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APPENDIX 1 - Curriculum Education and Training Program in Climate Change and Biodiversity Conservation Implemented by the International START Secretariat, Washington DC and the Institute of Resource Assessment, University of Dar es Salaam 19 July – 3 September 2010 Curriculum Module 1: Biodiversity in a Changing Climate: An Overview Module 1 of the Education and Training program provides an overview of the programs objectives and structure, and it introduces basic concepts of climate variability and change, biodiversity, and ecosystems. In this module, participants will be expected to take part in an interactive discussion that explores their understanding of climate change, ecosystems and biodiversity; current and projected impacts of climate change on biodiversity; and knowledge of implications on ecosystem goods and services and human well-being. Participants will be expected to have read the Module 1 pre-assigned readings beforehand. Module 1 Objectives: Participants are expected to: Acquire an overall understanding of the program objectives, structure and expectations Share their understanding of the pre-assigned readings in terms of the three key points they learnt about climate change, ecosystems and biodiversity. Acquire a general understanding of the concepts of climate variability and change; biodiversity, ecosystems and their goods and services; and implications for conservation and sustainable development. Module 1 Readings: UNFCCC climate change basics: Available: http://unfccc.int/essential_background/feeling_the_heat/items/2917.php; accessed June 22, 2010. Windows to the Universe, Climate and Global Change: a) Click on topic links to learn the basics of climate change. Available: http://windows2universe.org/earth/climate/climate.html; Accessed June 22, 2010. b) Click on topic links to learn about the greenhouse effect and biogeochemical cycles: http://windows2universe.org/teacher_resources/main/biogeochemical_cy cles.html&edu=high; Accessed June 22, 2010 Battarbee, R., P. Cox, C. Freeman, J. Lawton, G. Mace, A, Mackay, D. Read and J. Shepherd. 2007. SUMMARY AND SECTIONS 1-4, Biodiversity-Climate interactions: adaptation, mitigation and human livelihoods, Report of an international meeting held at the Royal Society 12-13 June 2007, Royal Society, UK, pp. 1-11. Available: http://royalsociety.org/WorkArea/DownloadAsset.aspx?id=5538; 11 APPENDIX 1 - Curriculum Accessed June 22, 2010. Millennium Ecosystem Assessment. 2005. Ecosystems and Human Well-being: Summary for Decision Makers, In Ecosystems and Human Well-being: Biodiversity Synthesis. Island Press, Washington, DC, pp. 1-16. Available: http://www.millenniumassessment.org/documents/document.354.aspx.pdf; Accessed June 22, 2010. Millennium Ecosystem Assessment. 2005. Summary for decision-makers, In, Ecosystems and Human Well-being: Synthesis. Island Press, Washington, DC, pp. 1-24. Available: http://www.millenniumassessment.org/documents/document.356.aspx.pdf; Accessed June 22, 2010. Additional Source Material for Instructors and Further Reading for Students: NSF Website: Climate change multimedia presentation: Available: http://www.nsf.gov/news/special_reports/degree/?WT.mc_id=USNSF_51; accessed June 22, 2010. Met Office. 2009. Warming: Climate Change – the Facts, UK. Available: http://www.metoffice.gov.uk/climatechange/guide/downloads/quick_guide.pd f; Accessed June 22, 2010. Module 2: The Climate system: Processes, Variability and Change Participants will learn about the climate system, climate variability and change, global warming evidence of past climate changes and climate projections for the future. Participants will be introduced to methods and tools that are used in projecting future climate changes, including projections of changes at global and regional scales, and uncertainties in the projections. Observed and projected climate changes in Africa and the Albertine Rift will be emphasized. Module 2.1: The Climate System and Greenhouse Effect The major components of the climate system (atmosphere, ocean, land-ecosystems and cryosphere) and interactions among the components (e.g. earth’s energy balance, surface energy balance, hydrologic cycle, atmospheric circulation, ocean circulation) that determine the state of the climate will be examined. Processes of natural climate variability and climate change, both global scale and Africa-wide, will be explored. Implications of human activities that contribute to changing climatic conditions at global and regional scales will be discussed. Module 2.1 Objectives: Participants are expected to obtain basic understanding of: The climate system and processes of natural climate variability and natural climate change. The main processes that influence climate and climate variability in Africa. The greenhouse effect; and of the main greenhouse gases, their sources and sinks, trends and projections. Module 2.1 Readings: 22 APPENDIX 1 - Curriculum IPCC (2007a). Summary for Policymakers. In S. Solomon, D. Quin, M. Manning, Z. Chen, M. Marquis, K. Averyt, M. Tignor and H. Miller, eds., Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, UK and New York, USA. Available: http://www.ipcc.ch/publications_and_data/ar4/wg1/en/spm.html (html) http://www.ipcc.ch/pdf/assessment-report/ar4/wg1/ar4-wg1-spm.pdf (pdf) Accessed June 23, 2010. IPCC WGI AR4 Technical Summary, Frequently Asked Questions: 1.1 (What factors determine the earth’s climate?); 1.2 (What is the relationship between climate change and weather?); 1.3 (What is the greenhouse effect?); 2.1 (How do human activities contribute to climate change and how do they compare with natural influences?). Available: http://www.ipcc.ch/publications_and_data/ar4/wg1/en/faqs.html (html) http://www.ipcc.ch/pdf/assessment-report/ar4/wg1/ar4-wg1-faqs.pdf (pdf) Accessed June 23, 2010. Karl, T., and K. Trenberth (2005). What is climate change? In T. Lovejoy and L. Hannah, eds., Climate Change and Biodiversity. Yale University, New Haven, pp. 15 – 28. Module 2.2 Climate Change in the Recent and Distant Past Participants will learn about changes in the earth’s climate in the recent and distant past. Emphasis will be on climate observations, trends, and evidence for anthropogenic climate change globally and in Africa, in the past 50-100 years. Participants will also be introduced to evidence and causes of climate change in the distant past. Information on the basics of using palaeo-climate proxies for reconstructing earth’s climate in the distant past will be provided. Module 2.2 Objectives: Participants are expected to: Understand how the climate has changed in the recent and distant past and what are the main drivers of such changes. Learn what climate trends have been observed globally and in Africa, particularly in the Albertine Rift over the past 50-100 years. Understand the evidence for anthropogenic activities that contribute to climatic change in the past 50-100 years. Understand the basic concept of using proxies for reconstructing palaeo-climate. Module 2.2 Readings: IPCC WGI AR4 Technical Summary, Frequently Asked Questions: 3.1 (How are temperatures on earth changing?); 3.2 (How is Precipitation Changing?); 3.3 (Has there been a change in extreme events like heat waves, droughts, floods and hurricanes?); 4.1 (Is the amount of snow and ice on the earth decreasing?); 5.1 (Is sea level rising?); 6.1 (What caused the ice ages and other important climate changes before the industrial era?); 6.2 (Is the current climate change unusual compared to earlier changes in earth’s history?); 7.1 (Are the increases in atmospheric carbon dioxide and other greenhouse gases during the industrial era caused by human 33 APPENDIX 1 - Curriculum activities?) and 9.2 (Can the warming of the 20th century be explained by natural variability?). Available: