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The Global Carbon Cycle
"The Global Carbon Cycle" is a short introduction to this essential geochemical driver of the Earth's climate system, written by one of the world's leading climate-science experts.In this one-of-a-kind primer, David Archer engages readers in clear and simple terms about the many ways the global carbon cycle is woven into our climate system.He begins with a concise overview of the subject, and then looks at the carbon cycle on three different time scales, describing how the cycle interacts with climate in very distinct ways in each.On million-year time scales, feedbacks in the carbon cycle stabilize Earth's climate and oxygen concentrations.Archer explains how on hundred-thousand-year glacial/interglacial time scales, the carbon cycle in the ocean amplifies climate change, and how, on the human time scale of decades, the carbon cycle has been dampening climate change by absorbing fossil-fuel carbon dioxide into the oceans and land biosphere.A central question of the book is whether the carbon cycle could once again act to amplify climate change in centuries to come, for example through melting permafrost peatlands and methane hydrates. "The Global Carbon Cycle" features a glossary of terms, suggestions for further reading, and explanations of equations, as well as a forward-looking discussion of open questions about the global carbon cycle.
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Fashion and Environmental Sustainability : Entrepreneurship, Innovation and Technology
The wide range of topics that the book covers are organised into sections reflecting a cradle to grave view of how entrepreneurial, innovative, and tech-savvy approaches can advance environmental sustainability in the fashion sector.These sections include: sustainable materials; innovation in design, range planning and product development; sustainable innovations in fashion supply chains; sustainable innovations in fashion retail and marketing; sustainable alternatives for end-of-life and circular economy initiatives; and more sustainable alternative fashion business models.
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New Cycle Steam Key: Global
This product is a brand new and unused New Cycle Steam Key: Global
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Technology Choice Model for Consequential Life Cycle Assessment
Consequential Life Cycle Assessment (CLCA) aims at capturing the environmental consequences of decisions such as the introduction of a new technology, the implementation of a policy, or the purchase of a product.CLCA combines technical and economic modeling approaches to track the consequences of decisions throughout the economy, considering both technical relationships within industrial production systems and market-mediated effects.However, although CLCA is well defined at a conceptual level, a commonly accepted modeling framework for CLCA is still missing, leading to wide differences in CLCA practice. To promote the systematization of the CLCA approach, this thesis proposes a comprehensive modeling framework for CLCA: the Technology Choice Model (TCM).Compared to existing approaches, TCM captures market-mediated effects in multiple markets at a substantially higher level of technical detail, while systematically considering constraints in factor availability, uncertainty, and suboptimal decisions.Due to its higher level of technical detail, TCM can model changes in technology mixes through both capacity adaptions and substitution effects among competing technologies.These changes in technology mixes are shown to substantially affect the CLCA results in two illustrative case studies on the introduction of new technologies and climate policy.Furthermore, the consideration of uncertainties and suboptimal decisions provides the basis for a first comprehensive uncertainty assessment in CLCA. The practical application of TCM is demonstrated in a large-scale industrial case study on novel Carbon Capture and Utilization (CCU) technologies in the chemical industry.These technologies use carbon dioxide from industrial point sources or ambient air as alternative carbon feedstock for chemical production.The case study shows that CCU in the chemical industry can reduce up to 3.5 Gt CO2-eq greenhouse gas emissions per year by 2030 and highlights potential barriers for CCU implementation.The results provide a strong scientific basis for the integration of CCU into international policy frameworks and research agendas.The application of TCM in this case study demonstrates the ability of CLCA to provide sound environmental decision support.
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What is the global energy cycle in physics?
The global energy cycle in physics refers to the continuous flow and transformation of energy throughout the Earth's systems. It involves the transfer of energy from the sun to the Earth in the form of solar radiation, which is then absorbed by the Earth's surface and converted into heat. This heat is then redistributed through processes such as convection, conduction, and radiation, driving weather patterns, ocean currents, and the water cycle. Ultimately, the energy is dissipated back into space, completing the global energy cycle.
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What is the global carbon cycle in equilibrium?
The global carbon cycle in equilibrium refers to a balance between the amount of carbon dioxide being released into the atmosphere and the amount being removed or stored by natural processes. This equilibrium is maintained by a variety of processes, including photosynthesis by plants and phytoplankton, the respiration of plants and animals, and the exchange of carbon between the atmosphere, oceans, and land. When these processes are in balance, the concentration of carbon dioxide in the atmosphere remains relatively stable. However, human activities, such as the burning of fossil fuels and deforestation, have disrupted this equilibrium by releasing large amounts of carbon dioxide into the atmosphere, leading to an increase in global temperatures and other climate impacts.
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What does disruption of the global water cycle mean?
Disruption of the global water cycle refers to the imbalance and alteration of the natural processes that regulate the distribution and circulation of water on Earth. This disruption can result from human activities such as deforestation, urbanization, and pollution, as well as natural phenomena like climate change. It can lead to water scarcity in some regions and increased flooding in others, impacting ecosystems, agriculture, and human populations. Overall, disruption of the global water cycle can have far-reaching and detrimental effects on the environment and society.
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How does the material cycle and energy flow work in an ecosystem?
