Climate Change Science, Causes and Impacts

1. Climate Change Science, Causes and Impacts TACC Training Module 2 1

2. Objectives of the Module • Introduce scientific concepts and findings relevant for understanding climate change • Highlight observed and projected impacts of climate change on natural and human systems • Introduce organizations that can provide scientific information on climate change Territorial Approach to Climate Change - Phase 1

3. Overview • Section 1: Introduction to Climate Change Science • Section 2: Observed and Predicted Impacts of Climate Change • Section 3: Human and Natural Drivers of Climate Change • Section 4: Sources of Scientific Data on Climate Change Territorial Approach to Climate Change - Phase 1

4. The Importance of Climate Change Science • Climate change science allows us to: • Understand how and why the climate is changing • Assess how humans are influencing the climate • Project how climate may change in the future • Prepare for possible future changes • Enact policies and modify behaviors to prevent damage “The more we know about a subject…the more likely our conclusions about it are to be true” Naomi Oreskes, 2008 Territorial Approach to Climate Change - Phase 1

5. Why is Climate Change Science Important from a Sub-national Perspective? • Sound weather data and forecasts important for: • Short-term planning (e.g. harvests) • Emergency response (e.g. preparedness for extreme events) • Climate models help to forecast long term climate scenarios at the territorial level • Important input for vulnerability assessments and adaptation planning • Fosters climate resilient development and avoids mal-adaption • Important to build up climate change science capacity at the sub-national level Territorial Approach to Climate Change - Phase 1

6. What is the Greenhouse Effect? Source: IPCC Territorial Approach to Climate Change - Phase 1

7. Complexity of the Global Climate System Source: IPCC Territorial Approach to Climate Change - Phase 1

8. Overview of Natural and Human Greenhouse Gases • Greenhouse gases (GHGs) are gases in the atmosphere that absorb and emit radiation • GHGs naturally blanket the earth and keep it about 33 degrees Celsius warmer than it would be without these gases in the atmosphere Territorial Approach to Climate Change - Phase 1

9. The Carbon Cycle: Natural and Human Factors Source: UNEP Territorial Approach to Climate Change - Phase 1

10. Global Warming, Climate Change, and Changing Weather • The difference between Climate and Weather • Weather changes in the short term (e.g. daily, weekly, monthly) • Climate is average weather and occurs over long time frames (e.g. 30 years) • Global Warming • Refers to the overall warming of the planet, based on average temperature over the entire surface of the earth Territorial Approach to Climate Change - Phase 1

11. Global Warming, Climate Change, and Changing Weather • Climate Variability • Refers to the naturally occurring changing patterns of the climate from year to year • Climate Change • Refers to changes in climate characteristics, including temperature, humidity, rainfall, wind, and severe weather events over long term periods • Although the climate is warming globally, local weather patterns may still feature extreme cold spells …… Territorial Approach to Climate Change - Phase 1

12. Overview • Section 1: Introduction to Climate Change Science • Section 2: Observed and Predicted Impacts of Climate Change • Section 3: Human and Natural Drivers of Climate Change • Section 4: Sources of Scientific Data on Climate Change Territorial Approach to Climate Change - Phase 1

13. Climate Variability Over Time Source: Mann et al, 2008 Territorial Approach to Climate Change - Phase 1

14. Observed and Modeled Temperature Change Source: UNEP Territorial Approach to Climate Change - Phase 1

15. Examples of Observed Climate Change • Floods • The frequency of floods has increased by nearly 300% in the past 30 years • Droughts/heat waves • The most extreme three heat waves/droughts in 50 years occurred in Europe in 2003, Australia in 2009 and China in 2010 • Extreme events/storms • Storms, including hurricanes have been measured to have increased intensity since the 1980s Source: UNEP Territorial Approach to Climate Change - Phase 1

16. Observed Impact: Changes in Physical and Biological Systems Territorial Approach to Climate Change - Phase 1

17. Observed Impact: Sea Level Rise Source: IPCC Territorial Approach to Climate Change - Phase 1

18. Observed Impact: Glacier Loss • The annual average Arctic sea ice extent has shrunk by 2.7 per cent each decade, with larger decreases in summer • Mountain glaciers and average snow cover have declined in both hemispheres. Source: UNEP Territorial Approach to Climate Change - Phase 1

19. Projected Impact on Ecosystems • Biodiversity: decreases in the forest cover will lead to loss of species • Carbon stores: thawing of the peat lands and permafrost will release huge amounts of CO2 • Protective function: loss of mangrove forests leave coastal regions vulnerable to storm surges • Loss of habitat: warming temperatures on mountains mean climatic habitats shift in altitude Territorial Approach to Climate Change - Phase 1