http://www.ipcc.ch/publications_and_data/ar4/wg1/en/faqs.html (html) http://www.ipcc.ch/pdf/assessment-report/ar4/wg1/ar4-wg1-faqs.pdf (pdf) Accessed June 23, 2010. Hulme, M. (2005). Recent climate trends. In T. Lovejoy and L. Hannah (Eds.), Climate Change and Biodiversity. Yale University, New Haven, pp. 31-40. Overpeck, J., J. Cole, and P. Bartlein (2005). A ‘paleoperspective’ on climate variability and change. In T. Lovejoy and L. Hannah (Eds.), Climate Change and Biodiversity. Yale University, New Haven, pp. 91-108. Hulme, M., R. Doherty., T. Ngara., and M. New (2005). Global Warming and African climate change: a reassessment. In. Low, P.S (Ed), Climate Change and Africa. Cambridge University Press, pp 29-40 Unganai, L. (2007). Climate and extreme events. In L. Otter, D. Olago, and I. Niang, (Eds.), Global Change Processes and Impacts in Africa: A Synthesis. East African Educational Publishers, Nairobi, pp. 33-55. Module 2.3: Climate Change Projections for the Future The process of developing climate projections using climate models and of the common assumptions and uncertainties in climate model projections will be explored. Results of climate change projections from global models will be presented and interpreted, and their strengths and weaknesses highlighted. Approaches for downscaling global model projections to regional and finer spatial scales will be discussed and regional projections for Africa examined for implications for possible changes in ecosystem due to changes in climatic conditions. Module 2.3 Objectives: Participants are expected to: Understand what climate models do and the main sources of uncertainties in climate change projections. Understand the importance of in-situ historical and reliable climate records in developing future climate projections. Learn about formal and informal sources of such data for Africa and the Albertine Rift. Understand the changes in climatic conditions expected based on projections from global climate models. Learn about methods for downscaling global projections to regional scales and their uncertainties. Learn about the range of projected climate changes for Sub-Saharan Africa. Module 2.3 Readings: Raper, S., and F. Giorgi (2005). Climate change projections and models. In T. Lovejoy and L. Hannah, eds., Climate Change and Biodiversity. Yale University, New Haven, pp. 199-210. Hewitson, B., R. Crane, and M. Tadross (2007). Regional climate scenarios for impact assessment. In L. Otter, D. Olago, and I. Niang, eds., Global Change 44 APPENDIX 1 - Curriculum Processes and Impacts in Africa: A Synthesis. East African Educational Publishers, Nairobi, pp. 56-71. Hulme, M., R. Doherty, T. Ngara, and M. New (2005). Global warming and African climate change: a reassessment. In P. Low, ed., Climate Change and Africa, Cambridge University Press, Cambridge, UK and New York, USA, pp. 29-40. Christensen, J., B. Hewitson and others (2007). Regional climate projections. In S. Solomon, D. Quin, M. Manning, Z. Chen, M. Marquis, K. Averyt, M. Tignor and H. Miller, eds., Climate Change 2007: The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, UK and New York, USA, pp. 847-940. [See in particular pp. 852-864 (Introduction); pp. 866-871 (Africa); and pp. 918-925 (Assessment of regional climate model projection methods)] Available: http://www.ipcc.ch/publications_and_data/ar4/wg1/en/ch11.html (html) http://www.ipcc.ch/pdf/assessment-report/ar4/wg1/ar4-wg1-chapter11.pdf (pdf) Accessed: June 23, 2010. Module 3: Implications of Climate Change for Human Well-being A coupled human-environment systems framework will be presented as a basis for an overview of the nature and causes of vulnerability of human systems to climate change. The module will address issues of climate change-related impacts on agriculture, water resources, livelihoods, human settlements, coastal zones, food security, and human health, particularly in Africa. The role of economic and industrial development and urbanization in generating additional anthropogenic stressors that may exacerbate impacts of and vulnerability to climate change will be discussed. Adaptation and mitigation options for reducing and managing climate change-related risks will be considered. Module 3 Objectives: Participants are expected to: Understand concepts of vulnerability, exposure, sensitivity, adaptive capacity, resilience and thresholds. Learn about the impacts of climate change on key socio-economic sectors; understand the implications for human livelihoods, human health and human security. Learn about anthropogenic development related stressors such as industrial development, commercial agriculture, increasing extraction of natural resources, growing urbanization, etc. that may increase vulnerability to climate change impacts. Learn about key vulnerabilities for Africa and the Albertine Rift region and their socio-economic implications. Understand the response strategies of adaptation and mitigation and the factors that enable and impede these responses. Module 3 Readings: IPCC (2007b). Summary for Policymakers. In M. Parry, O. Canziani, J. Palutikof, P. van der Linden, and C. Hanson, eds., Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of 55 APPENDIX 1 - Curriculum the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, UK and New York, USA. Available: http://www.ipcc.ch/publications_and_data/ar4/wg2/en/spm.html (html) http://www.ipcc.ch/pdf/assessment-report/ar4/wg2/ar4-wg2-spm.pdf (pdf) Accessed: June 23, 2010. Boko, M., Niang, I., Nyong, A., Vogel, C., Githeko, A., Medany, M., Osman-Elasha, B., Tabo, R., and Yanda, P. Africa (2007). In, M. L. Parry, O. F. Canziani, J. P. Palutikof, P. J. van der Linden and C. E. Hanson (Eds.), Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Chang. Cambridge University Press, Cambridge, UK and New York, USA, 433-467. Available: http://www.ipcc.ch/publications_and_data/ar4/wg2/en/ch9.html (html) http://www.ipcc.ch/pdf/assessment-report/ar4/wg2/ar4-wg2-chapter9.pdf (pdf) Accessed June 23, 2010. IPCC (2007c). Summary for Policymakers. In B. Metz, O. Davidson, P. Bosch, R. Dave, and L. Meyer, eds., Climate Change 2007: Mitigation. Contribution of Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, UK and New York, USA. Available: http://www.ipcc.ch/publications_and_data/ar4/wg3/en/spm.html (html) http://www.ipcc.ch/pdf/assessment-report/ar4/wg3/ar4-wg3-spm.pdf (pdf) Accessed June 23, 2010. Van der Post, C. (2007). Human dimensions of African climate and environmental change. In L. Otter, D. Olago, and I. Niang, eds., Global Change Processes and Impacts in Africa: A Synthesis. East African Educational Publishers, Nairobi, pp. 7293. Additional Source Material for Instructors and Further Reading for Students: Leary, N., and S. Beresford (2008), “Vulnerability of People, Places and Systems to Environmental Change,” in G. Knight and J. Jaeger, editors, Integrated Regional Assessment, Cambridge University Press, pp. 117-149. Leary, N., and others (2008b). “For whom the bell tolls, vulnerabilities in a changing climate” in N. Leary, C. Conde, A. Nyong and J. Pulhin, eds., Climate Change and Vulnerability. Earthscan, London, pp. 3-30. Leary, N., and others (2008a). “A stitch in time, general lessons from specific cases,” in N. Leary, J. Adejwon, V. Barros, I. Burton, J. Kulkarni and R. Lasco, eds., Climate Change and Adaptation. Earthscan, London, pp. 1-27. Module 4: Ecosystems and Biodiversity and their Vulnerability to Climate Change Concepts of ecosystems, biodiversity and climate change will be presented. Participants will learn about different types of biomes and ecosystems, ecosystem processes, and goods and services as well as about biodiversity in Africa and the Albertine Rift. Participants will also learn how climate change affects ecosystems and biodiversity and how ecosystems in turn influence regional climates. The focus will be on understanding the mechanisms by which increasing atmospheric concentrations of carbon dioxide and other biogeochemical changes (e.g., nitrogen cycle) affect ecosystems. Impacts in the distant and recent past will be examined. 