In an ecosystem, the material cycle involves the movement of nutrients and elements such as carbon, nitrogen, and phosphorus through the biotic and abiotic components. This cycle includes processes such as photosynthesis, decomposition, and nutrient uptake by plants and animals. Energy flow, on the other hand, involves the transfer of energy from one organism to another through food chains and food webs. This energy is ultimately derived from the sun and is transferred through the ecosystem as organisms consume and are consumed by others. Both the material cycle and energy flow are essential for the functioning of an ecosystem, as they support the growth and survival of organisms within it.
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Cycle
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Leading Global Innovation : Facilitating Multicultural Collaboration and International Market Success
Responding to the need for organizations to improve global strategic planning and execution, this book presents a framework for effectively conceiving and executing new concepts for international markets.Filling an important gap in knowledge and research on global innovation, the author demonstrates how leaders can facilitate multicultural collaboration in service of organizational performance.Cases and findings are shared from international studies of over 200 leaders and 45 multinational firms with headquarters based in Asia, Europe, and North America.Leading Global Innovation provides a practice perspective with specific models and solutions for facilitating multicultural team collaboration, from concept to market.This book offers crucial guidance for executives, managers, consultants, and educators who would like to understand how to lead and orchestrate innovation in a culturally diverse and networked business environment.
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Evolution of the Global Fitness Industry : Strategy, Sustainability and Innovation
The pandemic has taught us all how important it can be to look after our physical and mental health, and how worthwhile it is to invest in taking care of ourselves.This short book illustrates the main trends that are modifying the fitness industry worldwide and highlights contemporary relevance to strategic change.It outlines what is currently happening within the promising fitness market and analyses the major emerging trends and the scientific data, referring to startups that could become very interesting market players in the years to come.Sustainability and technology will be the subject of in-depth analysis, as they represent the main drivers that will guide the sector in the future.The book also considers the most important aspect of sustainability related to the fitness industry and wellness more generally: the Silver Economy.The analysis is supported by an extensive database involving the 100 leading companies in the sector worldwide.The novelty of this research is to provide a document analysing the typical characteristics of this market, consumption dynamics, consumer triggers, and underlying the socio-economic scenario.The treatment of key themes such as fitness-tech startups, sport strategic management and above all innovation and sustainability make the book unique and appealing to researchers, academics, students, and practitioners.
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Sealey Cycle Rack 1 Cycle - BS14 - Silver
Designed to take the knocks that can come with bike storage, the Sealey Cycle rack is manufactured from galvanized steel for corrosion resistance and extra durability. Ideal for simple and safe storage of your bike, both indoors and out, with the ability to be floor or wall mounted.
Price: 20.00 £ | Shipping*: 5.95 £
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How does the growth of the global world population affect the global carbon cycle?
The growth of the global world population has a significant impact on the global carbon cycle. As the population increases, so does the demand for resources such as food, energy, and materials, leading to increased carbon emissions from activities such as agriculture, transportation, and industrial production. This results in more carbon dioxide being released into the atmosphere, contributing to the greenhouse effect and climate change. Additionally, the growing population leads to deforestation and land-use changes, which further disrupt the carbon cycle by reducing the Earth's capacity to absorb and store carbon. Overall, the increasing global population puts additional pressure on the carbon cycle and exacerbates the challenges of climate change.
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What would be a good example of an innovation to explain the product life cycle?
A good example of an innovation to explain the product life cycle is the evolution of smartphones. When smartphones were first introduced, they were a new and innovative product in the introduction stage of the product life cycle. As they gained popularity and became more widely adopted, they entered the growth stage. Over time, as new features and improvements were made, they reached the maturity stage. Finally, as new technologies and advancements emerged, older models began to decline in sales, entering the decline stage of the product life cycle. This example demonstrates how innovations can impact the different stages of a product's life cycle.
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What is the significance of the oceans in the global carbon cycle?
The oceans play a crucial role in the global carbon cycle by absorbing and storing large amounts of carbon dioxide from the atmosphere. This process helps to regulate the Earth's climate by reducing the amount of carbon dioxide in the atmosphere, which in turn mitigates the impact of climate change. Additionally, the oceans are home to phytoplankton, which are microscopic marine plants that photosynthesize and remove carbon dioxide from the water, further contributing to the ocean's role in the carbon cycle. Overall, the oceans act as a major carbon sink, helping to maintain the balance of carbon in the Earth's atmosphere and contributing to the overall health of the planet.
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Can you explain the significance of the oceans in the global carbon cycle?
Oceans play a crucial role in the global carbon cycle as they are the largest carbon sink on Earth. They absorb a significant amount of carbon dioxide from the atmosphere, helping to regulate the Earth's climate. This process, known as oceanic carbon sequestration, helps to mitigate the effects of climate change by reducing the amount of carbon dioxide in the atmosphere. Additionally, the oceans are home to phytoplankton, which are responsible for a large portion of the Earth's photosynthesis and carbon fixation, further contributing to the regulation of carbon levels in the atmosphere. Overall, the oceans are essential in maintaining the balance of carbon in the Earth's atmosphere and are a key component in the global carbon cycle.
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