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The goal of this study is the calculation of greenhouse gas emissions which occur during the production of Ecuadorian Flowers. Emissions are considered beginning with the production of raw materials up to the point where the flowers are sold to the final wholesale. This book describes the current status of international standardisation with their relevance to the calculation. Currently there are no official regulations for CO2 calculations. Because most of the flowers are sold to Europe the Life Cycle Assessment (LCA) regulations ISO 14040 ff have been applied for the methodology and the creation of the system model. The importance of this standard has been pointed out as it will be the basis for upcoming European CO2 regulations. Nowadays a widely accepted method is the greenhouse gas protocol which has been used partly for the calculations because only few sectors (e.g. transportation) are covered. Further on the model of flower production is introduced. The model includes all processes and the system boundaries. Significant factors contributing to the greenhouse gas emissions are defined as airfreight of flower to the final market, consumption of electricity and usage of fertilizers on the farm. The process of collecting data is another subject of this study, including the last audit data from the Flower Label Program (FLP) as well as independently created inquiries and visits on the pilot farms. The calculation of CO2 emissions is comprised. The sources of the emissions factors are described in the beginning, which are mostly extracted from LCA software. Furthermore this book proposes the next steps on the way to CO2 neutral flowers. Firstly the calculation has to be certified by an independent organisation. Subsequently a decision on CO2 compensation has to be taken. The purchase of CO2 certificates from official or voluntary stock exchanges was recommended because self managed CO2 projects need start-up time. The last step is the marketing of the new product, which should be realized with a CO2 label widely accepted in the distribution markets. Parallel the farms should start to optimize their farms according to CO2 emissions. Since global warming potential is only one measurement of interference with nature other criteria should be investigated as: How is the quality of ground water? To what extend occurs acidification in the cultivated areas? An integrated LCA analysis would give answers to these questions.
Forschungsarbeit aus dem Jahr 2008 im Fachbereich Umweltwissenschaften, Note: 1.0, Sprache: Deutsch, Abstract: The goal of this study is the calculation of greenhouse gas emissions, which occur during the production of Ecuadorian Flowers. Emissions are considered beginning with the production of raw materials up to the point where the flowers are sold to the final wholesale. In the beginning, the current status of international standardization is described with their relevance to the calculation. Currently there are no official regulations for CO2 calculations. Because most of the flowers are sold to Europe the Life Cycle Assessment (LCA) regulations ISO 14040 ff have been applied for the methodology and the creation of the system model. The importance of this standard has been pointed out, as it will be the basis for upcoming European CO2 regulations. Nowadays a widely accepted method is the greenhouse gas protocol, which has been used partly for the calculations because only few sectors (e.g. transportation) are covered. Chapter 2 introduces the model of flower production. The model includes all processes and the system boundaries. Significant factors contributing to the greenhouse gas emissions are defined as airfreight of flower to the final market, consumption of electricity and usage of fertilizers on the arm. The process of collecting data is subject of Chapter 3 including the last audit data from the Flower Label Program (FLP) as well as independently created inquiries and visits on the pilot farms. Chapter 4 comprises the calculation of CO2 emissions. The sources of the emissions factors are described in the beginning, which are mostly extracted from LCA software.
Sustainable Biodiesel: Real-World Designs, Economics, and Applications offers a unique, integrated approach that combines cutting-edge research results and the day-to-day aspects of biodiesel production at the industrial level. It brings together experienced academics and recognized industry experts to explore the most practical elements of research and discuss the limitations and future needs of the industry. The book critically reviews strategies for implementing biodiesel-based biorefineries, feedstock supply chains, reactor technologies, processes for biodiesel production, and biodiesel combustion, including advanced fuel formulations containing biodiesel. The authors examine biodiesel plants from the point of view of design, operation, quality control, and sustainability, including life cycle assessment (LCA) and life cycle costing (LCC). Policy and regulatory constraints in biodiesel production and commercialization as well as future trends and needs of the industry are also covered. This book, as a volume of the "Biomass and Biofuels" series, provides researchers and practitioners in the field of biomass and biofuels with a well-rounded understanding of how the technologies developed in the lab can be deployed at commercial scale in a sustainable and cost-efficient way. This allows biofuels researchers to better develop technology that is fit for upscaling in an industrial setting and complies with sustainability goals. Practicing engineers, on the other hand, find in this volume up-to-date information on available technology, the latest advances, and future trends that will inform their decision-making when planning, implementing, and troubleshooting biodiesel-based bioenergy systems. - Sheds light on the real-world aspects of biodiesel production while also covering the cutting-edge research results in the field - Integrates design, economics, and sustainability aspects, minimizing the gap between theoretical knowledge and practical expertise, as well as between technical aspects and environmental and economic performances - Includes realistic examples and case studies of applications of state-of-the-methodologies for life cycle assessment, life cycle impact assessment, and life cycle costing
Impact Investing for a Sustainable Planet guides investors in supporting entrepreneurs to scale business models which maximize positive impact outcomes, including climate- and nature-based solutions. EcoEnterprises Fund is a long-standing leader in the impact investing industry, which helps advance sustainable entrepreneurial ventures and promote environmental stewardship in Latin America. Following on from their previous book, Portfolio for the Planet, Tammy E. Newmark and Michele A. Pena take stock of EcoEnterprises Fund’s processes and partnerships over two decades and three impact funds. They detail the unique strategies employed by the Fund to invest in expanding sectors such as regenerative agriculture, agroforestry, bio-innovation, and climate tech. Close analysis of the investment processes and company engagements offers practical takeaways, ranging from tips on structuring transactions to guidance on enhancing companies’ environmental and social management systems and community partnerships. These case studies highlight how specific themes – including biodiversity investing, supply chain management, gender-smart investing, climate solutions, and successful exits – form the basis for sustainable growth and enduring powerful outcomes. This inspiring volume offers practical advice for veterans and newcomers in the field of impact investing. It will also be a valuable resource for students and scholars of sustainable investing and finance, social entrepreneurship, and sustainable business.