66 APPENDIX 1 - Curriculum Module 4.1: Ecosystem Concepts and Processes Key ecological concepts across different biomes and ecosystems will be explored, with a focus on the major biomes of Africa and the Albertine Rift and their distribution. Ecosystem dynamics, and resilience to various stressors, will be examined, particularly the role of climate in determining ecosystem distribution and the diversity and endemism of species. Module 4.1 Objectives: Participants are expected to: Understand the concepts of biomes, ecosystems and ecosystem type. Be able to identify the major ecosystem types and biomes in Africa, the Albertine Rift and major hotspots of species diversity and endemism. Learn about ecosystem processes and dynamics. Understand the interaction between ecosystems and climate. Learn about factors that influence the resilience of ecosystems to disturbances including those that could result from changes in climate. Module 4.1 Readings: Kormondy, E.J. (1996). Concepts of Ecology. Prentice Hall, Upper Saddle River, New Jersey (4th edition). Ecology and Ecosystems; pp 1-30. Chapman, J.L., and M.J. Reiss (2005). Ecology: Principles and Applications. Cambridge University Press (2nd edition). Ecosystems processes; pp 187-205. Townsend, C.R., M. Begon and J.L. Harper (2003). Essentials of Ecology. Blackwell Publishing (2nd edition). Individuals, Populations, Communities, and Ecosystems, pp 155-222. Plumptre, A. J., Davenport, T. R. B., Behangana, M., Kityo, R., Eilu, G., Ssegawa, P., Ewango, C., Meirte, D., Kahindo, C., Herremans, M., Peterhands, J. K., Pilgrim, J. D., Wilson, M., Languy, M., and Moyer, D. 2007. The biodiversity of the Albertine Rift, Biological Conservation, 134: 178-194. http://webdocs.dow.wur.nl/internet/fem/uk/pdf/plumptre%20et%20al%202007.pdf Accessed June 29, 2010. Module 4.2: Ecosystem Goods and Services This module will introduce concepts of ecosystem goods and services that are based on the Millennium Ecosystem Assessment (MEA) framework. The role of ecosystems and biodiversity in providing goods and services, supporting livelihoods, and enabling development will be explored using examples from Africa and the Albertine Rift. Human pressures on ecosystems and the resulting changes in ecosystems and ecosystem goods and services in the past century will be examined, particularly from the perspective of the Albertine Rift region. Information on international efforts, such as IPBES and GEOBON will be presented and implications for the Albertine Rift region will be considered. Module 4.2 Objectives: Participants are expected to: Learn about the critical importance of ecosystems and biodiversity in sustaining 77 APPENDIX 1 - Curriculum human communities through the provision of goods and services. Understand how the processes and interactions represented by the MEA framework can enhance understanding of changes in ecosystems, environmental degradation and related challenges for sustained human well-being. Be able to identify many of the major pressures from human activities that act on ecosystems and biodiversity using examples from Africa and the Albertine Rift region. Understand the rate, extent and character of human impacts on ecosystems and biodiversity and on ecosystem goods and services in the region in the recent past. Understand the need for consistent, long-term observations as a basis for ecosystem and biodiversity conservation. Module 4.2 Readings: Millennium Ecosystem Assessment (2003). Chapter 1: Introduction and conceptual framework. In Ecosystems and Human Well-being: A Framework for Assessment. Island Press, Washington, DC, pp. 26-48. Available: http://www.millenniumassessment.org/documents/document.299.aspx.pdf Accessed June 29, 2010. Millennium Ecosystem Assessment (2003). Chapter 2: Ecosystems and their services. In Ecosystems and Human Well-being: A Framework for Assessment. Island Press, Washington, DC, pp. 49-70. Available: http://www.millenniumassessment.org/documents/document.300.aspx.pdf Accessed June 29, 2010. Millennium Ecosystem Assessment (2003). Chapter 3: Ecosystems and human wellbeing. In Ecosystems and Human Well-being: A Framework for Assessment. Island Press, Washington, DC, pp. 71-84. Available: http://www.millenniumassessment.org/documents/document.301.aspx.pdf Accessed June 29, 2010. Millennium Ecosystem Assessment (2005). Chapter 3: Drivers of Ecosystem Change: Summary Chapter. In Ecosystems and Human Well-being: Current State and Trends. Island Press, Washington, DC, pp. 73-76. Available: http://www.millenniumassessment.org/en/Condition.aspx#download Mainka, S. A., J. McNeely, and W. J. Jackson. 2008. Depending on Nature: Ecosystem Services for Human Livelihoods. Environment, Volume 50, Number 2, pp. 43-55, March/April. Scholes R. J., Kuper, W. and Biggs, R. 2006. Biodiversity. In, Africa Environmental Outlook 2: Our Environment, Our Wealth, United Nations Environment Program, Nairobi, Kenya. Available: http://www.unep.org/DEWA/Africa/docs/en/aeo2/chapters/aeo-2_ch07_BIODIVERSITY.pdf Accessed: June 23, 2010 Additional Source Material for Instructors and Further Reading for Students: Kinzig, A., Perrings, C., Scholes, B. 2007 Ecosystem services and the economics of biodiversity conservation. Working paper (downloaded November 2007). http://www.public.asu.edu/~cperring/Kinzig Perrings Scholes (2007).pdf 88 APPENDIX 1 - Curriculum Naughton-Treves, L., D. M. Kammen, and C. Chapman. 2007. Burning biodiversity: Woody biomass use by commercial and subsistence groups in western Uganda’s forests, Biological Conservation, Volume 134, 232-241. Module 4.3: Mechanisms by which Climate Change Affects Ecosystems and Observed Impacts A general overview of the mechanistic processes by which climate affects species composition and distribution, biome composition and distribution as well as ecosystems processes and functions will be presented. Anticipated, climate change induced, future structural and functional changes in ecosystems will be examined using examples from Africa and the Albertine Rift. Socio-economic impacts of such changes on key sectors will be examined. Module 4.3 Objectives: Participants are expected to: Understand the main processes by which climate change affects natural and managed ecosystems and their species composition and distribution; with a particular focus on Africa and the Albertine Rift. Learn about climate sensitivities and thresholds of different ecosystems in the Albertine Rift. Learn about the role of non-climate stressors in contributing to the realized distant and recent past impacts of climate change on ecosystems. Understand the nature of climate related impacts, both past and current, on ecosystems in Africa and the Albertine Rift. Understand the wide range and severity of potential future climate change impacts on ecosystems and biodiversity; understand major sources of uncertainty about future projections. Learn about the implications for human communities in terms of indirect impacts on sectors such as agriculture and food security, livelihoods, water resources, health, human settlements, etc as well as on the availability of bio-resources. Be very briefly introduced to tools and methods used in the assessment of impacts. Module 4.3 Readings: Secretariat of the Convention on Biological Diversity (2009). SECTION 1, Connecting Biodiversity and Climate Change Mitigation and Adaptation: Report of the Second Ad Hoc Technical Expert Group on Biodiversity and Climate Change. Montreal, Technical Series No. 41, 126 pages. Available: http://www.cbd.int/doc/publications/cbd-ts-41-en.pdf Parmesan, C. (2005). Biotic response: range and abundance changes. In