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NASA Satellites Help Lift Cloud of Uncertainty on Climate Change

NASA Satellites Help Lift Cloud of Uncertainty on Climate Change 2007 American Geophysical Union Fall Meeting Panelists Dr. Graeme Stephens, principal investigator, CloudSat mission; university professor, Colorado State University, Fort Collins, Colo.

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NASA Satellites Help Lift Cloud of Uncertainty on Climate Change

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  1. NASA Satellites Help Lift Cloud of Uncertainty on Climate Change 2007 American Geophysical Union Fall Meeting Panelists Dr. Graeme Stephens, principal investigator, CloudSat mission; university professor, Colorado State University, Fort Collins, Colo. Dr Jen Kay, postdoctoral fellow, National Center for Atmospheric Research, Boulder, Colo. John Haynes, Ph.D. student, Department of Atmospheric Sciences, Colorado State University

  2. Recent “A-Train” Studies Offer Important Insights Into Earth’s Climate 1) Kay et al., study: In a warmer world with thinner ice, sea-ice extent is increasingly sensitive to year-to-year variability in weather and cloud patterns. 2) Haynes et al., study: Clouds rain more frequently than we thought. They also rain more in higher latitudes than we thought. 3) Lebsock and Stephens study: We are now beginning to see direct, global evidence of aerosol brightening of clouds and distinct correlations with decreased precipitation.

  3. The “A-Train” Gives Us Unprecedented Capabilities For Observing Earth The new A-Train observations tell us much more about weather and climate-sensitive processes than can possibly be gleaned from any one instrument alone.

  4. Viewing Earth Actively Has Become the New Paradigm for Earth Observations The CloudSat radar measures the time delay and magnitude of the reflected signal A fraction of these pulses reflect back while others continue downward, some being absorbed and thus lost What makes CloudSat’s radar special is its sensitivity - it is able to see both small cloud particles as well as larger raindrops and snowflakes.

  5. CloudSat Gives Us Radar Views of Weather on Scales Not Seen Before 1400 km 30km Example of CloudSat ‘quicklook’ data taken directly from the CloudSat data processing center (http://cloudsat.cira.colostate.edu)

  6. MLS Relative Humidity CALIPSO Lidar Backscatter CloudSat Radar Reflection Polar Clouds Were Difficult To Observe Before CloudSat and CALIPSO South Pole, June 2007 The synergy of A-Train measurements - data sources have been collected and co-located through the A-Train data depot - poster A53D-1433; (Kempler et al.)and also at the CloudSat Data Processing Center.

  7. The Disappearance Act of 2007 Sea Ice Minimum Extent Time Series Source: National Snow and Ice Data Center New Record Minimum - Sept. 2007

  8. A-Train Data Reveal Dramatic Reductions in 2007 Melt Season Cloudiness These Arctic cloud reductions are associated with anomalous weather patterns.The increase in sunshine could melt 0.3 meters of ice or warm the surface ocean by 2.4 degrees Kelvin.Kay et al. (2007)

  9. Thinning Sea Ice is Vulnerable to Year-to-Year Weather Variability The summer 2007 observed cloud decreases are anomalous but not unprecedented. MODIS - June 2, 2007

  10. How Often Does it Rain (Over the Oceans) ? The Fraction of Oceanic Clouds That Precipitate DJF The global mean value is ~0.13, i.e., on average, about 13 percent of the clouds observed over our oceans at any time are producing rain. This fraction is much higher than previously speculated (0.08). Haynes et al., 2007

  11. The Dreary Extra-Tropics Total Seasonally Accumulated Precipitation The new results suggest that it rains more (in amount as shown) and frequency(not shown) than other observations indicate or is predicted by climate models, especially in the winter season.

  12. Aerosol Pollution is Making Clouds Brighter Polluted clouds = more drops, smaller drops, less precipitation, more reflected sunlight Clean clouds = fewer drops, larger drops, more precipitation, less reflected sunlight Lebsock and Stephens, 2007

  13. A simple example of the Twomey effect - the tracks of ships below the clouds appear in clouds through the ship effluents that act as an enhanced source of cloud condensation nuclei. Pollution Fingerprints in Clouds and Rain Two Principle Influences in ‘Warm’ (Liquid Water) Clouds: Changes to Cloud Reflection (Twomey Effect) 2) Changes to Precipitation

  14. More Aerosol Dark Clouds Do Have a Bright Lining It’s not just the smaller particle sizes of polluted clouds that determine increases in reflected solar radiation. Raining clouds in high aerosol air are thicker, wetter and more reflective.

  15. More Aerosol It Also Rains Less in High Aerosol Air The probability of precipitation decreases dramatically as aerosols increase - this has been hypothesized for a long time but now it is confirmed with observations.

  16. Summary The new observations collected from CloudSat combined with other A-Train observations are beginning to shed new understanding on important climate processes. These new observations tell us about: Cloud changes in the polar regions, and the effects of these changes on the energy balance of the Arctic, their relation to weather changes and their role in sea ice change. How frequently clouds rain and how much rain falls over the global oceans - thus offering insight into processes critical to the cycling of fresh water. How properties of clouds AND precipitation together change with increasing aerosol, thus offering new insights into how aerosol might indirectly affect climate.

  17. Backups

  18. No Precipitation Certain Precipitation Water and Particle Size Properties of Warm Clouds From A-Train Data

  19. The aerosol forcing factors of climate are highly uncertain and aerosol indirect effects are most uncertain of all. IPCC, 2007

  20. CloudSat AMSR-E 1300 km (800 mi)

  21. 2007-2006 Cloud and Surface Radiation Differences Radiation Calculations by T. L’Ecuyer (CSU). These radiation differences alone could melt ~0.3 meters of sea ice and increase ocean mixed layer temperatures by ~1.6 degrees Kelvin.

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