Climate Modeling Elissa Lynn SCRO August 27, 28/ 2013.

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  • Slide 1
  • Climate Modeling Elissa Lynn SCRO August 27, 28/ 2013
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  • Why are climate models important for DWR?
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  • What is a model?
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  • Mathematical representation on a computer
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  • http://www.windows2universe.org/earth/climate/climate_modeling.html Building a Global Climate Model National Earth Science Teachers Association
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  • NASA Climate EssentialsMany good videos http://svs.gsfc.nasa.gov/ClimateEssentials/ NASA Earth Observatory introduction to global climate models http://www.climatewatch.noaa.gov/video/2012/the-pushy-pacific-variability-and-change-in-global-temperature Global temperature change 1850-2100 National Center for Atmospheric Research http://www.youtube.com/watch?v=U9YAzrmeOGI Global temperature change projection (older) National Geophysical Fluid Dynamics Laboratory http://www.gfdl.noaa.gov/patterns-of-greenhouse-warming-ar4#movies Videos for office/home viewing Selected videos are on the class website as well
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  • IPCC 1990 IPCC 1995 IPCC 2007 IPCC 2001 IPCC = Intergovernmental Panel on Climate Change Climate Change Assessment reports IPCC 1990 IPCC 1995 IPCC 2001 IPCC 2007
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  • Processes in Climate Models Image from National Center for Atmospheric Research
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  • Future Uncertainty Data collection Computer model variability Feedback mechanisms Spatial Resolution Why so hard to do? Trivia Time: How long does it take a modern global climate model to simulate 150 years?
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  • Climate models are used to explore possible future changes in climate Climate models dont predict future changes in climate
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  • Weather Modeling vs Climate Modeling Weather Forecasting What will the weather be on a specific day in a specific place Short term (7-10 days) Future Climate Simulations What will the climate trends be in a region in the future Long term (100 years)
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  • Climate models are used to explore possible future changes in climate Climate models dont predict future changes in climate Scientists & planners use information from many models to make decisions
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  • Mercury Venus Earth Mars Which planet is the warmest?
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  • www.ecy.wa.gov/climatechange/whatis.htm How will these greenhouse gases change in the future?
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  • Green House Gases in Climate Models Actual greenhouse gas emissions were higher than future scenarios used in 2007 IPCC studies Colored lines greenhouse gas emissions scenarios Black dots actual greenhouse gas emissions Future greenhouse gas concentrations cover a higher range in 2013 IPCC studies -Called RCP or Representative Concentration Pathway -Number at end indicates radiative forcing value at the end of the century 2.6, 4.5, 6.0, and 8.5 W/m 2 in 2100 Concentration CO 2 equivalent from all greenhouse gases RCP8.5 RCP6 RCP4.5 RCP2.6 Fossil Fuel CO 2 Emissions IPCC = Intergovernmental Panel on Climate Change, RCP = Representative Concentration Pathway
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  • Green House Gases in Climate Models IPCC = Intergovernmental Panel on Climate Change RCP = Representative Concentration Pathway for future greenhouse gas concentrations RCP overview: http://link.springer.com/article/10.1007/s10584-011-0148-z RCP4.5 Incoming solar radiation Atmosphere with changing greenhouse gas concentrations traps and re-emits radiation Radiation emitted to space Radiative forcing is the change in the radiation balance due to changes in greenhouse gas concentrations Increased radiation leads to warming
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  • Green House Gases in Climate Models IPCC = Intergovernmental Panel on Climate Change RCP = Representative Concentration Pathway for future greenhouse gas concentrations RCP overview: http://link.springer.com/article/10.1007/s10584-011-0148-z IPCC 2013 is using greenhouse gas concentrations called Representative Concentration Pathways Scenarios reflect a range of future radiative forcings change in radiation balance at the surface of the troposphere due to changes in greenhouse gas concentrations Names refer to forcing values in the year 2100 2.6, 4.5, 6.0, and 8.5 W/m 2, respectively RCP8.5 RCP6 RCP4.5 RCP2.6 Concentration CO 2 equivalent from all greenhouse gases Incoming solar radiation Atmosphere with changing greenhouse gas concentrations traps and re-emits radiation Radiation emitted to space Radiative forcing is the change in the radiation balance due to changes in greenhouse gas concentrations Increased radiation leads to warming
