Practical guide for transport policymakers and planners to achieve low-carbon land transport systems. Based on wide ranging research, it shows how policies can be bundled successfully and worked into urban transport decision-making and planning strategies. With case studies from developed and developing countries, it outlines measures for reducing emissions, tailoring these to specific circumstances. It also highlights how greenhouse gas savings are measured, as well as success factors for implementing policies and measures in complex decision-making processes. For students of sustainable transport, professional planners and decision makers, Low-Carbon Land Transport is an invaluable reference for all those looking to help transport networks flow in a sustainable direction.
In this interdisciplinary textbook, which bridges the gap between the natural and social sciences both, the scientific principles of restoration ecology and practical aspects of ecosystem restoration are comprehensively presented. The diversity of land-use types with a focus on Central Europe is highlighted and case studies of practical restoration projects are presented. The textbook offers students who deal with the environment as well as scientists and practitioners a profound and up-to-date, but also critical overview of the state of knowledge. This book opens up the broad spectrum of degraded ecosystems of Central European natural and cultural landscapes. In further chapters, marine ecosystems and their restoration as well as development potentials and the limits of restoration are discussed in more detail. The ecological fundamentals are expanded through an interdisciplinary perspective taking into account environmental ethics, sociology, anthropology, and economics. In addition to an up-to-date overview of the various areas and fields of activity in restoration ecology and ecosystem restoration, the textbook provides a valuable basis for studies, science, and practice. The students also receive assistance in searching for literature and critical fact analysis, and the lecturers on teaching formats and interdisciplinary approaches to discussion in restoration ecology.
This book provides a first overview of the phemonemon of post-industrial urban wilderness: urban landscapes once shaped by heavy industry that are being re-colonized naturally by forests. These new types of urban woodlands are often overlooked by ecologists, foresters and planners. Individual chapters consider urban woodlands from the perspectives of ecology, environmental sociology, forestry, nature conservation and landscape architecture.
Stefan Nanz investigates the necessity for three multipole families in classical electrodynamics. He shows that by imposing symmetry and parity constraints, it is sufficient to deal with only two multipole families. This implies that the toroidal multipole moments do not represent an independent multipole family, and they only emerge in the long-wavelength limit.
This open access book aims to consolidate and advance debates on European and global energy poverty by exploring the political and infrastructural drivers and implications of the condition across a variety of spatial scales. It highlights the need for a geographical conceptualization of the different ways in which household-level energy deprivation both influences and is contingent upon disparities occurring at a wider range of spatial scales. There is a strong focus on the relationships among energy transformation, institutional change and place-based factors in determining the nature and location of energy-related injustices. The book also explores how patterns and structures of energy poverty have changed over time, as evidenced by some of the common measures used to describe the condition. In part, this means investigating the makeup of energy poor demographics across various social and spatial cleavages. More broadly, it also argues that energy sector reconfigurations are both reflected in and shaped by various domains of social and political organization, especially in terms of creating poverty-relevant outcomes.
A practical human rights approach strengthens environmental protection without requiring radical departures from established protection regimes and legal principles.
Lianas are woody vines that were the focus of intense study by early ecologists, such as Darwin, who devoted an entire book to the natural history of climbing plants. Over the past quarter century, there has been a resurgence in the study of lianas, and liana are again recognized as important components of many forests, particularly in the tropics. The increasing amount of research on lianas has resulted in a fundamentally deeper understanding of liana ecology, evolution, and life-history, as well as the myriad roles lianas play in forest dynamics and functioning. This book provides insight into the ecology and evolution of lianas, their anatomy, physiology, and natural history, their global abundance and distribution, and their wide-ranging effects on the myriad organisms that inhabit tropical and temperate forests.
This textbook introduces the fundamental concepts and methods of corpus linguistics for students approaching this topic for the first time, putting specific emphasis on the enormous linguistic diversity represented by approximately 7,000 human languages and broadening the scope of current concerns in general corpus linguistics. Including a basic toolkit to help the reader investigate language in different usage contexts, this book: Shows the relevance of corpora to a range of linguistic areas from phonology to sociolinguistics and discourse Covers recent developments in the application of corpus linguistics to the study of understudied languages and linguistic typology Features exercises, short problems, and questions Includes examples from real studies in over 15 languages plus multilingual corpora Providing the necessary corpus linguistics skills to critically evaluate and replicate studies, this book is essential reading for anyone studying corpus linguistics.
