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Common Future (common + future)
Selected AbstractsAn extended performance reporting framework for social and environmental accountingBUSINESS STRATEGY AND THE ENVIRONMENT, Issue 5 2006Kittiya Yongvanich Abstract Internationally, there is growing awareness of the environmental and social impacts of the business activities of organizations. This awareness was heightened by the 1987 report Our Common Future by the World Commission on Environment and Development (WCED, 1987). In order to address the concerns raised, companies have increasingly reported the social and environmental impacts of their business activities to secure their right to operate from society. This paper argues for the importance of an integrated reporting framework that provides information on economic performance via intellectual capital (IC) information and non-economic performance, including that used in the management of performance across social and environmental impacts. This paper briefly reviews three extended reporting approaches, namely IC, balanced scorecard (BSC) and social and environmental reporting. The paper demonstrates that the emphases of these reporting approaches, while diverse, could be complementary to one another and be integrated into an extended performance reporting framework (EPRF), which would provide a more complete account of the management and performance of an organization. The EPRF could empower stakeholders and facilitate change in the way organizations conduct their activities. Copyright © 2006 John Wiley & Sons, Ltd and ERP Environment. [source] Mapping Common Futures: Customary Communities, NGOs and the State in Indonesia's Reform EraDEVELOPMENT AND CHANGE, Issue 1 2005Carol Warren The post-Suharto ,Reform Era' has witnessed explosive revitalization movements among Indonesia's indigenous minorities or ,customary'(adat) communities attempting to redress the disempowerment they suffered under the former regime. This study considers the current resurgence of customary claims to land and resources in Bali, where the state-sponsored investment boom of the 1990s had severe social and environmental impacts. It focuses on recent experiments with participatory community mapping, aimed at reframing the relationship between state and local institutions in planning and decision-making processes. Closely tied to the mapping and planning strategy have been efforts to strengthen local institutions and to confront the problems of land alienation and community control of resources. The diversity of responses to this new intervention reflects both the vitality and limitations of local adat communities, as well as the contributions and constraints of non-governmental organizations that increasingly mediate their relationships to state and global arenas. This ethnographic study explores participants' experiences of the community mapping programme and suggests its potential for developing ,critical localism' through long-term, process-oriented engagements between communities, governments, NGOs, and academic researchers. [source] Environment and health: Protecting our common future, by Kristy DuncanINTEGRATED ENVIRONMENTAL ASSESSMENT AND MANAGEMENT, Issue 2 2009Greg Biddinger ExxonMobil Biomedical Sciences No abstract is available for this article. [source] The Complementarity of the Technical Tools of Tissue Engineering and the Concepts of Artificial Organs for the Design of Functional Bioartificial TissuesARTIFICIAL ORGANS, Issue 9 2008Petros Lenas Abstract:, Although tissue engineering uses powerful biological tools, it still has a weak conceptual foundation, which is restricted at the cell level. The design criteria at the cell level are not directly related with the tissue functions, and consequently, such functions cannot be implemented in bioartificial tissues with the currently used methods. On the contrary, the field of artificial organs focuses on the function of the artificial organs that are treated in the design as integral entities, instead of the optimization of the artificial organ components. The field of artificial organs has already developed and tested methodologies that are based on system concepts and mathematical-computational methods that connect the component properties with the desired global organ function. Such methodologies are needed in tissue engineering for the design of bioartificial tissues with tissue functions. Under the framework of biomedical engineering, artificial organs and tissue engineering do not present competitive approaches, but are rather complementary and should therefore design a common future for the benefit of patients. [source] Biorefinery systems , potential contributors to sustainable innovationBIOFUELS, BIOPRODUCTS AND BIOREFINING, Issue 3 2010Maria Wellisch Abstract Sustainable biorefineries have a critical role to play in our common future. The need to provide more goods using renewable resources, combined with advances in science and technology, has provided a receptive environment for biorefinery systems development. Biorefineries offer the promise of using fewer non-renewable resources, reducing CO2 emissions, creating new employment, and spurring innovation using clean and efficient technologies. Lessons are being learned from the establishment of first-generation biofuel operations. The factors that are key to answering the question of biorefinery sustainability include: the type of feedstock, the conversion technologies and their respective conversion and energy efficiencies, the types of products (including coproducts) that are manufactured, and what products are substituted by the bioproducts. The BIOPOL review of eight existing biorefineries indicates that new efficient biorefineries can revitalize existing industries and promote regional development, especially in the R&D area. Establishment can be facilitated if existing facilities are used, if there is at least one product which is immediately marketable, and if supportive policies are in place. Economic, environmental, and social dimensions need to be evaluated in an integrated sustainability assessment. Sustainability principles, criteria, and indicators are emerging for bioenergy, biofuels, and bioproducts. Practical assessment methodologies, including data systems, are critical for both sustainable design and to assure consumers, investors, and governments that they are doing the ,right thing' by purchasing a certain bioproduct. If designed using lifecycle thinking, biorefineries can be profitable, socially responsible, and produce goods with less environmental impact than conventional products , and potentially even be restorative!. Copyright © 2010 Society of Chemical Industry and John Wiley & Sons, Ltd [source] Future societal issues in industrial biotechnologyBIOTECHNOLOGY JOURNAL, Issue 9 2007Daan Schuurbiers Abstract Three international stakeholder meetings were organized by the Netherlands-based "Kluyver Center for Genomics of Industrial Fermentation" with the objective to identify the future societal issues in the field of industrial biotechnology and to develop a coordinated strategy for public dialogue. The meetings resulted in five unanimous recommendations: (i) that science, industry and the European Commission in conjunction with other stakeholders create a comprehensive roadmap towards a bio-based economy; (ii) that the European Commission initiate a series of round-table meetings to further articulate the views, interests and responsibilities of the relevant stakeholders and to define policy; (iii) that the development of new innovative communication activities is stimulated to increase public engagement and to discuss the ways that we do or do not want technologies to shape our common future; (iv) that further social studies are undertaken on public attitudes and behaviors to the bio-based economy and that novel methods are developed to assess public views of future technological developments; and (v) that the concept of sustainability is further operationalized and taken as a core value driving research and development and policy making. [source] |