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  • Climate models are used to explore possible future changes in climate. Global Climate ModelEstimate of Future Greenhouse Gases
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  • Climate Change Scenario Activity 4 volunteers needed
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  • Available Climate Change Scenarios From 2007 IPCC [CMIP3] 112 available scenarios (GCM x Greenhouse Gas) Subset of 12 scenarios recommended by Californias Climate Action Team From 2013 IPCC [CMIP5] More available scenarios More variables available Higher spatial and temporal resolution Models include improved representations of processes Regional impacts in California are similar to CMIP3 IPCC=Intergovernmental Panel on Climate Change, CMIP=Coupled Model Intercomparison Project
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  • Downscaling Converting Global model output into Regional or Local information into Regional or Local information More specific, Higher resolution, More useful Images from Mike Dettinger, Scripps/USGS Demonstration: Climate Modeling and Legos
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  • http://gdo-dcp.ucllnl.org/downscaled_cmip_projections/ Website for Downscaled Climate Change Scenarios
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  • July Temperature Change 14 GCMs X 3 RCP emissions Scenarios IPCC 5 th Assessment (CMIP5) models Warming is substantial in climate projections Cayan et al. Scripps/USGS 2013
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  • Climate Change Temperatures OBSERVED Summer warming higher than winter Interior warming greater than coastal/marine Nighttime warming has exceeded daytime in last few decades PROJECTED Heat wave incidence: more frequent, intense, durable Precipitation change uncertain Probably will remain extremely variable Consensus of newest models shows little change in Northern Cal Continued potential for extremely heavy events CLIMATE CHANGE
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  • Climate scientists and modelers explore possible future climate conditions DWR staff assess potential impacts and risks that those climate change conditions could have on Californias water resources http://www.water.ca.gov/climatechange/articles.cfm
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  • Decision-Makers: Keep it simple. Climate Information Providers: Heres the info use it wisely. Modelers and Data Analyzers: Keep it manageable. Adapted from Levi Brekke USBR Climate Change Information Who is involved? What do they want? Decision Requirements Emission Scenarios Climate Simulations Spatial Downscaling Modeling to support Decision Making Land Cover Changes Societal Changes
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  • Building Coalitions SCRIPPS Institute of Oceanography U.S. Geological Survey California Energy Commission UC Berkeley Lawrence Livermore Lab Santa Clara University Lawrence Berkeley Lab UC Davis
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  • Building Coalitions SCRIPPS Institute of Oceanography U.S. Geological Survey California Energy Commission UC Berkeley Lawrence Livermore Lab Santa Clara University Lawrence Berkeley Lab UC Davis
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  • What Climate Change Scenarios/Models Should We Use? Bookends scenarios that represent high/middle/low changes Ensemble - Use information from a group of models/scenarios - One way to address variability and uncertainty Other?
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  • UNCERTAINTY Climate Projections Converting global data to local/regional scales Changes in societal values $$$$ Ecosystem response Water cycle changes Future water demands Sea level rise Adaptation Strategies Population Land use changes
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  • Take Home Message Global climate models explore possible future climate conditions, they dont predict future climate conditions DWR uses results from global climate models to evaluate possible impacts of climate change on Californias water resources
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  • Extra Slides
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  • What model best represents Californias historical climate? Figure 19. Relative error of the ensemble mean of each metric for each CMIP5 GCM. Models are ordered from least (left) to most (right) total relative error, where total relative error is the sum of relative errors from all metrics, excluding the diurnal temperature range (DTR) metrics. For 7 GCMs, the diurnal temperature range (DTR) metrics were not calculated (white squares). Ranking Global Climate Models by Rupp and Mote using a multi-factor historical climate evaluation scheme for the Evaluation Parameter Climate Models Relative Error High relative error in SW United States No clear best model, depends on criteria Models that didnt perform well in SW US may be excluded in future analysis Low relative error in SW United States Least total relative error Most total relative error Adapted from Cayan 2013 Southwestern United States