T. Lovejoy and L. Hannah (Eds.), Climate Change and Biodiversity. Yale University, New Haven, pp. 41-55. Root, T. and L. Hughes (2005). Present and future phenological changes in wild plants and animals. In T. Lovejoy and L. Hannah (Eds.), Climate Change and Biodiversity. Yale University, New Haven, pp. 61-69. Pounds, J., M. Fogden, and K. Masters (2005). Case study: responses of natural communities to climate change in a highland tropical forest. In T. Lovejoy and L. 99 APPENDIX 1 - Curriculum Hannah (Eds.), Climate Change and Biodiversity. Yale University, New Haven, pp. 70-74. Thomas, C. D. 2005. Recent Evolutionary Effects of Climate Change. In T. Lovejoy and L. Hannah (Eds.), Climate Change and Biodiversity. Yale University, New Haven, pp. 75-88. Olago, D. (2001). Vegetation changes over palaeo-time scales in Africa. Climate Research 17, no. 2: 105-121. Justice, C., and others (2001). Central African forests, carbon and climate change. Climate Research 17, no. 2: 229-246. Mooney, H. et al. 2009. Biodiversity, Climate Change and Ecosystem Services. Current opinion in Environmental Sustainability, 1: 46-54. Additional Source Material for Instructors and Further Reading for Students: Fischlin, A. and others (2007). Ecosystems, their properties, goods and services. In M. Parry, O. Canziani, J. Palutikof, P. van der Linden, and C. Hanson, eds., Climate Change 2007: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge, UK and New York, USA, pp. 211272. Available: http://www.ipcc.ch/publications_and_data/ar4/wg2/en/ch4.html (html) http://www.ipcc.ch/pdf/assessment-report/ar4/wg2/ar4-wg2-chapter4.pdf (pdf) Accessed June 23, 2010. Parmesan, C. (2006). Ecological and evolutionary responses to recent climate change, Annual Review of Ecology, Evolution and Systematics, 37: 637-639. http://cns.utexas.edu/communications/File/AnnRev_CCimpacts2006.pdf Naeem, S., and others (2007). Predicting the ecosystem consequences of biodiversity loss: the Biomerge Framework. In J. Canadell, D. Patakki, L. Pitelka, eds., Terrestrial Ecosystems in a Changing World. Springer, Berlin, Hedeilberg and New York. pp. 113-126. Bush, M. and H. Hooghiemstra (2005). Tropical biotic responses to climate change. In T. Lovejoy and L. Hannah (Eds.), Climate Change and Biodiversity. Yale University, New Haven, pp. 125-137. Klein, M., A. Buck, and C. Eastaugh (Eds.) 2010. Making African Forests Fit for Climate Change: A Regional View of Climate Change Impacts on Forests and People and Options for Adaptation, Policy Brief, International Union of Forest Research Organizations. Available: http://www.iufro.org/download/file/5514/4624/african-policy-briefen.pdf/ Accessed June 23, 2010. Module 5: Current Approaches to Biodiversity Conservation Participants will learn about the legal, policy and governance aspects of biodiversity conservation at regional, national, and local scales. International treaties, agreements and laws applicable to the protection of ecosystems and biodiversity will be discussed. Participants will be introduced to various conservation methods currently being deployed and will learn about protected areas, their categories, their global distribution, and challenges 10 APPENDIX 1 - Curriculum associated with their maintenance. The effectiveness of existing protected areas from the perspective of biodiversity conservation, maintaining ecosystem resilience in the face of various stressors, and in sustaining ecosystem goods and services will be discussed. The influence of local communities on protected areas will be examined. Benefits and shortcomings of current approaches to conservation will be assessed. Targeted focus will be on Africa and the Albertine Rift in teaching this module. Module 5 Objectives: Participants are expected to: Learn about international treaties and agreements, most importantly the convention on biological diversity, as well as regional/national/local initiatives. Understand the concepts of in-situ and ex-situ conservation and place-based conservation i.e. protected areas. Learn about protected area categories based on the International Union for Conservation of Nature (IUCN) classification and their global distribution. Become familiar with institutional, legal and policy aspects that inform conservation in Africa and the Albertine Rift region. Learn about the role of key stakeholders e.g. international/national NGOs and institutions, local/regional organizations, national/regional/local governments and officials, etc. using local/regional examples. Learn about indigenous knowledge and practices used in ecosystem management, community perceptions of ecosystem stressors, and their capacities for adapting the management of ecosystems to changing pressures. Learn about approaches to community engagement in conservation such as the Community Based Natural Resource Management (CBNRM) strategies. Become aware of some of the key challenges in maintaining protected areas. Learn about the influence of various stressors on protected areas such as natural stressors, human activities, local industrial / economic development, and policy and measures that may be at odds with conservation. Examine the effectiveness of current protected area systems in terms of their strengths and weaknesses in addressing various stressors and in sustaining goods and services. Examine the status of formally and informally protected areas in the Albertine Rift region from the above perspectives. Module 5 Readings: Lockwood, M (2006) Global protected area framework. In, M. Lockwood, G. L. Worboys and A. Kothari (Eds.), Managing Protected Areas: A Global Guide, Earthscan, London, UK and Sterling, USA, pp. 73-100 Lockwood, M (2006) Social Context. In, M. Lockwood, G. L. Worboys and A. Kothari (Eds.), Managing Protected Areas: A Global Guide, Earthscan, London, UK and Sterling, USA, pp. 41-72 Borrini-Feyerabend, G., Johnson, J. and Pansky, D (2006) Governance of protected areas. In, M. Lockwood, G. L. Worboys and A. Kothari (Eds.), Managing Protected Areas: A Global Guide, Earthscan, London, UK and Sterling, USA, pp. 116-145 Kothari, A. (2006). Community conserved areas. In, M. Lockwood, G. L. Worboys and A. Kothari (Eds.), Managing Protected Areas: A Global Guide, Earthscan, London, UK and Sterling, USA, pp. 549-573 11 APPENDIX 1 - Curriculum Naughton-Treves, L., Buck Holland, M. and Brandon, K. (2005). The role of protected areas in conserving biodiversity and sustaining local livelihoods, Annual Review of the Environment and Resources, 30: 219-252. Worboys, G., Winkler, C. and Lockwood, M. (2006) Threats to protected areas. In, M. Lockwood, G. L. Worboys and A. Kothari (Eds.), Managing Protected Areas: A Global Guide, Earthscan, London, UK and Sterling, USA, pp. 223-261 Lockwood, M., Worboys, G. L. and Kothari, A. (2006) Challenges and opportunities. In, M. Lockwood, G. L. Worboys and A. Kothari (Eds.), Managing Protected Areas: A Global Guide, Earthscan, London, UK and Sterling, USA, pp. 677-681 Cordeiro, N. J., Burgess, N. D., Dovie, D. B.K., Kaplin, B. A., Plumptre, A. J., Marrs, R. 2007. Editorial: Conservation in Areas of High Population Density in SubSaharan Africa. In, Biological Conservation, Volume 134 (2), pp. 155-163. Goldman, Mara (2003). Partitioned nature, privileged knowledge: Community-based conservation in Tanzania. Development and Change 34(5); pp. 833-862. Additional Source Material for Instructors and Further Reading for Students: Patterson, G. and J. Makin (eds) (1998). The state of biodiversity in Lake Tanganyika – A literature review. Chatham (UK): National Resources Institute; 134pp. Rogers, P.J. (2002). Global Governance/Governmentality, Wildlife Conservation, and Protected Area Management: A Comparative Study of Eastern and Southern Africa. Paper presented at the African Studies Association 45th Annual Meeting, Washington DC, December 5. Available: