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Tropical rain forests are increasingly expected to serve for climate change mitigation and biodiversity conservation amid global climate change and increasing human demands for land. Natural production forests that are legally designated to produce timber occur widely in the Southeast Asian tropics. Synergizing timber production, climate change mitigation and biodiversity conservation in such tropical production forests is one of the most realistic means to resolve these contemporary global problems. Next-generation sustainable forest management is being practiced in the natural tropical rain forest of a model site in Sabah, Malaysian Borneo, while earlier sustainable management practices have generally failed, leading to extensive deforestation and forest degradation elsewhere in the tropics. Ecologists have examined co-benefits of sustainable forestry in the model forest in terms of forest regeneration, carbon sequestration and biodiversity in comparison to a forest managed by destructive conventional methods. Taxonomic groups studied have included trees, decomposers, soil microbes, insects and mammals. A wide array of field methods and technology has been used including count plots, sensor cameras, and satellite remote-sensing. This book is a compilation of the results of those thorough ecological investigations and elucidates ecological processes of tropical rain forests after logging. The book furnishes useful information for foresters and conservation NGOs, and it also provides baseline information for biologists and ecologists. A further aim is to examine the environmental effects of a forest certification scheme as the model forest has been certified by the Forest Stewardship Council. Taken as a whole, this book proves that the desired synergy is possible.
A global assessment of potential and anticipated impacts of efforts to achieve the SDGs on forests and related socio-economic systems. This title is available as Open Access via Cambridge Core.
The interactions between climate change adaptation and mitigation are particularly evident in agriculture, forestry and other land-use-based activities. Adaptation projects can affect ecosystems and their ability to sequester and store carbon, while mitigation projects can enhance adaptive capacity or increase the vulnerability of people. These interactions must be considered when designing policies and strategies. The discussion on policy integration of climate change adaptation and mitigation should focus on two issues: (1) integrating adaptation and mitigation in climate change policies to consider multiple goals, assess trade-offs and seek mutually supportive outcomes; and (2) integrating adaptation and mitigation jointly into sectoral policies, such as agriculture or forestry, in order to balance trade-offs and maximize co-benefits between climate change and other objectives. National strategies and plans related to climate change in Peru as well as key land-use policies encompass both adaptation and mitigation objectives. Frameworks have been developed for the integrated implementation of adaptation and mitigation in the new National Climate Change Strategy and draft National Forests and Climate Change Strategy. Although most of the other strategies and action plans do not mention the joint implementation of adaptation and mitigation, they do emphasis delivery of ecosystem services. And enhancing ecosystem services can ultimately benefit both adaptation and mitigation and other national priorities. What is needed is a strong focus on information and knowledge generation and management and an assessment of the current and potential impacts of national and subnational policies on ecosystem services at different scales. Establishing mechanisms for monitoring and evaluating policy implementation, stakeholder engagement and adaptive management are also crucial.
One of the highest priorities for human societies in the 21st century, under the challenges of predicted great environmental changes, is to conserve all kinds of biodiversity across the planet. Among all the biota that exist on Earth, forest ecosystems demonstrate a high degree of biodiversity, being thought to comprise the most diverse ecosystems, as most of the terrestrial species in the world dwell in these ecosystems. Forest biodiversity is interlinked to a web of socio-economic factors, providing an array of goods and services that range from timber and non-timber forest resources to mitigating climate change and conservation of genetic resources; therefore, it is innately linked to ecosystems and human well-being. However, in recent decades, the decrease in forest biodiversity has been a crucial and ongoing environmental issue that needs special attention and adapted ecosystem management. This Special Issue book on forest biodiversity (FB) includes a selected number of research works from all over the world dealing with emerging issues, for understanding FB and its needs for conservation, ecological processes, disturbances, climate change and ecosystems resilience, structural complexity and ecosystem functions, ecological theories and silvicultural practices, and ecosystems stability. More specifically, it includes papers focused on the indicators and methods for assessing and monitoring forest biodiversity, evaluation of practices, planting and silvicultural treatments, and management and monitoring methods, with an overall goal to provide new insights on forest biodiversity conservation, conservation of forest biodiversity in protected areas, treatments of endangered or threatened forest habitats, and sustainable management of forest resources.
REDD+ is one of the leading near-term options for global climate change mitigation. More than 300 subnational REDD+ initiatives have been launched across the tropics, responding to both the call for demonstration activities in the Bali Action Plan and the market for voluntary carbon offset credits.
