Polysaccharides and Proteins for Secretion 3.11 The Nucleus Houses the Cell’s Genetic Material and Participates in Ribosome Synthesis 3.12 The Cytoskeleton Organizes the Cell and Helps Traffic Organelles 3.13 Chapter Review References and Additional Readings 4 Mitosis and Meristems 4.1 The Plant Cell Cycle Includes Interphase, Mitosis, and Cytokinesis 4.2 A Pre-prophase Microtubule Band Precedes Mitosis and Defines the Plane of Cell Division 4.3 Mitosis May Be Divided into Distinct, but Continuous, Stages 4.4 Cytokinesis Begins with Initiation of the Cell Plate and Grows by the Deposition of Callose 4.5 Microtubules Play a Critical Role in Mitosis and Cytokinesis 4.6 Apical Meristems Are the Sites of Primary Growth 4.7 The Shoot Apical Meristem Is the Site of Lateral Organ Initiation 4.8 Axillary Buds Arise De Novo in the Developing Leaf Axis 4.9 Tunica-Corpus Organization Describes Shoot Apical Meristem Growth in Many Eudicots 4.10 Gymnosperms Do Not Possess a Tunica-Corpus 4.11 The Root Apical Meristem Provides the Primary Growth of Roots 4.12 Lateral Roots Originate from Inside the Pericycle, Not from the Root Apical Meristem 4.13 Intercalary Meristems Contribute to Stem and Leaf Growth in Monocots 4.14 Many Lower Vascular Plants Have a Single Initial Cell in the Shoot and Root Apical Meristems 4.15 Lateral Meristems Are the Site of Secondary Growth in Eudicots 4.16 Chapter Review References and Additional Readings 5 Cell Walls 5.1 Transparent Plant Cell Walls Contain Cellulose and Are Synthesized to the Exterior of the Protoplast 5.2 Primary Cell Walls Are a Structural Matrix of Cellulose and Several Other Components 5.3 Plasmodesmata Connect Adjacent Cells Via Holes in the Primary Cell Wall 5.4 Secondary Cell Walls Are Rigid, Thick, and Lignified 5.5 Pits Are Holes in the Secondary Cell Wall 5.6 Transfer Cells Have Elaborated Primary Cell Walls for High Rates of Transport 5.7 Chapter Review References and Additional Readings 6 Parenchyma, Collenchyma, and Sclerenchyma 6.1 Parenchyma Cells Are the Most Common Plant Cell Type 6.2 Parenchyma Cells May Exhibit Totipotency 6.3 Collenchyma Cells Are Used for Support and Are the Least Common Cell Type 6.4 Birefringence Is a Common Phenomenon in Collenchyma Walls 6.5 Sclerenchyma Cells Provide Support, Protection, and Long-Distance Water Transport 6.6 Fibers Impart Support and Protection 6.7 Sclereids Are Reduced Sclerenchyma Cells That Occur Singly or in Clumps 6.8 Xylem Vessel Elements Are Water-Conducting Sclerenchyma 6.9 Chapter Review References and Additional Readings III Vascular Tissues 7 Xylem 7.1 Xylem Is a Complex Tissue Containing Multiple Cell Types, Each with a Specific Structure and Function 7.2 The Primary Functions of Xylem Are Water Conduction, Mineral Transport, and Support 7.3 Tracheids Are Imperforate Tracheary Elements and the Sole Water Conductors in Gymnosperms 7.4 Angiosperm Tracheids, Fiber Tracheids, and Libriform Fibers Represent a Continuum of Imperforate Tracheary Element Design and Function 7.5 Vessel Elements Are Perforate Cells and the Main Water Conductors in Angiosperms 7.6 Vessel Element Side Walls Are Patterned for Strength and Water Movement 7.7 Most Vessel Elements End in a Perforation Plate and Are Connected to Another Vessel Element 7.8 Xylem Parenchyma Are Living Cells Involved in Xylem Metabolism and Protection 7.9 Chapter Review References and Additional Readings 8 Phloem 8.1 Phloem Is a Complex Tissue Containing Multiple Cell Types, Each with a Specific Structure and Function 8.2 Phloem’s Main Function Is Photosynthate Translocation 8.3 Sieve Tube Elements Are Living Cells Responsible for Translocation 8.4 Companion Cells Support the Sieve Tube Element and Are Involved in Phloem Loading and Unloading in Angiosperms 8.5 Phloem Parenchyma Cells Are Involved in Radial Translocation, Xylem/Phloem Coordination, and Storage 8.6 Phloem Fibers Protect the Delicate Sieve Tubes 8.7 Secondary Phloem Typically Only Functions for One Growing Season 8.8 Gymnosperm Phloem Is Simpler Than An

Language: English

Keywords: Electronic books ; Lehrbuch

URL: http://dx.doi.org/10.1007/978-3-319-77315-5