hdgc.epp.cmu.edu/misc/Rogers2002.doc (Word version) Accessed June 24, 2010 Module 6: Strategies for Adapting Biodiversity Conservation to Climate Change Impacts Strategies for designing response strategies to address multiple stressors on ecosystems and biodiversity including impacts of climate change will be examined. Participants will learn about key considerations and practical approaches for designing conservation strategies suited to a more dynamic environment. Module 6.1: Approaches to Designing Landscapes under a Changing Climate Key guiding principles that can inform the design of conservation strategies under the combined influence of climatic and non-climatic stressors will be introduced. Participants will learn to define conservation targets and determine the scope and boundaries of planning areas (and the matrix?) based on the status of biodiversity and ecosystems in the local/regional context. Various databases (climate variables, species distribution, etc.) as well as analytical tools such as remote sensing, GIS, Reserve Selection Algorithms (in software packages such as Worldmap, SITES, etc.) that can be used for planning the design of landscapes for biodiversity conservation under a changing climate will be introduced. Module 6.1 Objectives: Participants are expected to: 12 APPENDIX 1 - Curriculum Learn about key guiding principles in designing climate change responsive conservation strategies e.g. conserving existing biodiversity; reducing the impacts of non-climatic stressors; protecting and restoring habitats and maintaining habitat connectivity; relying on analytical evidence to guide decision-making; and integrating adaptation and mitigation efforts (from Hopkins et al, 2007). Understand the process of setting conservation goals and priorities based on these principles, keeping in mind institutional, legal and governance aspects. Be briefly introduced to various modeling methods for determining climate change impacts on ecosystems and species and their distribution (examples include CLIMAX, GARP, MAXENT, genetic algorithms, artificial neural networks, etc); understand how modeling outcomes inform conservation target setting and help determine future distribution and boundaries of protected areas. Understand the importance of dynamic conservation plans in response to current and projected future distribution of species under a changing climate and informed by reserve planning tools (e.g. reserve selection algorithms). Understand the need for and importance of monitoring systems within an adaptive management framework. Module 6.1 Readings: Hansen, L. and J. Biringer (2003). Overview: Building Resistance and Resilience to Climate Change. In L. Hansen, J. Biringer and J. Hoffman, eds., Buying Time: A User’s Manual for Building Resistance and Resilience to Climate Change in Natural Systems, WWF, Washington. Pp. 7-12. Available: http://wwf.panda.org/about_our_earth/all_publications/?8678/BUYINGTIME-A-Users-Manual-for-Building-Resistance-and-Resilience-to-Climate-Changein-Natural-Systems Accessed June 24, 2010. Hannah, L., T. Lovejoy and S. Schneider (2005). Designing landscapes and seascapes for change. In T. Lovejoy and L. Hannah, eds., Climate Change and Biodiversity. Yale University, New Haven, pp. 329-341. Hopkins, J. J., Allison, H. M., Walmsley, C. A., Gaywood, M. and Thurgate, G. 2007. Conserving Biodiversity in a Changing Climate: Guidance on building capacity to adapt, DEFRA, United Kingdom. Available: www.ukbap.org.uk/Library/BRIG/CBCCGuidance.pdf Accessed June 24, 2010 Price, M. F. and Neville, G. R. (2003). Designing strategies to increase the resilience of Alpine/Montane systems to climate change. In. L. J. Hansen, J. L. Biringer and J. R. Hoffman (Eds.), Buying Time: A User’s Manual for Building Resistance and Resilience to Climate Change in Natural Systems: Protected Areas, World Wildlife Fund. Pp. 73-92 Available: http://wwf.panda.org/about_our_earth/all_publications/?8678/BUYINGTIME-A-Users-Manual-for-Building-Resistance-and-Resilience-to-Climate-Changein-Natural-Systems Accessed June 24, 2010 Hannah, L. (2003). Regional biodiversity impacts assessments for climate change: a guide for protected area managers. In L. Hansen, J. Biringer and J. Hoffman, eds., Buying Time: A User’s Manual for Building Resistance and Resilience to Climate Change in Natural Systems, WWF, Washington. Pp. 233-242. 13 APPENDIX 1 - Curriculum Available: http://wwf.panda.org/about_our_earth/all_publications/?8678/BUYINGTIME-A-Users-Manual-for-Building-Resistance-and-Resilience-to-Climate-Changein-Natural-Systems Accessed June 24, 2010 Secretariat of the Convention on Biological Diversity (2009). SECTION 2: Biodiversity and Climate Change Adaptation. In, Connecting Biodiversity and Climate Change Mitigation and Adaptation: Report of the Second Ad Hoc Technical Expert Group on Biodiversity and Climate Change. Montreal, Technical Series No. 41, pp. 31-51 Available: http://www.cbd.int/doc/publications/cbd-ts-41-en.pdf Accessed June 24, 2010 Module 6.2: Management of Protected Areas Under Climate Change The importance of planning and management for formally conserved areas under changing climate will be discussed. Current strategies for biodiversity conservation and protected area management will be evaluated for their applicability and new/modified strategies developed where necessary. The need for trans-boundary co-operation to ensure protection in the event of shifting margins of species ranges and habitats will be highlighted. Planning and regulatory tools that can address the impacts of non-climatic stressors will be discussed. The importance of designing cost effective strategies that maintain flexibility and reversibility will be addressed. Key stakeholders and their roles in the conservation planning and management process will be discussed. Module 6.2 Objectives: Participants are expected to: Revisit the role of planning and management in protected area design and conservation. Recognize the importance of adapting current management tools, where necessary, to ensure their applicability under a changing climate. Understand the importance of trans-boundary co-operation. Learn to identify key stakeholders and their roles. Understand the need for planning and regulatory tools that can address climatic and non-climatic stressors and can maintain flexibility and reversibility as risks change with a changing climate. Become informed on the economics of protected area planning and management in terms of staff, resources, training, and equipment needs. Module 6.2 Readings: Hannah, L. and Salm, R. (2005). Protected area management in a changing climate. In T. Lovejoy and L. Hannah (Eds.), Climate Change and Biodiversity. Yale University, New Haven, pp. 211-228. Lovejoy, T. E. (2005). Conservation with a changing climate. In T. Lovejoy and L. Hannah, eds., Climate Change and Biodiversity. Yale University, New Haven, pp. 325-328. Lockwood, M. (2006) Management Planning. In, M. Lockwood, G. L. Worboys and A. Kothari (Eds.), Managing Protected Areas: A Global Guide, Earthscan, London, UK and Sterling, USA, pp. 292-327 14 APPENDIX 1 - Curriculum Hockings, M., Leverington, F. and James, R. (2006) Evaluating management effectiveness. In, M. Lockwood, G. L. Worboys and A. Kothari (Eds.), Managing Protected Areas: A Global Guide, Earthscan, London, UK and Sterling, USA, pp. 635-655 Lockwood, M. and Quintela, C. E. (2006) Finance and Economics. In, M. Lockwood, G. L. Worboys and A. Kothari (Eds.), Managing Protected Areas: A Global Guide, Earthscan, London, UK and Sterling, USA, pp. 328-358 Dudley, N. and Stolton, S. (2003). Ecological and Socio-economic benefits of protected areas in dealing with climate change. In L. Hansen, J. Biringer and J. Hoffman, (Eds.), Buying Time: A User’s Manual for Building Resistance and Resilience to Climate Change in Natural