This book offers perspectives on how to develop a sustainable global balance of urbanization, land-use intensification, land abandonment, and multifunctional cultural landscapes. The focus is on the latter by describing the large variety of traditional cultural landscapes having evolved through centuries or even millennia by the use of the natural, terrestrial and aquatic resources. Those cultural landscapes encompass pasture, agroforestry, terraced, irrigation, coastal, monastic, and sacred landscapes as well as lake-, river-, and saltscapes. The restoration of low-input land-use systems which often carry a high biodiversity on the species, ecosystem, and landscape level as well as agrobiodiversity and agrodiversity is outlined. The restoration of multifunctional and diverse landscapes, however, is not only an ecological issue but encompasses many socio-economic aspects such as e.g., the revitalization of villages, eco-tourism, healthy food production, infrastructure, and rural-urban partnerships. Global environmental problems, which are related to urbanization and the intensification of the use of land and water resources are comprehensively outlined. Land abandonment which occurs on all continents is qualitatively and quantitatively assessed and the consequences for natural and cultural heritage loss is highlighted. With the presentation of current rural development and landscape conservation strategies on the national as well as international level, the topic reflects the high significance of environmental policy on the global scale. The global implementation of natural and cultural heritage conservation is, for example, given by the UNESCO World Heritage Sites, National Parks, Biosphere Reserves, Globally Important Agricultural Heritage Sites, High Nature Value Farmland, and the Satoyama initiative. However, also the “every-day” landscapes can contribute to biodiversity and strong sustainability. This comprehensive compendium, based on about 4,000 references of scientific studies, literature reviews, project reports, and environmental policy papers is thought for all students, scholars, and stakeholders from multifaceted disciplines, interested in multifunctional cultural landscapes and how traditions and innovation on the landscape level can be merged for a sustainable future on our planet. Case studies from all over the world are presented which can be used in Higher Education or to demonstrate the numerous approaches of sustainable rural development.
This study is organized around three themes: the origin and early diversification of life during the Archean Eon; the maturation of life and the Earth during the long Proterozoic Eon; and the explosive diversification of multicellular life that marks the dawn of the Phanerozoic Eon. The contributors discuss the coherence of history, the combinatorial generation of taxonomic diversity, early Metazoan evolution, and the Cambrian explosion.
Although numerous disciplines recognize multiple ways of conceptualizing time, Stefan Tanaka argues that scholars still overwhelmingly operate on chronological and linear Newtonian or classical time that emerged during the Enlightenment. This short, approachable book implores the humanities and humanistic social sciences to actively embrace the richness of different times that are evident in non-modern societies and have become common in several scientific fields throughout the twentieth century. Tanaka first offers a history of chronology by showing how the social structures built on clocks and calendars gained material expression. Tanaka then proposes that we can move away from this chronology by considering how contemporary scientific understandings of time might be adapted to reconceive the present and pasts. This opens up a conversation that allows for the possibility of other ways to know about and re-present pasts. A multiplicity of times will help us broaden the historical horizon by embracing the heterogeneity of our lives and world via rethinking the complex interaction between stability, repetition, and change. This history without chronology also allows for incorporating the affordances of digital media.
This book presents a new narrative on the eurozone crisis. It argues that the common currency has the potential to kill the European Union, and the conventional wisdom that the eurozone can be fixed by a common budget and further political integration is incorrect. The authors address key questions such as why the European Union and the single market have been successful, why the common currency poses a threat to European integration, and whether it is possible to either fix the eurozone or dissolve it while keeping the EU and the single market. Contrary to the view that it would be best if the Southern European countries left the eurozone first, the book makes the case that the optimal solution would be to start the process with the most competitive countries exiting first. The authors argue that a return to national currencies would be beneficial not only to the crisis-ridden southern countries, but also to France and Germany, which were the main promoters of the single currency. An organised unwinding of the euro area would be beneficial both for the European economy and for Europe’s main trading partners. The authors contend that to defend the euro at all costs weakens the European economy and threatens the cohesion of the European Union. If pro-European and pro-market EU leaders do not dismantle the eurozone, it will most likely be done by their anti-European and anti-market successors. If that happens, the European Union and the common market will be destroyed. This book will be a useful and engaging contribution to the existing literature in the fields of macro, monetary and international finance and economics.
