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This book provides a global perspective on the various issues that the industry has to face as well as to provide some key global strategies that can help coping with those global challenges, such as collaboration, strategic value chain planning, and interdependency analyses. It presents literature reviews, strategic research orientations, assessment of some current key issues, and state-of-the-art methodologies.
Innovation in Forestry Territorial and Value Chain Relationships Edited by Gerhard Weiss, Davide Pettenella, Pekka Ollonqvist and Bill Slee Innovation is increasingly recognized as a key factor in environmental protection and sustainable development in forestry and forest-based industries. This volume provides a comprehensive theoretical foundation for the analysis of innovation processes and policies in a traditional, rural sector as well as presenting empirical analyses of innovation processes from major innovation areas. Innovative solutions are analysed in wood-related value chains, including timber-frame construction, furniture, bio-energy and forest transportation. Territorial services of the forest sector are examined, including various types of forest ecosystem services such as carbon sequestration, non-wood products and recreation. Innovation in Forestry is essential reading for researchers and policy makers in forestry and environmental sciences.
Lord Rutherford has said that all science is either physics or stamp collecting. On that basis the study of forest biomass must be classified with stamp collecting and other such pleasurable pursuits. Japanese scientists have led the world, not only in collecting basic data, but in their attempts to systematise our knowledge of forest biomass. They have studied factors affecting dry matter production of forest trees in an attempt to approach underlying phYf'ical principles. This edition of Professor Satoo's book has been made possible the help of Dr John F. Hosner and the Virginia Poly technical Institute and State University who invited Dr Satoo to Blacksburg for three months in 1973 at about the time when he was in the final stages of preparing the Japanese version. Since then the explosion of world literature on forest biomass has continued to be fired by increasing shortages of timber supplies in many parts of the world as well as by a need to explore renewable sources of energy. In revising the original text I have attempted to maintain the input of Japanese work - much of which is not widely available outside Japan - and to update both the basic information and, where necessary, the conclusions to keep them in tune with current thinking. Those familiar with the Japanese original will find Chapter 3 largely rewritten on the basis of new work - much of which was initiated while Dr Satoo was in Blacksburg.
People like forests- they have many emotional and cultural attachments to them. They also like forest products - and need increasing quantities of them. But they often don't like, don't understand, and don't trust what comes in between: forest management, which lies at the interface of public services (biodiversity, watersheds, etc) and private goods (timber, food, etc). Certification was developed to independently verify the quality of forest management, to communicate this to market players, and so to improve market benefits for the products of good management. The growing influence of the Forest Stewardship Council is one of the most striking recent developments in forestry. Certification is increasingly common in all continents. But has it actually improved forest management? Has it created sufficient market incentives? Above all, has it enabled trust to develop between stakeholders, so that they can work together better, to build the institutions required for sustainable forest management? This book is the result of two years' study by IIED and collaborators in several countries: it provides evidence for considerable policy and institutional change as a result of certification, and the beginnings of change in forest and market practice.
Forests are under tremendous pressure from human uses of all kinds, and one of the most significant threats to their sustainability comes from commercial interests. This book presents a comprehensive examination of the interactions between the forest products sector and the sustainability of forests. It captures the most current sustainability concerns within the forestry sector and various sustainability-oriented initiatives to address these. Experts from around the world analyze interconnected topics including market mechanisms, regulatory mechanisms, voluntary actions, and governance, and outline their effectiveness, potential, and limitations. By presenting a novel overview of the burgeoning field of business sustainability within the forestry sector, this book paves a way forward in understanding what is working, what is not working, and what could potentially work to ensure sustainable business practices within the forestry sector,
This book explains forest and woody biomass harvest, harvesting machines, systems, logistics, supply chain management, best management practices, harvest scheduling and carbon sequestration. It also covers applications of harvesting principles in forest and biomass management practices. The book provides an in-depth understanding of functions and applications of current and future harvesting technologies, the unique characteristics of harvesting machine with respect to cost, productivity, and environmental impacts. Special features include harvest machine illustrations and images of field operations, tabular presentations of filed studies of forest operations and detailed modelling processes for forest and biomass harvest logistics and supply chain management. Specifically, the book is designed for students, researchers, educators, and practitioners in the field of forest and biomass harvest and logistics. The book’s contents have been tested in teaching as the Harvesting Forest Product class for undergraduates and graduates in the Division of Forestry and Natural Resources at West Virginia University since 2000. The information contained in this book is a robust reference resource for students who would be future forest and biomass managers, timber contractors, entrepreneurs, researchers, and educators in the fields of forest and biomass operations, engineering, and resource management.