Systems, WWF, Washington. Pp. 215-231. Available: http://wwf.panda.org/about_our_earth/all_publications/?8678/BUYINGTIME-A-Users-Manual-for-Building-Resistance-and-Resilience-to-Climate-Changein-Natural-Systems Accessed June 24, 2010. Additional Source Material for Instructors and Further Reading for Students: Schaik, C.V., Terborgh, J., L Davenport, and Rao, M. (2002). Making Parks Work: Past, Present and Future, In, J. Terborgh, C.V Schaik, L. Davenport and M. Rao (eds), Making Parks Work: Strategies for Preserving Tropical Nature, Island Press, Washington DC, pp 468-481. Module 6.3: Protecting Matrix Areas A large amount of biodiversity currently occurs outside of any formal protected areas, in the matrix, which is often subject to a variety of land uses and pressures. The importance of developing management strategies to protect the matrix will be explored as a part of a dynamic landscape conservation plan as it relates to conserving biodiversity, preserving its capacity to serve as a source of habitat for some species or as a potentially new suitable habitat for others due to shifting ranges, and maintaining its function as migratory corridors. The need for spatially and sectorally coordinated management responses and the role of key stakeholders will also be highlighted. Module 6.3 Objectives: Participants are expected to: Learn about the key role of the matrix as a source of biodiversity, as a source of resources for species, as a connective landscape, and as a potential suitable habitat for species under a changing climate. Understand the importance of determining current and future functions of matrix areas in biodiversity conservation as species’ ranges shift with changing climatic conditions. Understand the importance of periodic monitoring of climate induced changes as well as changes in other stressors in matrix areas, which are often under various land uses. Learn about the usefulness of spatial analysis tools in planning for conservation in the matrix. Learn about the various options for protecting matrix areas to preserve their structure and function. 15 APPENDIX 1 - Curriculum Be informed about policy and regulatory approaches to protecting matrix areas. Module 6.3 Readings: Da Fonseca, G. A. B., Sechrest, W. and Oglethorpe, J. (2005). Managing the matrix. In T. Lovejoy and L. Hannah (Eds.), Climate Change and Biodiversity. Yale University, New Haven, pp. 346-362. Sandwith, T. and Lockwood, M. (2006). Linking the landscape. In, M. Lockwood, G. L. Worboys and A. Kothari (Eds.), Managing Protected Areas: A Global Guide, Earthscan, London, UK and Sterling, USA, pp. 574-602 Module 6.4: Community-inclusive Approaches The role of local communities as key stakeholders in efforts to adapt biodiversity conservation strategies under climate change will be highlighted. The importance of successful cooperation and participation of local communities, particularly in natural resource dependent communities and in the matrix areas where land-use is often mixed, will be emphasized. The role of traditional community conserved areas in offering a refuge for biodiversity will be examined. Module 6.4 Objectives: Participants are expected to: Review (from previous modules) the role of traditional and current community conservation strategies in planning for conservation under a changing climate. Learn about current land-uses by local communities in areas that might in future need protection for biodiversity conservation under climate change and the ways in which such land uses could be made compatible with conservation objectives and humanwellbeing. Learn about community stakeholders that could potentially contribute to biodiversity conservation under climate change; examine the usefulness of popular approaches such as the CBNRM in aiding community participation for biodiversity conservation under climate change. Identify policy and regulatory measures as well as incentives that could be used to elicit community cooperation and participation. Module 6.4 Readings: Balint, P. J. (2006). Improving community-based conservation near Protected Areas. The importance of development variables. Environmental Management 38(1); pp. 137-148. Nelson, F., E. Sulle and P. Ndoipo 2006. Wildlife Management Areas in Tanzania. A Status Report and Interim Evaluation prepared for the Tanzania Natural Resource Forum. Final Draft. Hill, C.M. (2002). People, crops and wildlife: A conflict of interests’ in Hill, C., Osborn, F. and Plumptre, A.J. (eds.), Human-wildlife conflict: Identifying the problem and possible solutions. Albertine Rift Technical Report Series, Vol. 1. Wildlife Conservation Society; pp. 61-68. 16 APPENDIX 1 - Curriculum USAID (2000). Community based conservation experience in Tanzania: An assessment of lessons learned. Report prepared for USAID/Tanzania by International Resources Group, Washington, DC, USA. August, 2000. Available: http://rmportal.net/library/I/A/5/cbnfm/USAID-BDB-cd-2-data/pnack607tanz3.pdf/view?searchterm=CommunityBased%20Conservation%20Experience%20in%20Tanzania Accessed June 24, 2010 Emerton, L. and Mfunda, I. (1999). Making wildlife economically viable for communities living around the Western Serengeti, Tanzania. Evaluating Eden Series, Working Paper No. 1. Nelson, F et al. 2010. Payments for ecosystem services as a framework for community-based conservation in Northern Tanzania, Conservation Biology, Volume 24 (1), p. 78-85. Additional Source Material for Instructors and Further Reading for Students: Liu, Jiangou, T. Dietz, S. R. Carpenter, et al. 2007. Complexity of Coupled Human and Natural Systems. In, Science, Volume 317 (5844), pp. 1513-1516 Balint, P.J. and J. Mashinya (2006). The decline of a model community-based conservation project: Governance, capacity and devolution in Mahenye, Zimbabwe. Geoforum 37; pp. 805-815. Baldus, R.D., Kaggi, D.Th. and Ngoti, P.M. (2004). Community based conservation: Where are we now? Where are we going?’ Miombo, 27, 3-7. Module 7: Synergies and Trade-offs between Adaptation of Ecosystems and Biodiversity and Climate Change Mitigation Initiatives in the Region Participants will briefly revisit strategies for mitigation of climate change that were addressed in Module 3 with particular attention to those that involve the management of bio-resources such as under Reducing Emissions from Deforestation and Forest Degradation (REDD) and Clean Development Mechanism (CDM) initiatives targeted at natural resource management and renewable energy deployment, etc. which could have implications for the protection of ecosystems and conservation of biodiversity in the region. Existing mitigation projects in Africa and the Albertine Rift region will be examined from the perspective of the opportunities and challenges they present to both biodiversity conservation and rural development (through community-based conservation). Module 7 objectives: Participants are expected to: Learn about UNFCCC climate change mitigation tools such as REDD and CDM. Identify a select number of ongoing or planned climate mitigation projects in the Albertine Rift region (i.e. bio-resource initiatives, biofuel production, small hydroelectricity, wind, and REDD projects) that may positively or negatively influence adaptation of biodiversity conservation. Understand such projects in terms of the benefits or challenges they may present to biodiversity conservation under a changing climate as well as the planning, policy and economic implications. Examine whether the selected projects offer benefits or challenges for sustainable development in the region. 