The Global Financial Crisis has reopened discussions on the role of the monetary policy in preserving financial stability. Determining whether monetary policy affects financial variables domestically—especially compared to the effects of macroprudential policies— and across borders, is crucial in this context. This paper looks into these issues using U.S. exogenous monetary policy shocks and macroprudential policy measures. Estimates indicate that monetary policy shocks have significant and persistent effects on financial conditions and can attenuate long-term financial instability. In contrast, the impact of macroprudential policy measures is generally more immediate but shorter-lasting. Also, while an exogenous increase in U.S. monetary policy rates tends to reduce credit and house prices in other countries—with the effects varying with country-specific characteristics—an increase driven by improved U.S. economic conditions tends to have the opposite effect. Finally, we do not find evidence of cross-border spillover effects associated with U.S. macroprudential policies.
This book traces the full history of noise in and around cars, shows how we created auditory privacy in our cars, even though they were highly noisy things at the beginning of the twentieth century. It is about the sounds of car engines, tires, wipers, blinkers, warning signals, in-car audio systems and, ultimately, about how we became used to listen while driving.
This work examines the complex relationship between economic and non-economic objectives in WTO law. It discusses how non-economic objectives can serve as justification for trade-restrictive measures normally prohibited under WTO law.
Macromolecular self-assembly - driven by weak, non-covalent, intermolecular forces - is a common principle of structure formation in natural and synthetic organic materials. The variability in material arrangement on the nanometre length scale makes this an ideal way of matching the structure-function demands of photonic and optoelectronic devices. However, suitable soft matter systems typically lack the appropriate photoactivity, conductivity or chemically stability. This thesis explores the implementation of soft matter design principles for inorganic thin film nanoarchitectures. Sacrificial block copolymers and colloids are employed as structure-directing agents for the co-assembly of solution-based inorganic materials, such as TiO_2 and SiO_2. Novel fabrication and characterization methods allow unprecedented control of material formation on the 10 – 500 nm length scale, allowing the design of material architectures with interesting photonic and optoelectronic properties.
Elite tennis players like Rodger Federer or Rafael Nadal not only perceive everything that is happening around them, but they also foresee the next game situations. This "mental speed" lays the foundation to build master performances in extremely complex situations. The Mental Game: Cognitive Training, Creativity, and Game Intelligence in Tennis provides a theoretical framework in which anticipation, perception, attention, and memory processes play a big role in a tennis player's ability to win on the court. The diagnostic tools and useful examples aid the training of cognitive abilities. With more than 50 on-court practice drills to build game intelligence, every tennis player will strengthen their mental game and win their matches.
In A Book of Waves Stefan Helmreich examines ocean waves as forms of media that carry ecological, geopolitical, and climatological news about our planet. Drawing on ethnographic work with oceanographers and coastal engineers in the Netherlands, the United States, Australia, Japan, and Bangladesh, Helmreich details how scientists at sea and in the lab apprehend waves’ materiality through abstractions, seeking to capture in technical language these avatars of nature at once periodic and irreversible, wild and pacific, ephemeral and eternal. For researchers and their publics, the meanings of waves also reflect visions of the ocean as an environmental infrastructure fundamental to trade, travel, warfare, humanitarian rescue, recreation, and managing sea level rise. Interleaving ethnographic chapters with reflections on waves in mythology, surf culture, feminist theory, film, Indigenous Pacific activisms, Black Atlantic history, cosmology, and more, Helmreich demonstrates how waves mark out the wakes and breaks of social histories and futures.
Why does nature prefer some shapes and not others? The variety of sizes, shapes, and irregularities in nature is endless. Skillfully integrating striking full-color illustrations, the authors describe the efforts by scientists and mathematicians since the Renaissance to identify and describe the principles underlying the shape of natural forms. But can one set of laws account for both the symmetry and irregularity as well as the infinite variety of nature's designs? A complete answer to this question is likely never to be discovered. Yet, it is fascinating to see how the search for some simple universal laws down through the ages has increased our understanding of nature. The Parsimonious Universe looks at examples from the world around us at a non-mathematical, non-technical level to show that nature achieves efficiency by being stingy with the energy it expends.
