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IPCC

IPCC. Fifth Assessment Report (AR5), due to be completed in 2013-14. AR5 NOMINATIONS CLOSED ON 12 MARCH 2010. AR5. Scoping Meeting for the IPCC Fifth Assessment Report (AR5) Venice, Italy,  13-17 July 2009 Selection of authors by May 10, 2010 Writing Process:

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IPCC

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  1. IPCC Fifth Assessment Report (AR5), due to be completed in 2013-14. AR5 NOMINATIONS CLOSED ON 12 MARCH 2010

  2. AR5 Scoping Meeting for the IPCC Fifth Assessment Report (AR5)Venice, Italy,  13-17 July 2009 Selection of authors by May 10, 2010 Writing Process: WG I First Lead Authors Meeting (LA1) 8-11 November 2010 in Kunming, China. WG II and WG III will begin in early 2011. Scope of the AR5 Synthesis Report: 30 August – 1 Sept. 2010 in Liege, Belgium.

  3. WG I schedule First Lead Author meeting November 2010 **Zero order draft formulated November 2010 – Feb 2011: preprints, papers submitted, accepted, in press, and published are all eligible for consideration Informal zero order draft reviewed April—June, 2011 Second Lead Author meeting July 2011 **First order draft formulated July--October, 2011: preprints, papers submitted, accepted, in press, and published are all eligible for consideration First round of formal review December 2011—February 2012 Third Lead Author meeting April 2012 **Second order draft formulated April-July 2012: preprints no longer eligible; submitted papers no longer assessed after 31 July 2012; papers accepted, in press, and published still eligible for consideration • Second round of formal review October—November 2012 • Fourth Lead Author meeting January 2013

  4. IPCC statement on the melting of Himalayan glaciers The Synthesis Report, the concluding document of the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (page 49) stated: “Climate change is expected to exacerbate current stresses on water resources from population growth and economic and land-use change, including urbanisation. On a regional scale, mountain snow pack, glaciers and small ice caps play a crucial role in freshwater availability. Widespread mass losses from glaciers and reductions in snow cover over recent decades are projected to accelerate throughout the 21st century, reducing water availability, hydropower potential, and changing seasonality of flows in regions supplied by meltwater from major mountain ranges (e.g. Hindu-Kush, Himalaya, Andes), where more than one-sixth of the world population currently lives.” This conclusion is robust, appropriate, and entirely consistent with the underlying science and the broader IPCC assessment. It has, however, recently come to our attention that a paragraph in the 938-page Working Group II contribution to the underlying assessment refers to poorly substantiated estimates of rate of recession and date for the disappearance of Himalayan glaciers. In drafting the paragraph in question, the clear and well-established standards of evidence, required by the IPCC procedures, were not applied properly.

  5. IPCC Review An independent review of IPCC is being carried out by the InterAcademy Council. (Represents the national academies worldwide). Procedures Organization Resources Communications Report due by August 2010

  6. Working Group I Contribution to the IPCC Fifth Assessment Report Climate Change 2013: The Physical Science Basis Summary for Policy Makers Technical Summary All chapters: Executive summary and Frequently Asked Questions Chapter 1: Introduction Executive Summary • Rationale and key concepts of the WG1 contribution • Treatment of uncertainty • Climate change projections since FAR Frequently Asked Questions Chapter 2: Observations: Atmosphere and Surface Executive Summary • Changes in surface temperature and soil temperature • Changes in temperature, humidity and clouds • Changes in atmospheric composition • Changes in radiation fields and energy budget • Changes in hydrology, runoff, precipitation and drought • Changes in atmospheric circulation, including wind • Spatial and temporal patterns of climate variability • Changes in extreme events, including tropical and extratropical storms Frequently Asked Questions