20. Projected Impact on Human Systems • Agriculture • Loss of productivity as crops fail in warmer temperatures mean that between 5 million and 170 million additional people are predicted to be at risk of hunger by 2080 • Freshwater • Less security of water supply as more droughts and less rain occurs • Health • Increased/or changed burden of diseases as tropical diseases such malaria spread Source: FAO Website Territorial Approach to Climate Change - Phase 1

21. Projected Impact on Cities • Climate variability (e.g. flooding, landslides, heat waves, drought and sea level rise) enhances vulnerability of cities • Will have significant impact on communities infrastructure, economy and livelihoods • Urbanization may be accelerated by climate induced rural-urban migration Source: Flickr, SixFourG Territorial Approach to Climate Change - Phase 1

22. Projected Impacts of Climate Change in Africa e Source: UNEP Territorial Approach to Climate Change - Phase 1

23. Projected Impacts of Climate Change in Asia Source: UNEP Territorial Approach to Climate Change - Phase 1

24. Projected Impacts of Climate Change in Australia and New Zealand Source: UNEP Territorial Approach to Climate Change - Phase 1

25. Projected Impacts of Climate Change in Europe Source: UNEP Territorial Approach to Climate Change - Phase 1

26. Projected Impacts of Climate Change in Latin America Source: UNEP Territorial Approach to Climate Change - Phase 1

27. Projected Impacts of Climate Change in North America Source: UNEP Territorial Approach to Climate Change - Phase 1

28. Projected Impacts of Climate Change in the Polar Regions Source: UNEP • The Arctic • Natural Environment • Reductions in the extent of sea ice • Increase in seasonal permafrost thawing • Increased coastal erosion • Human Environment • Loss of traditional ways of life • Detrimental impact on infrastructure • Reduced heating costs • The Antarctic • Reductions in thickness and extent of glaciers and ice sheets • Changes in natural ecosystems impacting: • Migratory birds • Higher predators Territorial Approach to Climate Change - Phase 1

29. Projected Impacts of Climate Change on Small Islands • Water • Reduce water resources for many small islands due to water table inundation, reduced rainfall and reduced island size associated with rising sea levels • Model projections suggest that a 10% reduction in average rainfall by 2050 is likely to correspond to a 20% reduction in the size of the freshwater lens on Tarawa Atoll, Kiribati • Sea Level Rise • Deterioration in coastal conditions: • Erosion of beaches • Storm surge inundation • Coral bleaching • Reduce the value of these destinations for tourism • Threatens vital infrastructure, settlements and facilities that support the livelihood of island communities Territorial Approach to Climate Change - Phase 1

30. Projected Long Term Impact on Major Ecosystems (Beyond 2050) • Loss of the Greenland and West Antarctic ice sheets • Collapse of the Gulf Stream • Destruction of the Amazon rainforest • Loss of the boreal forests • Changes to the West African monsoon and loss of the Indian monsoon Territorial Approach to Climate Change - Phase 1

31. Economic Implications of Climate Change • Climate change could cost from 5 to 20 percent of global GDP if no action is taken. Source: Stern Report, 2006 • Costs arise from preventing, preparing for and repairing the damage from climate change impacts • Industries particularly affected • Timber • Fisheries • Tourism • Travel • Agriculture Territorial Approach to Climate Change - Phase 1

32. Social Implications of Climate Change • Equity: Climate change will affect the poorest the most, causing greater inequality both between and within countries • Migration: Some estimates suggest that nearly 200 million people will be displaced from their homes due to climate change by 2050 • Conflict: Increasing level of conflict is expected due to scarcity of resources and migration Source: UNESCO Territorial Approach to Climate Change - Phase 1

33. Scenarios of Future Emissions and Temperature Increase Source: IPCC Territorial Approach to Climate Change - Phase 1

34. What Emission Reductions are Required to Protect the Global Climate? Source: IPCC 2007 Territorial Approach to Climate Change - Phase 1

35. Overview • Section 1: Introduction to Climate Change Science • Section 2: Observed and Predicted Impacts of Climate Change • Section 3: Human and Natural Drivers of Climate Change • Section 4: Sources of Scientific Data on Climate Change Territorial Approach to Climate Change - Phase 1

36. Major Greenhouse Gas Emissions Caused by Humans • Carbon Dioxide (CO2) • Methane (CH4) • Nitrous Oxide (N2O) • CFC’s Source: IPCC (2007) Territorial Approach to Climate Change - Phase 1