This book examines the sizeable Portuguese community in Ayutthaya, the chief river-state in Siam, during a period in which Portuguese power in the region declined. The analysis turns on the creolization and diaspora that affected this community, as well as problems with international trade, the Christian conversion process, and European rivalries.
Drying grain is necessary for proper storage, handling and processing; the methods used for drying grain have an important influence on quality and the overall economics of the process. This book provides all the tools needed for effective grain drying, inculding mathematical theory, tabulated data on the physical and thermal properties of grains, and more.
A high percentage of patients with dementia experience debilitating pain. Untreated, it can result in mental and physical impairment; a higher frequency of neuropsychiatric symptoms such as agitation, depression, and sleep problems; and adverse events such as falls, hallucination, and even death. With the help of Pain in Dementia, you can learn new ways to give these patients a better quality of life! A multidisciplinary team of leading experts navigates the complex clinical challenges associated with pain among these patients. They identify the sources of pain, even in patients who have trouble communicating, and recommend the most effective pain treatment options.
Covers the most recent methods and materials for the construction, validation, analysis, and design of electrochemical sensors for bioanalytical, clinical, and pharmaceutical applications--emphasizing the latest classes of enantioselective electrochemical sensors as well as electrochemical sensors for in vivo and in vitro diagnosis, for DNA assay and HIV detection, and as detectors in flow systems. Contains current techniques for the assay or biochemical assay of biological fluids and pharmaceutical compounds.
The human brainstem has long been a neglected area in clinical medicine. This is shown by the fact that there is no introductory book on the neuroanatomy and pathology of this region. This book is intended to introduce the reader to the neuroanatomy of the human brainstem and combines an atlas with detailed information on the individual structures. The atlas features a state-of-the-art magnetic resonance imaging series, histological specimens (Darrow Red and Campbell staining) and a plastinate-based topographical part, which allows direct comparison of histological and topographical findings with neuroimaging. In addition, the reader is guided along the brainstem neuromer model through the human brainstem and learns about the functional properties of the individual structures of the brainstem. Where appropriate, peripheral targets of brainstem structures are illustrated and explained. Furthermore, each chapter covers the most important neurological disorders affecting the brainstem. This book aims to demonstrate that sound anatomical knowledge is required to understand brainstem pathology. It will particularly help those new to the field to better understand the complex anatomy of the human brainstem and will be useful to basic and clinical neuroscientists alike.
An examination of the state of the art in stratification research, looking at data, methods, theory, and new empirical findings in social inequality, life course, and cross-national comparative sociology.
With the increasing world-energy demand there is a growing necessity for clean and renewable energy. This book offers an introduction to these new types of solar cells and discusses fabrication, different architectures and their device physics on the bases of the author's teaching course on a master degree level. A comparison with conventional solar cells is given and the specialties of organic solar cells emphasized.
In the course of a decade's work on the mountains of East Africa, I met some of the most wonderful people on Earth. It is impossible to record all those who have helped me in this study in one way or other. Glacier research in East Africa has some history. Nearly half a century ago, Carl Troll completed the first detailed mapping of Lewis Glacier. I had the good fortune of exchanging ideas with him at his home in Bonn in 1974, shortly before his death. Paul C. Spink, Ulceby, North lincolnshire, England, shared with me his photographs and observations on Kilimanjaro and Mount Kenya in the 1940s. When I joined the University of Nairobi in 1973, several members of the 1957-58 IGY Mc)Unt Kenya :Expedition were still there. I received generous advice and help from Igor Loupekine, John Loxton, but especially from Robert A. Caukwell and Frank Charnley. Their continuous coopera tion was a great encouragement over the years. Heinz Loeffler, University of Vienna, informed me about the depth of Lewis Tarn. Helmut Heuberger, University of Munich, provided me data on his measurements of glacier terminus positions. Peter Gollmer of Geosurveys and Alan Root, Nairobi, gave me aerial photographs of Kibo f~om the early 1970s. I acknowledge support from various other colleagues at the University of Nairobi: Raouf Rostom of the Department of Surveying and Photogrammetry; Neville Skinner of the Department of Physics; G. C. Asnani, John Ng'anga, J. K.
