Conservation of biodiversity and the sustainable use of genetic resources have been priority issues for a number of countries and international organisations over the past decade. We have begun to realise that the rapid rate of development at all costs has generated forces that are threatening to destroy the very substratum of life on Earth.Biological diversity is the building block of the myriad life forms on our planet and our defence against global climate changes. Wider acceptance of this truth has given an impetus to the need for further work at political and scientific levels. However, little information is available on how to study, use and conserve our biological and genetic resources.The Commonwealth Science Council's programme on biological diversity and genetic resources attempts to redress this imbalance. Launched in 1986, this programme recognises that good policies for conservation of our genetic resources require not only public investment by a systematic approach for institutionalising the key process of such conservation. The programme supports the development of appropriate courses, documents and training materials for capacity building at the local level.This book discusses the programme and aims to contribute significantly towards establishing relevant mechanisms and developing practical action plans for conserving and sustainably using our rapidly vanishing biological diversity.
Our country has long recognized the importance of its biological resources but we often lack sufficient scientific knowledge to make wise decisions. This realization has led to calls for new ways of providing this information, including the formation of a national biological survey. This volume discusses key issues and problems for which an improved assessment of the nation's biological resources is needed; the kinds of efforts in research and information management needed to create that assessment; and how government, private organizations, and individuals can work together to meet the needs identified. Policymakers, resource managers, public interest groups, and researchers will find this book useful as they participate in the national dialogue on this topic and take actions to implement the needed survey activities.
This publication contains a number of reports prepared for a high-level conference on issues relating to biological and landscape diversity in European agricultural policies, held in Paris in June 2002. The conference made recommendations to states and relevant organisations and provided input to policy work and programmes within the framework of the Convention on Biological Diversity, the Ministerial Conference on Environment for Europe , the Convention to Combat Desertification and the EU's Common Agricultural Policy and national policy developments.
There is increasing attention to the importance of biodiversity for food security and nutrition, especially above-ground biodiversity such as plants and animals. However, less attention is being paid to the biodiversity beneath our feet, soil biodiversity, which drives many processes that produce food or purify soil and water. This report is the result of an inclusive process involving more than 300 scientists from around the world under the auspices of the FAO’s Global Soil Partnership and its Intergovernmental Technical Panel on Soils, the Convention on Biological Diversity, the Global Soil Biodiversity Initiative, and the European Commission. It presents concisely the state of knowledge on soil biodiversity, the threats to it, and the solutions that soil biodiversity can provide to problems in different fields. It also represents a valuable contribution to raising awareness of the importance of soil biodiversity and highlighting its role in finding solutions to today's global threats.
Biological collections are a critical part of the nation's science and innovation infrastructure and a fundamental resource for understanding the natural world. Biological collections underpin basic science discoveries as well as deepen our understanding of many challenges such as global change, biodiversity loss, sustainable food production, ecosystem conservation, and improving human health and security. They are important resources for education, both in formal training for the science and technology workforce, and in informal learning through schools, citizen science programs, and adult learning. However, the sustainability of biological collections is under threat. Without enhanced strategic leadership and investments in their infrastructure and growth many biological collections could be lost. Biological Collections: Ensuring Critical Research and Education for the 21st Century recommends approaches for biological collections to develop long-term financial sustainability, advance digitization, recruit and support a diverse workforce, and upgrade and maintain a robust physical infrastructure in order to continue serving science and society. The aim of the report is to stimulate a national discussion regarding the goals and strategies needed to ensure that U.S. biological collections not only thrive but continue to grow throughout the 21st century and beyond.
Genetically engineered organisms (GEOs) have been under development for more than 20 years while GE crops have been grown commercially during the last decade. During this time, a number of questions have cropped up concerning the potential consequences that certain GEOs might have on natural or managed ecosystems and human health. Interest in developing methods to confine some GEOs and their transgenes to specifically designated release settings has increased and the success of these efforts could facilitate the continued growth and development of this technology. Biological Confinement of Genetically Engineered Organisms examines biological methods that may be used with genetically engineered plants, animals, microbes, and fungi. Bioconfinement methods have been applied successfully to a few non-engineered organisms, but many promising techniques remain in the conceptual and experimental stages of development. This book reviews and evaluates these methods, discusses when and why to consider their use, and assesses how effectively they offer a significant reduction of the risks engineered organisms can present to the environment. Interdisciplinary research to develop new confinement methods could find ways to minimize the potential for unintended effects on human health and the environment. Need for this type of research is clear and successful methods could prove helpful in promoting regulatory approval for commercialization of future genetically engineered organisms.
This study has been prepared in the framework of the work programme of the Committee of Experts for the Pan-European Ecological Network. It gives an overview of national approaches to realise ecological corridors through land use planning and development policies of countries implementing the Pan-European Biological and Landscape Diversity Strategy.
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