This paper assesses the practical contribution of the Gold Standard (GS) and Climate Community and Biodiversity (CCB) Standards to local development through the identification of high quality carbon offset projects and ensuring high standards of consultation with local communities during project development and implementation. It is based on desk research, involving analysis of the GS and CCB Standards' project databases, project design documents, and secondary literature. In addition, over 20 representatives of the two standards systems, project developers, NGO representatives, and researchers were interviewed. The paper concludes that both standard systems successfully reward high quality projects which have a demonstrated commitment to local consultations and sustainable development benefits. Moreover, they serve to give well-meaning project developers frameworks with which to ensure that a wide range of criteria are considered in planning and implementing projects. As voluntary standards, it is unrealistic to expect either the GS or CCB Standards to improve poor-quality or unsustainable projects. The paper also shows an inverse relationship between mitigation and significant co-benefits, imposing a limit on the extent to which both can be achieved simultaneously, This is unsurprising given that carbon markets are primarily tools for greenhouse gas mitigation rather than for development or extending energy access.
This book considers the impact of global climate change, advocating to promote sustainable development from the perspective of low carbon and climate resilience, by reducing carbon emissions in different aspects of urban and regional development. As the world's largest emitter of carbon dioxide, China is continuously exploring a sustainable path to achieve the momentous goal of 2060 carbon neutrality. In addition, this book reviews and summarizes China's green development and predicts the transformation of China's carbon emission and energy structure before and after the peak of carbon emission in 2030. It examines the role of governance in decarbonization efforts, focusing on decision making processes, policies and regulations, as well as the significance of regions, cities, and communities. This book highlights typical methods of implementing and achieving low carbon development in light of China's practical situation, which helps to resolve some of the problems that may arise in achieving the carbon neutral goal. Therefore, this book is suitable for the reference of scholars in low-carbon environment science, sustainable urban development, and other related fields. It also provides inspiration for China's medium and long-term sustainable development plans in the future.
This book provides policymakers, researchers, and other interested audiences with knowledge on how to quantify and integrate and advance co-benefits in their decisions. It begins with an introductory chapter that provides an overview of the concept of co-benefits. This followed by a section that details quantitative approaches to estimate co-benefits, particularly in cities. A third section presents a series of case studies from the energy sector in Northeast and Southeast Asia. A final section focuses on new perspectives on co-benefits from linking climate change with biodiversity, social justice, and through new models of co-innovation. The book is particularly timely as many countries in Asia seek to achieve objectives in the national climate policies and the Sustainable Development Goals (SDGs). The climate emergency poses an increasingly severe threat to the health and well-being of more than a billion people in Asia. Policymakers in the region have sought to curb this threat by adopting clean energy, energy efficiency, and other sectoral policies. In some cases, these policies can bring additional benefits beyond mitigating climate change. These so-called “co-benefits” --ranging from improved air quality to better health to socioeconomic equity--could not only offset the costs of climate mitigation but also make Asia’s development more sustainable. Yet all too frequently policymakers lack the analytical methods and practical experiences to incorporate co-benefits into their decisions. This has created difficulties in aligning climate and sustainable development policies in Asia.
189 countries have submitted their Intended Nationally Determined Contributions (INDCs) and/or their Nationally Determined Contributions (NDCs) to the UNFCCC. With the Paris Agreement having entered into force in November 2016, the INDCs/ NDCs will guide country-level climate action for the coming years. They include not only targets, but also concrete strategies for climate change mitigation and adaptation. FAO has analyzed the INDCs/ NDCs to assess the role of agriculture and land use, land use change and forestry (LULUCF) and the agriculture sectors (crops, livestock, fisheries and aquaculture, as well as forestry) in meeting national mitigation contributions and adaptation objectives, respectively. The results show that in all regions, these sectors will play a pivotal role in accomplishing the intended contributions and objectives for addressing the causes of and increasing resilience to climate change by 2030 and beyond. This INDCs analysis report provides an overview on how the agriculture sectors have been included in the INDCs/ NDCs. It outlines mitigation contributions with a particular focus on agriculture and LULUCF, vulnerabilities under climate change and priority areas and/or activities for adaptation in the agriculture sectors. Furthermore, this report summarizes information provided in the INDCs/ NDCs on Climate-Smart Agriculture (CSA), mitigation-adaptation co-benefits and how countries have developed their INDCs and are planning to implement their NDCs. The aim of this analysis is to provide a basis for identifying priorities for international support for climate action in the agriculture sectors.
Forests are critical for sustainable development, environment and also for livelihood. They provide a wealth of goods and services that are essential for people's lives, cash income and green economy. Maintaining and enhancing our planet's forest resources is essential if we are to succeed in the global efforts to alleviate poverty, address water scarcity and biodiversity loss, and mitigate climate change. Culturally and historically, the intrinsic value of forests, and the spiritual and sacred use of forests have great importance to local communities and our cultural identity. This book on Sustainable Forestry: Emerging Challenges, written by experienced academicians, scientists and other researchers shows the present ongoing initiatives in the country to address sustainable forestry and its management. An estimated 230 million people in India rely on forests for their livelihoods to some degree, including some 60 million indigenous people and other forest-dwelling communities. While more than two billion people - the developing world's population use fodder, biomass fuels, mainly firewood, to cook food and large number of non-timber forest products for their day-to-day needs.