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This manual explains how to use the EX-Ante Carbon-balance Tool known as “EX-ACT” to estimate the impacts of management activities in coastal wetlands, aquaculture and fisheries on projects GHG balance. EX-ACT enables investment planners to design program activities that target high return outcomes in terms of climate change mitigation, and is intended to complement conventional ex-ante economic analysis.
This document presents the methodology used to build the EX-Ante Carbon Balance Tool version 9 (EX-ACT). It describes in detail the main logic behind the tool, the tool structure, and the underlying equations and parameters used to calculate the carbon balance. EX-ACT is a land-use-based accounting system developed by the Food and Agriculture Organization of the United Nations (FAO) to evaluate the effects of the interventions in agriculture on greenhouse gas (GHG) emissions and carbon stock changes expressed as carbon balance. The carbon balance comprises changes in GHG emissions and carbon stock changes in the five quantifiable carbon pools: above-ground biomass, below-ground biomass, litter, deadwood and soil. The current version of EX-ACT is primarily based on the Intergovernmental Panel on Climate Change (IPCC) reports "Refinement to the 2006 Guidelines for National Greenhouse Gas Inventories" (2019) and "Supplement to the 2006 IPCC Guidelines for National Greenhouse Gas Inventories: Wetlands" (2014), complemented by other scientific research.
Complementing the longer EX-ACT User Manual, this guide provides an overview of the Ex-Ante Carbon-balance Tool, a land-based accounting system that prioritizes project activities with the greatest economic benefits and potential for climate change mitigation.
Bioeconomy is credited as being one of the key pillars for the FAO Strategic Framework 2022–2031 to support the achievement of the Sustainable Development Goals. [Author] More than 60 countries and regions have a dedicated bioeconomy or bioscience strategy today, and many more are already implementing the bioeconomy with plans and programmes, often also attempting to monitor and evaluate the progress towards the transition. [Author] Moreover, where trade-offs exist between different sustainability objectives, the bioeconomy offers an opportunity to realign the economy with the biosphere and account for the trade-offs in a holistic way. [Author] This toolbox provides a methodology to guide the development of bioeconomy strategies, and other elements to support its deployment, from dedicated governance systems, to monitoring frameworks to action on the ground. [Author] Many of the examples in this toolbox refer to knowledge gained through FAO experience, while being forward-looking and designed to help more countries and regions embark on or continue their journey towards building a sustainable bioeconomy. [Author] This aligns with FAO’s strategic mission over the next decade; FAO is the first United Nations entity to elevate bioeconomy to a corporate priority, including it as one of 20 programme priority areas under its Strategic Framework 2022–2031. [Author] This reflects the growing role that FAO sees for bioeconomy as a driver of sustainable agrifood systems transformation over the next decade. [Author]
These guidelines have been drawn up as part of the AgrInvest-Food Systems Project (AgrInvest-FS), a collaboration between the Food and Agriculture Organization of the United Nations (FAO) and the European Centre for Development Policy Management (ECDPM) to promote private investments in African food systems that contribute to sustainable development objectives. The purpose of these guidelines is to serve as a reference and provide practical country-customized guidance to foster sustainable investments in agrifood systems in the four African countries covered by the AgrInvest-FS project of FAO-ECDPM.
This report indicates that climate change will significantly affect the availability and trade of fish products, especially for those countries most dependent on the sector, and calls for effective adaptation and mitigation actions encompassing food production.
An overview of the current scientific knowledge available on climate change implications for fisheries and aquaculture is provided through three technical papers that were presented and discussed during the Expert Workshop on Climate Change Implications for Fisheries and Aquaculture (Rome, 7-9 April 2008). A summary of the workshop outcomes as well as key messages on impacts of climate change on aquatic ecosystems and on fisheries- and aquaculture-based livelihoods are provided in the introduction of this Technical Paper. The first paper reviews the physical and ecological impacts of climate change relevant to marine and inland capture fisheries and aquaculture. The paper begins with a review of the physical impacts of climate change on marine and freshwater systems and then connects these changes with observed effects on fish production processes. It also outlines a series of scenarios of climate change impacts on fish production and ecosystems through case studies in different regions and ecosystems. The second paper tackles the consequences of climate change impacts on fisheries and their dependent communities. It analyses the exposure, sensitivity and vulnerability of fisheries to climate change and presents examples of adaptive mechanisms currently used in the sector. The contribution of fisheries to greenhouse gas emissions is addressed and examples of mitigation strategies are given. The role of public policy and institutions in promoting climate change adaptation and mitigation is also explored. Finally, the third paper addresses the impacts of climate change on aquaculture. It provides an overview of the current food fish and aquaculture production and a synthesis of existing studies on climate change effects on aquaculture and fisheries. The paper focuses on the direct and indirect impacts of climate change on aquaculture, in terms of biodiversity, fish disease and fishmeal. Contribution of aquaculture to climate change is addressed (carbon emission and carbon sequestration), as well as possible adaptation and mitigation measures that could be implemented.
Explores how the management of wetlands can influence carbon storage and fluxes. Wetlands are vital natural assets, including their ability to take-up atmospheric carbon and restrict subsequent carbon loss to facilitate long-term storage. They can be deliberately managed to provide a natural solution to mitigate climate change, as well as to help offset direct losses of wetlands from various land-use changes and natural drivers. Wetland Carbon and Environmental Management presents a collection of wetland research studies from around the world to demonstrate how environmental management can improve carbon sequestration while enhancing wetland health and function. Volume highlights include: Overview of carbon storage in the landscape Introduction to wetland management practices Comparisons of natural, managed, and converted wetlands Impact of wetland management on carbon storage or loss Techniques for scientific assessment of wetland carbon processes Case studies covering tropical, coastal, inland, and northern wetlands Primer for carbon offset trading programs and how wetlands might contribute The American Geophysical Union promotes discovery in Earth and space science for the benefit of humanity.Its publications disseminate scientific knowledge and provide resources for researchers, students, and professionals.
This document is directed to aquaculture development specialists, coastal resource use planners and government officials involved and interested in the planning and management of coastal aquaculture development within the wider context of resource use in coastal areas. It is intended to serve in the promotion of environmental management of coastal aquaculture. Guidelines are given for improved environmental management of coastal aquaculture based on an overview of selected published experiences and concepts. Potential adverse environmental effects of and on coastal aquaculture practices are addressed with consideration of main socio-economic and bio-physical factors. Methodologies are presented for the assessment and monitoring of environmental hazards and impacts of coastal aquaculture. Selected environmental management options are described for application both at policy-level and farm-level.