This book, companion to Foundations of Location Analysis (Springer, 2011), highlights some of the applications of location analysis within the spheres of businesses, those that deal with public services and applications that deal with law enforcement and first responders. While the Foundations book reviewed the theory and first contributions, this book describes how different location techniques have been used to solve real problems. Since many real problems comprise multiple objectives, in this book there is more presence of tools from multicriteria decision making and multiple-objective optimization. The section on business applications looks at such problems as locating bank branches, the potential location of a logistics park, sustainable forest management and layout problems in a hospital, a much more difficult type of problem than mere location problems. The section on public services presents chapters on the design of habitats for wildlife, control of forest fires, the location of intelligent sensors along highways for timely emergency response, locating breast cancer screening centers, an economic analysis for the locations of post offices and school location. The final section of the book includes chapters on the well-known problem of locating fire stations, a model for the location of sensors for travel time information, the problem of police districting, locations of jails, location of Coast Guard vessels and finally, a survey of military applications of location analysis throughout different periods of recent history.
Spatial Modeling in GIS and R for Earth and Environmental Sciences offers an integrated approach to spatial modelling using both GIS and R. Given the importance of Geographical Information Systems and geostatistics across a variety of applications in Earth and Environmental Science, a clear link between GIS and open source software is essential for the study of spatial objects or phenomena that occur in the real world and facilitate problem-solving. Organized into clear sections on applications and using case studies, the book helps researchers to more quickly understand GIS data and formulate more complex conclusions. The book is the first reference to provide methods and applications for combining the use of R and GIS in modeling spatial processes. It is an essential tool for students and researchers in earth and environmental science, especially those looking to better utilize GIS and spatial modeling. Offers a clear, interdisciplinary guide to serve researchers in a variety of fields, including hazards, land surveying, remote sensing, cartography, geophysics, geology, natural resources, environment and geography Provides an overview, methods and case studies for each application Expresses concepts and methods at an appropriate level for both students and new users to learn by example
The Management of Industrial Forest Plantations. Theoretical Foundations and Applications provides a synthesis of current knowledge about industrial forestry management planning processes. It covers components of the forest supply chain ranging from modelling techniques to management planning approaches and information and communication technology support. It may provide effective support to education, research and outreach activities that focus on forest industrial plantations management. It may contribute further to support forest managers when developing industrial plantations management plans. The book includes the discussion of applications in 26 Management Planning in Actions boxes. These applications highlight the linkage between theory and practice and the contribution of models, methods and management planning approaches to the efficiency and the effectiveness of industrial plantations management planning.
This thesis is a collection of four submitted manuscripts that present methods to assist forest ecosystem service managers wanting to develop operational sampling, monitoring, and production plans for a set of specific quantifiable ecosystem services, which are formulated as a series of general multi-objective optimization problems. The problems are solved using a heuristic solution technique to determine the best trade-off, efficient, or Pareto frontiers, among the potentially competing and possibly non-commensurate objectives, with the intention that the decision maker(s) will select and implement a single plan from the Pareto frontier. The first manuscript presents the general formulation and solution framework, and demonstrates the method with a problem that has five objectives. The method demonstrates that Pareto frontiers for problems with unknown inputs, many competing objectives, and complex constraints can be analyzed using simple search rules. The second manuscript examines design-based estimation and model-based prediction methods to obtain guesses of unknown inputs, and the resulting outputs, for operational production plans. The results indicate that model-based prediction methods, using simple correlation models, provide benefits by reducing production uncertainties, and thus offer substantial cost savings, or increases in net revenue, when comparison to traditional design-based methods. The third manuscript approximates the Pareto frontier between the maximum information content (i.e. entropy) and the minumum cost for a forest sample, where the results from the sample will be used for many objectives (e.g. prediction, simulation, and optimization). The results depend on the definition of the sample design, but follow similar patterns for all 36 sample designs examined. Finally, the fourth manuscript presents an examination of the Pareto frontier for an operational harvest schedule, using the sample that contains the maximum information content, and the objectives for the operation must satisfy multiple internal and external customers (i.e. production, financial, environmental, logistics, and marketing). By including additional information (i.e. spatial correlation) in the prediction, simulation, and optimization process, these manuscripts demonstrate substantial potential increases in financial objectives (i.e. maximize net revenue, minimize costs), environmental objectives (i.e. maximize unharvested area), materials management objectives (i.e. minimize product degredation), information objectives (i.e. maximum entopy sampling) as well as provide a framework for the objective examination of complex forest ecosystem supply chain problems with multiple objectives.