This latest Fifth Assessment Report of the Intergovernmental Panel on Climate Change (IPCC) will again form the standard reference for all those concerned with climate change and its consequences, including students, researchers and policy makers in environmental science, meteorology, climatology, biology, ecology, atmospheric chemistry and environmental policy.
This latest Fifth Assessment Report of the IPCC will again form the standard reference for all those concerned with climate change and its consequences.
Climate Resilient Agriculture for Ensuring Food Security comprehensively deals with important aspects of climate resilient agriculture for food security using adaptation and mitigation measures. Climatic changes and increasing climatic variability are likely to aggravate the problem of future food security by exerting pressure on agriculture. For the past few decades, the gaseous composition of the earth’s atmosphere has been undergoing significant changes, largely through increased emissions from the energy, industry and agriculture sectors; widespread deforestation as well as fast changes in land use and land management practices. Agriculture and food systems must improve and ensure food security, and to do so they need to adapt to climate change and natural resource pressures, and contribute to mitigating climate change. Climate-resilient agriculture contributes to sustainably increasing agricultural productivity and incomes, adapting and building resilience to climate change and reducing and/or eliminating greenhouse gas emissions where possible. The information on climate resilient agriculture for ensuring food security is widely scattered. There is currently no other book that comprehensively and exclusively deals with the above aspects of agriculture and focuses on ensuring food security. This volume is divided into fourteen chapters, which include the Introduction, Causes of Climate Change, Agriculture as a Source of Greenhouse Gases, Impacts of Climate Change on Agriculture, Regional Impacts on Climate Change, Impacts on Crop Protection, Impacts on Insect and Mite Pests, Impacts on Plant Pathogens, Impacts on Nematode Pests, Impacts on Weeds, Impacts on Integrated Pest Management, Climate Change Adaptation, Climate Change Mitigation, and A Road Map Ahead. The book is extensively illustrated with excellent photographs, which enhance the quality of publication. It is clearly written, using easy-to-understand language. It also provides adoptable recommendations involving eco-friendly adaptation and mitigation measures. This book will be of immense value to the scientific community involved in teaching, research and extension activities. The material can also be used for teaching post-graduate courses. It will also serve as a very useful reference source for policy makers.
New focused text introduces readers to wetland ecosystems and systems approaches to studying wetlands With its comprehensive coverage of wetland science, management, and restoration, Mitsch and Gosselink's Wetlands has been the premier reference on wetlands for more than two decades. Now, the coverage of specific wetland ecosystem types from earlier editions of this acclaimed work has been updated, revised, and supplemented with additional content in order to create this new text focusing exclusively on wetland ecosystems. This book now complements Wetlands, Fourth Edition. Following an introduction to ecosystems in general and wetland ecosystems in particular, Wetland Ecosystems examines the major types of wetlands found throughout the world: coastal wetlands, freshwater marshes and forested swamps, and peatlands. The final chapter reviews three fundamental systems approaches to studying wetlands: mesocosms, full-scale experimental ecosystems, and mathematical modeling. This new text features: Updated descriptions of the hydrology, biogeochemistry, and biology of the main types of wetlands found in the world New content introducing general ecosystems, wetland ecosystems, whole ecosystem and mesocosm experiments with wetlands, and systems ecology and modeling A detailed description of the ecosystem services provided by wetlands A broad international scope, including many examples of wetlands located outside North America Two new coauthors offering new perspectives and additional insights into the latest ecosystem and modeling techniques An abundance of illustrations helps readers understand how different biological communities and the abiotic environment in wetland ecosystems interact and function. Tables and text boxes provide at-a-glance summaries of key information. Lastly, each chapter concludes with a list of recommended readings. This text has been designed as an introduction for students and professionals in wetland ecology and management, general ecology, environmental science, and natural resource management.