37. Global Greenhouse Gas Emissions by Source Source: IPCC (2007) Territorial Approach to Climate Change - Phase 1

38. CO2 Emissions by Country Source: IPCC (2007) Territorial Approach to Climate Change - Phase 1

39. GHG emissions from agriculture Source: WRI (2005) Territorial Approach to Climate Change - Phase 1

40. Global CO2 Emissions Trends Source: NOAA 2012 Territorial Approach to Climate Change - Phase 1

41. Important Greenhouse Gases: Source: NOAA Territorial Approach to Climate Change - Phase 1

42. Important Greenhouse Gases: Carbon Dioxide (CO2) • Important features • Most important greenhouse gas (77% of all GHG emissions) • Stays in the atmosphere between 50 – 200 years • Global Warming Potential of 1 • Primary sources • The burning of fossil fuels • Deforestation and forest degradation • Iron and steel production • Major sinks: • Oceans • Forests Territorial Approach to Climate Change - Phase 1

43. Important Greenhouse Gases: Nitrous Oxide (N2O) • The fourth most significant greenhouse gas (8% of GHG emissions) • Stays in the atmosphere for an estimated 114 years • Global Warming Potential of 298 • Primary sources: • Fertilizer production and use in agriculture • Major sink: • Destruction in the atmosphere Territorial Approach to Climate Change - Phase 1

44. Important Greenhouse Gases: Methane (CH4) • Second most significant greenhouse (14% of GHG emissions) • Stays in the atmosphere for approximately 8 years • Global Warming Potential of 25 • Primary sources: • Fossil fuel mining and distribution • Decomposition of landfill waste • Ruminant animals (cattle and sheep) • Rice agriculture • Major sinks • Destruction in the atmosphere Territorial Approach to Climate Change - Phase 1

45. Important Greenhouse Gases: Chlorofluorocarbons (CFCs) • The fifth most important group of greenhouse gases (1% of GHG) • Stay in the atmosphere ranging from 1.5 years to 12,000 years • Global Warming Potential of between 1,430 and 14,800 • Primary sources: • Most CFC’s and other F gases are manmade for refrigeration and industrial processes • Major sinks: • Destruction in the atmosphere Territorial Approach to Climate Change - Phase 1

46. Short-Lived Climate Pollutants (SLCPs) • Substances that contribute to global warming and have relatively short lifetimes in the atmosphere: • Black Carbon (BC) • Methane (CH4) • Tropospheric Ozone (O3) • Hydrofluorocarbons (HFCs) • Climate and Clean Air Coalition to Reduce SLCP • Evaluates 16 black carbon and methane mitigation measures –could reduce global warming between 2010 and 2040 by about 0.4°C Territorial Approach to Climate Change - Phase 1

47. Climate and Clean Air Coalition to Reduce SLCP • Coalition pursues 5 initial clusters of efforts: • Reducing black carbon emissions from heavy duty diesel vehicles & engines • Mitigating SLCPS and other pollutants from brick production • Mitigating SLCPS from landfills and municipal solid waste sector • Promoting HFC alternative technology and standards • Accelerating methane and black carbon reductions from oil and natural gas production Territorial Approach to Climate Change - Phase 1

48. Overview • Section 1: Introduction to Climate Change Science • Section 2: Observed and Predicted Impacts of Climate Change • Section 3: Human and Natural Drivers of Climate Change • Section 4: Sources of Scientific Data on Climate Change Territorial Approach to Climate Change - Phase 1

49. Generating Knowledge on Climate Change: The IPCC • The IPCC www.ipcc.ch is the leading body for the assessment of climate change • Established in 1988 by UNEP and WMO • Assesses all peer reviewed and published climate change research and synthesizes the results • Coordinates global and regional projections for future climate change • Analyzes possible adaption and mitigation options • Was awarded the 2007 Nobel Peace prize for its work along with Al Gore Territorial Approach to Climate Change - Phase 1

50. Important Reports Published by the IPCC • Assessment reports • First in 1990, the fourth and most recent published in 2007, fifth report published in September 2013 • Special reports on: • Emission Scenarios • Aviation • Carbon Capture and Storage • Methodology reports • Guidance for national greenhouse gas inventories • Guidance for assessing impacts of climate change • Land Use, Land-Use Change and Forestry • Technical papers • Climate Change and Water • Implications of Proposed CO2 Emissions Limitations • Technologies, Policies and Measures for Mitigating Climate Change Territorial Approach to Climate Change - Phase 1