17 APPENDIX 1 - Curriculum Become familiar with methodologies that could be deployed to assess the feasibility of a REDD or CDM project. Module 7 Readings: Secretariat of the Convention on Biological Diversity (2009). SECTION 3: Biodiversity and Climate Change Mitigation. In, Connecting Biodiversity and Climate Change Mitigation and Adaptation: Report of the Second Ad Hoc Technical Expert Group on Biodiversity and Climate Change. Montreal, Technical Series No. 41, pp. 51-63. Available: http://www.cbd.int/doc/publications/cbd-ts-41-en.pdf Accessed June 24, 2010 Battarbee, R., P. Cox, C. Freeman, J. Lawton, G. Mace, A, Mackay, D. Read and J. Shepherd (2007). SECTIONS 5-7, Biodiversity-Climate interactions: adaptation, mitigation and human livelihoods, Report of an international meeting held at the Royal Society 12-13 June 2007, Royal Society, UK, p. 18-37. Available: http://royalsociety.org/WorkArea/DownloadAsset.aspx?id=5538 Accessed June 22, 2010. Harvey, C. A., B. Dickson and C. Kormos. 2009. Opportunities for Achieving Biodiversity Conservation Through REDD. In, Conservation Letters, 3, pp. 53-61. Additional Source Material for Instructors and Further Reading for Students: von Scheliha, S., B. Hecht and T. Christophersen. 2009. Biodiversity and Livelihoods: REDD Benefits, GTZ and Secretariat of the Convention on Biological Diversity. Available: http://www.cbd.int/doc/publications/for-redd-en.pdf Accessed June 25, 2010. Van Bodegom, Arend Jan, Herman Savenije and Marieke Wit (eds). (2009). Forests and Climate Change: adaptation and mitigation. Tropenbos International, Wageningen, The Netherlands. xvi + 160 pp. Available: idl-bnc.idrc.ca/dspace/bitstream/10625/41689/1/129387.pdf Accessed June 25, 2010 Miles, L., Kabalimu, K., Bahane, B., Ravilious, C., Dunning, E., Bertzky, M., Kapos, V., Dickson, B. 2009. Carbon, biodiversity and ecosystem services: exploring cobenefits. Tanzania. Prepared by UNEP-WCMC, Cambridge, UK & Forestry and Beekeeping Division, Ministry of Natural Resources and Tourism, Dar es Salaam. UN-REDD Programme, Tanzania. Available: http://www.unepwcmc.org/climate/pdf/copenhagen/Tanzania%20brochure%20final%20091208_finalf inal.pdf Accessed June 25, 2010 Module 8: Methods and Tools Participants will learn about various methods and tools that can be used to assess impacts of climate change on biodiversity and ecosystems, particularly in tropical regions. Hands-on experience in using and applying selected methods and tools for the assessment of climate change risks will be provided. Adaptive management strategies that can be used to protect biodiversity in a changing climate will be discussed. Opportunities stemming from the 18 APPENDIX 1 - Curriculum implementation of conservation related climate change adaptation and mitigation projects in developing countries will be examined. Module 8.1: Modeling Climate Change Impacts An overview of the basis of and methods for modeling climate change impacts on ecosystems and biodiversity and therefore on conservation targets will be presented; selected methods will be explored in detail, and participants will become familiar with them through computer laboratory exercises. Participants will learn about regional climate projections, modeling changes in species distribution, species range shift models, etc. The choice of models will be based on their applicability to tropical ecosystems, particularly those of the Albertine Rift Region. Hands on training will be provided in using tools such as remote sensing, GIS, regression analysis and interpreting model outputs. Where possible, and subject to the availability of computing facilities and databases, more advanced training will be provided in modeling approaches such as single species ecological niche models, biogeography models, food-web/species interaction models, ecosystem models and dynamic global vegetation models. Module 8.1 objectives: Participants are expected to: Be able to identify the major approaches to modeling ecosystems and species responses to climate pressures. Understand how different models work and their applicability for assessing and predicting impacts of climate change on ecosystems in the Albertine Rift Region. Learn to use and apply key statistical and information system tools as well as modeling approaches for assessing climate change impacts on ecosystems in the Albertine Rift and projecting future risks; choice of approaches and tools will be subject to availability of software programs, computing facilities and databases. Learn to determine the future distribution and boundaries of protected areas, including considerations of the need to maintain adequate landscape connectivity. Learn to apply analytical methods and tools to determine the current and future functions of matrix areas in biodiversity conservation. Learn to determine future changes in conservation targets, keeping in mind the synergistic interactions of climate change impacts with non-climatic stressors. Module 8.1 Readings: Peterson, A., H. Tian, E. Martinez-Meyer, J. Soberon, V. Sanchez-Cordero, and B. Huntley (2005). Modeling distributional shifts of individual species and biomes. In T. Lovejoy and L. Hannah, eds., Climate Change and Biodiversity. Yale University, New Haven, pp. 211-228. Midgley, G. and D. Millar (2005). Modeling species range shifts in two biodiversity hotspots. In T. Lovejoy and L. Hannah, eds., Climate Change and Biodiversity. Yale University, New Haven, pp. 229-231. Betts, R., and H. Shugart (2005). Dynamic ecosystem and Earth system models. In T. Lovejoy and L. Hannah, eds., Climate Change and Biodiversity. Yale University, New Haven, pp. 232-255. Additional Source Material for Instructors and Further Reading for Students: 19 APPENDIX 1 - Curriculum Araujo, M. B. and C. Rahbek. 2006. How Does Climate Change Affect Biodiversity. In, Science, Volume 313, pp. 1396-1397. Module 8.2: Socio-economic Assessment of Ecosystem Changes Methods for assessing the relationship between human communities and the ecosystems on which they depend, indigenous knowledge and practices for management of ecosystems, community perceptions of climate and other pressures on ecosystems, vulnerability of human communities to changes in ecosystems, and capacities for adapting the management of ecosystems to changing pressures will be explored. Environmental assessment tools such as EIA, SEA and Environmental Review and Audit for highlighting the socio-economic value of functions and products of an ecosystem will be presented and analyzed. Participatory processes such as Participatory Rural Appraisal, Stakeholder Analysis and Consensus Building, will also be discussed. Module 8.2 objectives: Participants are expected to: Develop skills for assessing the relationship between human communities and ecosystems and gain an in-depth understanding of the linkage between human wellbeing and ecosystem services. Identify current community approaches to the protection of local ecosystems and biodiversity and the role of key stakeholders. Identify present land use/cover patterns and evaluate their role in the assessment of ecosystem changes. Have a thorough grasp of how changes in ecosystem services can impact the economy, affect supply and quality of social capital and technology, and influence poverty levels. Learn to use assessment methods such as Participatory-Rural Appraisal (PRA), Economic Valuation of Ecosystem Goods and Services, Environmental Impact Assessment (EIA) and Strategic Environmental Assessment (SEA), etc. Learn to use historical sources, indigenous knowledge and archaeological records in establishing ecosystem changes over time. Learn to communicate information on climate change risks to key stakeholders. Module 8.2 Readings: Secretariat of the Convention on Biological Diversity (2009). SECTION 4: Valuation and Incentive Measures. In, Connecting Biodiversity and Climate Change Mitigation and Adaptation: Report of the Second Ad Hoc Technical Expert Group on Biodiversity and Climate Change. Montreal, Technical Series No. 41, pp. 64-75. Available: http://www.cbd.int/doc/publications/cbd-ts-41-en.pdf Accessed June 24, 2010. Module 8.3: Designing and Monitoring Adaptive Management Strategies Participants will learn to develop adaptive management strategies that respond to new and additional risks from climate change to ecosystems and biodiversity conservation in the Albertine Rift region as informed by the assessments performed in sub-modules 8.2 and 8.3. 