This introductory textbook on supramolecular chemistry is a thoroughly revised and expanded version of the 1st edition, originally published in 2020. All chapters have been brought up to date and now include "Further Reading" sections that highlight relevant developments. In addition, a new chapter on supramolecular polymers has been added. With these changes, this book provides an even more comprehensive introduction to the exciting field of supramolecular chemistry than before. Readers will learn what forces hold supramolecular architectures together, how supramolecular systems are created and characterized, how molecular switches, motors, transporters, catalysts, chemosensors, and other functional systems work, and where supramolecular chemistry can play or already plays a role in our lives. In 2022 the first edition of this book won the Literature Prize of the German Chemical Industry Association VCI. For the full press release (in German): https://www.vci.de/fonds/presse-und-infos/pressemitteilungen/preisgeld-fuer-supramolekuele.jsp
Browsing for information is a significant part of most research activity, but many online collections hamper browsing with interfaces that are variants on a search box. Research shows that rich-prospect interfaces can offer an intuitive and highly flexible alternative environment for information browsing, assisting hypothesis formation and pattern-finding. This unique book offers a clear discussion of this form of interface design, including a theoretical basis for why it is important, and examples of how it can be done. It will be of interest to those working in the fields of library and information science, human-computer interaction, visual communication design, and the digital humanities as well as those interested in new theories and practices for designing web interfaces for library collections, digitized cultural heritage materials, and other types of digital collections.
Infrared laser absorption spectroscopy (IRLAS) employing both tuneable diode and quantum cascade lasers (TDLs, QCLs) has been applied with both high sensitivity and high time resolution to plasma diagnostics and trace gas measurements. TDLAS combined with a conventional White type multiple pass cell was used to detect up to 13 constituent molecular species in low pressure Ar/H2/N2/O2 and Ar/CH4/N2/O2 microwave discharges, among them the main products such as H2O, NH3, NO and CO, HCN respectively. The hydroxyl radical has been measured in the mid infrared (MIR) spectral range in-situ in both plasmas yielding number densities of between 1011 ... 1012 cm-3. Strong indications of surface dominated formation of either NH3 or N2O and NO were found in the H2-N2-O2 system. In methane containing plasmas a transition between deposition and etching conditions and generally an incomplete oxidation of the precursor were observed. The application of QCLs for IRLAS under low pressure conditions employing the most common tuning approaches has been investigated in detail. A new method of analysing absorption features quantitatively when the rapid passage effect is present is proposed. If power saturation is negligible, integrating the undisturbed half of the line profile yields accurate number densities without calibrating the system. By means of a time resolved analysis of individual chirped QCL pulses the main reasons for increased effective laser line widths could be identified. Apart from the well-known frequency down chirp non-linear absorption phenomena and bandwidth limitations of the detection system may significantly degrade the performance and accuracy of inter pulse spectrometers. The minimum analogue bandwidth of the entire system should normally not fall below 250 MHz. QCLAS using pulsed lasers has been used for highly time resolved measurements in reactive plasmas for the first time enabling a time resolution down to about 100 ns to be achieved. A temperature increase of typically less than 50 K has been established for pulsed DC discharges containing Ar/N2 and traces of NO. The main NO production and depletion reactions have been identified from a comparison of model calculations and time resolved measurements in plasma pulses of up to 100 ms. Considerable NO struction is observed after 5 ... 10 ms due to the impact of N atoms. Finally, thermoelectrically cooled pulsed and continuous wave (cw) QCLs have been employed for high finesse cavity absorption spectroscopy in the MIR. Cavity ring down spectroscopy (CRDS) has been performed with pulsed QCLs and was found to be limited by the intrinsic frequency chirp of the laser suppressing an efficient intensity build-up inside the cavity. Consequently the accuracy and advantage of an absolute internal absorption calibration is not achievable. A room temperature cw QCL was used in a complementary cavity enhanced absorption spectroscopy (CEAS) configuration which was equipped with different cavities of up to 1.3 m length. This spectrometer yielded path lengths of up to 4 km and a noise equivalent absorption down to 4 x 10-8 cm-1Hz-1/2. The corresponding molecular concentration detection limit (e.g. for CH4, N2O and C2H2 at 1303 cm-1/7.66 Aem) was generally below 1 x 1010 cm-3 for 1 s integration times and one order of magnitude less for 30 s integration times. The main limiting factor for achieving even higher sensitivity is the residual mode noise of the cavity. Employing a 0.5 m long cavity the achieved sensitivity was good enough for the selective measurement of trace atmospheric constituents at 2.2 mbar.
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