  7. Chapter 3: Observations: Ocean • Changes in ocean temperature and heat content • Ocean salinity change and freshwater fluxes • Sea level change, ocean waves and storm surges • Ocean biogeochemical changes, including ocean acidification • Changes in ocean surface processes • Changes in ocean circulation • Spatial and temporal patterns of ocean variability Chapter 4: Observations: Cryosphere • Changes in ice sheets, including mass balance • Changes in ice shelves • Changes in glaciers and ice caps • Sea ice variability and trends • Snow and ice cover variability and trends • Changes in frozen ground • Dynamics of ice sheets, ice shelves, ice caps, glaciers and sea ice Chapter 5: Information from Paleoclimate Archives • Characteristics of early instrumental, documentary and natural climate archives • Reconstruction of radiative forcing and climate response • Reconstruction of regional variability and extremes • Abrupt climate changes and their regional expression • Sea level and ice sheets: patterns, amplitudes and rates of change • Paleoclimate perspective on irreversibility in the climate system • Paleodata-model intercomparisons

  8. 6: Carbon and Other Biogeochemical Cycles • Past changes in CO2, CH4, N2O and biogeochemical cycles • Recent trends in global and regional sources, sinks and inventories, including land use change • Processes and understanding of changes, including ocean acidification • Interactions between the carbon and other biogeochemical cycles, including the nitrogen cycle • Projections of changes in carbon and other biogeochemical cycles • Greenhouse gas stabilisation • Carbon cycle – climate feedbacks and irreversibility • Geoengineering involving the carbon cycle Chapter 7: Clouds and Aerosols • Observations of clouds and their representation in models • Coupling of clouds, water vapour, precipitation and the large-scale circulation • Cloud and water vapour feedbacks and their effects on climate sensitivity • Observations of aerosols and their representation in models • Aerosol types including black carbon: chemistry, sources, sinks and distribution • Direct and indirect aerosol forcing and effects, including contrails and cosmic rays • Aerosol-cloud-precipitation interactions • Geoengineering involving clouds and aerosols

  9. Chapter 8: Anthropogenic and Natural Radiative Forcing • Natural radiative forcing changes: solar and volcanic • Anthropogenic radiative forcing, including effects from land surface changes • Effects of atmospheric chemistry and composition • Spatial and temporal expression of radiative forcing • Greenhouse gas and other metrics, including Global Warming Potential (GWP) and Global Temperature Change Potential (GTP) Chapter 9: Evaluation of Climate Models • The hierarchy of climate models: from global to regional • Downscaling methods • Assessing model performance, including quantitative measures and their use • New model components and couplings • Representation of processes and feedbacks in climate models • Simulation of recent and longer term records • Simulation of regional patterns, variability and extremes Chapter 10: Detection and Attribution of Climate Change: from Global to Regional • Evaluation of methodologies • Atmospheric and surface changes • Changes in ocean properties • Cryosphere changes • Extreme events • Pre-instrumental perspective • Implications of attribution for projections

  10. Chapter 11: Near-term Climate Change: Projections and Predictability • Predictability of interannual to decadal climate variations and change • Projections for the next few decades • Regional climate change, variability and extremes • Atmospheric composition and air quality • Possible effects of geoengineering • Quantification of the range of climate change projections Chapter 12: Long-term Climate Change: Projections, Commitments and Irreversibility • Scenario description • Projections for the 21st century • Projections beyond the 21st century • Regional climate change, variability and extremes • Forcing, response and climate sensitivity • Climate change commitment and inertia • Potential for abrupt change and irreversibility in the climate system • Quantification of the range of climate change projections Chapter 13: Sea Level Change • Synthesis of past sea level change and its components • Models for sea level change • Projections of globally averaged sea level rise • Projections of the regional distribution of sea level change • Extreme sea level events • Potential ice sheet instability and its implications • Multi-century projections Chapter 14: Climate Phenomena and their Relevance for Future Regional Climate Change • Patterns of variability: observations, understanding and projections • Monsoon systems: observations, understanding and projections • Extremes: observations, understanding and projections • Interconnections among phenomena

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