20 APPENDIX 1 - Curriculum An effective suite of strategies will be introduced that account for both bio-physical and socio-economic considerations, ensuring adequate protection of ecosystems and biodiversity as well as the sustainable provision of critical goods and services. Participants will also learn how to develop a monitoring and evaluation system to track the progress and outcomes of such adaptive strategies. Such a monitoring system would, in addition, also track changing responses of biodiversity to changing climatic conditions and therefore determine changing conservation needs. Module 8.3 Objectives: Participants are expected to: Develop a climate risk integrated management plan that considers future conservation landscapes accounting for changes in species distribution, ecosystem boundaries and the structural and functional roles of matrix areas. Assess the applicability of current conservation strategies under such a plan in terms of their ability to address future climate risks. Evaluate traditional and current community conservation strategies, including popular approaches such as Community Based Natural Resource Management (CBNRM) in terms of their applicability for conservation under a changing climate. Identify within such a plan, policy/regulatory approaches and key stakeholder roles, including strategies for encouraging community cooperation and participation (policy and regulatory measures or incentives). Develop a periodic monitoring plan identifying key targets and landscapes to be monitored, outlining the methodology (e.g. spatial analysis, survey methods, etc.) and clearly outlining the monitoring frequency. Include an analysis of cost effectiveness. Module 8.4: Examining synergies with Climate Change Mitigation Initiatives (i.e. REDD, CDM, other bio-resource projects etc.) Based on the understanding acquired in Module 7, participants will design climate mitigation project(s) in the region that will simultaneously offer co-benefits for the adaptation of biodiversity conservation and meet local sustainable development objectives. Participants will learn to use select methods and techniques used for carbon estimation, estimation of potential emissions reduction, opportunities for carbon trading and valuation of benefits to biodiversity conservation and rural sustainability. Module 8.4 Objectives: Participants are expected to: Learn to plan and design a climate mitigation project such as a REDD initiative in the region and learn to quantitatively estimate expected emissions reduction, conduct a costs-benefit analysis inclusive of expected benefits from carbon trading, assess impacts on local conservation initiatives and evaluate challenges or opportunities for local sustainable development. Identify policy requirements for ensuring that climate mitigation projects offer synergistic benefits to biodiversity conservation and rural development. 21 APPENDIX 1 - Curriculum Module 9: Case studies of climate change threats to the biodiversity of the Albertine Rift and strategies for adaptation Working in teams, course participants will develop case studies of climate change threats to the biodiversity of selected sub-regions of the Albertine Rift, where participants intend to execute their field based externship research described in Module 10. It is intended that the case study exercise will lay the foundation for planning the externship research project and help participants put together baseline information they could use executing of their research methodologies. The case studies will draw on available information to assess the nature and severity of climate change risks to biodiversity, the interactions of climate change with other pressures, and the implications for human communities in the region. The case studies will also identify major gaps in knowledge and sources of uncertainty that are likely to inhibit effective decisions for conserving biodiversity in a changing climate and develop recommendations of actions to address knowledge gaps and uncertainties. Participants must also design a conservation plan that is sensitive to changing risks under climate change for their area of their choice within the Albertine rift region. Participants will be expected to use the tools and resources provided in this course to develop their designs and must include all the key considerations, including the need for periodic monitoring. Each team will prepare a short report and will present its findings and recommendations in class. Module 9 Objectives: Participants will: Be able to apply concepts learned during the course to understand current and future threats from climate change and other stressors to biodiversity in their selected Albertine Rift region (including matrix areas). Assess the potential effectiveness of current conservation strategies in that region to address risks from climate change in the future. Identify the impacts on human communities. Develop skills for identifying knowledge gaps and developing assessment plans to address gaps in knowledge. Improve their skills for communicating information about climate change, climate change risks to biodiversity. Prepare a climate risk integrated management plan that identifies potential strategies to address climate change threats to biodiversity in the selected region taking into consideration the impacts of such strategies for human communities. Identify policy/regulatory approaches for the implementation of such a plan. Identify key stakeholder roles, including community participation strategies. Include a plan for analyzing the cost effectiveness of selected strategies. Develop a plan for periodic monitoring identifying key targets and landscapes to be monitored, monitoring frequency and methodology. Module 10: Proposal Writing for Externship Research Externship research will be executed as team projects. Participant teams will be determined 22 APPENDIX 1 - Curriculum right at the onset of course 1 to initiate thought about the exercise. Time will be allocated during the final week of the course exclusively for proposal development. Participants will work in teams, under the guidance of a course instructor, to develop a set of proposals. Each proposal will address the assessment of climate change risks to ecosystems and biodiversity in a specific Albertine Rift region. Participants are expected to use their case study exercises as the basis for the development of their team proposals. Each team research must in addition be affiliated to an existing conservation initiative in the region and outcomes from the research must add value to this initiative. In proposal writing exercises for participants’ externship projects, instructors must ensure that the scope of the proposed activity is consistent with the duration and budget of the externship research and ensure that necessary tools and equipment will be available to the participants in the execution of their proposed methodologies. Each proposal must incorporate the following elements: Identify the study area and provide a brief overview of projected climate change impacts in the region. Provide a brief background on the status of conservation in their study region (based on information in the case study exercises). State objectives and methodology for the assessment of climate change risks. List expected outcomes. Justify the utility of the outcomes in informing conservation planning that is responsive to climate change risks. Include planned outputs: reports, peer reviewed publication, web publications, etc. 23