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Projections of Future Atlantic Hurricane Activity

Projections of Future Atlantic Hurricane Activity . 1. Hurricane Katrina, Aug. 2005. Tom Knutson NOAA / Geophysical Fluid Dynamics Lab Princeton, New Jersey http://www.gfdl.noaa.gov/~tk. GFDL model simulation of Atlantic hurricane activity. Climate Change Attribution. Observations.

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Projections of Future Atlantic Hurricane Activity

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  1. Projections of Future Atlantic Hurricane Activity 1 Hurricane Katrina, Aug. 2005 Tom Knutson NOAA / Geophysical Fluid Dynamics Lab Princeton, New Jersey http://www.gfdl.noaa.gov/~tk GFDL model simulation of Atlantic hurricane activity

  2. Climate Change Attribution Observations • are observed changes consistent with • expected responses to forcings • inconsistent with alternative explanations All forcing Solar+volcanic Source: IPCC 4th Assessment Report. Used with permission.

  3. IPCC Projections of Future Changes in Climate IPCC best estimate for low scenario (B1) is 1.8°C (likely range is 1.1°C to 2.9°C), and for high scenario (A1FI) is 4.0°C (likely range is 2.4°C to 6.4°C). Broadly consistent with span quoted for SRES in TAR, but not directly comparable Source: IPCC 4th Assessment Report. Used with permission.

  4. 5 There is some evidence that overall Atlantic hurricane activity may have increased since in the 1950s and 60s in association with increasing sea surface temperatures… Increasing data uncertainty PDI is proportional to the time integral of the cube of the surface wind speeds accumulated across all storms over their entire life cycles. Source: Kerry Emanuel, J. Climate (2007).

  5. 6 Two future projections of Atlantic tropical cyclone power dissipation • Projection 1: Absolute SST • ~300% projected increase in • Power Dissipation • Indirect attribution: • CO2  SST  Hurricanes • Projection 2: Relative SST • Projected change: • sign uncertain, +/- 80% • No Attribution • Supported by dynamical • models • . Source: Vecchiet al. Science (2008)

  6. 7 Example of a regional model that reproduces the interannual variability and trend of Atlantic hurricane counts (1980-2006) 18-km grid model nudged toward large-scale (wave 0-2) NCEP Reanalyses Source: Knutson et al., 2007, Bull. Amer. Meteor. Soc.

  7. Higher shear Late 21st century projected Atlantic region climate changes: 18-Model CMIP3 ensemble Higher potential intensity

  8. 9 The 26.5oC “threshhold temperature” for Atlantic tropical storm formation: a climate dependentthreshhold, which may increase to ~28.5oC by the late 21st century with climate warming. Note the decrease in overall number of storms in the warmer climate Source: Knutson et al., 2008, Nature Geoscience.

  9. 10 The regional model simulates increased hurricane rainfall rates in the warmer climate (late 21st century, A1B scenario) …consistent with previous studies… Present Climate Warm Climate Rainfall Rates (mm/day) Warm Climate – Present Climate Avg. Rainfall Rate Increases: 50 km radius: +37% 100 km radius: +23% 150 km radius: +17% 400 km radius: +10% Average Warming: 1.72oC Source: Knutson et al., 2008, Nature Geoscience.

  10. Example of a “double-downscaling” method used to explore frequencies and intensities of Atlantic hurricanes at high resolution Geophysical Fluid Dynamics Laboratory/NOAA

  11. Late 21st Century Climate Warming Projection-- Average of 18 CMIP3 Models (27 Simulated Hurricane Seasons) Source: Bender et al., Science, 2010

  12. 13 Conclusions: What can climate science tell us about late 21st century climate and Atlantic hurricanes? • Climate science provides a compelling case that human emissions of greenhouse gases have caused much of the long-term global warming over the past 50 yr and 140 yr (IPCC AR4). • Climate models project substantial further global warming over the 21st century, including in the tropical Atlantic. • Sea level rise has already begun and further sea level rise is expected to exacerbate storm surge impacts, even if the storms themselves do not change. • There is no consensus among current models on future changes in Atlantic tropical storm frequency (+/- 60%). Globally there is a general consensus on a decrease (or little change) in global frequency of tropical storms. • Most high-resolution models agree that hurricane intensities will increase (range +2 to 11% by 2100) and that hurricanes will have higher rainfall rates (~+20%). In one study, the number of very intense category 4 and 5 Atlantic hurricanes doubles by 2100, though not for all of the climate models used in the study. • However, we cannot yet conclude that humans have already caused a detectable change in Atlantic hurricane activity. Note that humans may have already caused changes that are either below the 'detection threshold' or are not yet confidently modeled (e.g., aerosol effects). Decreasing Confidence

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