Download - Tropical Cyclones and Climate Change in a High Resolution General Circulation Model, HiGEM
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Tropical Cyclones and Climate Change in a High Resolution General Circulation Model, HiGEM
Ray BellSupervisors: Prof. Pier Luigi Vidale, Dr. Kevin Hodges and Dr. Jane Strachan
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IntroductionMotivation• Socio-economic impacts and changing risk with climate change. • Impacts on the climate system, removing heat and moisture from the ocean affecting large scale circulation.
Research Objectives• Investigate the changes in TC activity (location, frequency, intensity, structure and duration) with climate change.• Investigate a change of natural variability mechanisms on TC activity e.g. changing ENSO.• [Investigate the impact of atmospheric resolution on TC activity with climate change.]• [How does TC activity change during a transient forcing vs. stabilised forcing?]
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What’s expected?How will TC frequency change with climate change?(The number of TCs which form each year)
Decrease Stay the same Increase
“Warmer SSTs lead to more TCs”
“What controls TC frequency?”TCfreq= Σ Σ f(SST, dT/dz, mid level humidity,absolute vorticity, vertical wind shear) + Initial disturbances Gray (1968); Emanuel (2005)
Spacetime
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What’s expected?How will TC intensity change with climate change?(The maximum intensity a TC can reach)
Decrease Stay the same Increase
• TC intensity is governed by its immediate external environment and internal processes
• TC intensity is hard to simulate in global models (constrained by resolution)
- Large regional uncertainties (Knutson et al. 2010)
- Can we observe these changes? (Klotzbach and Gray, 2011)
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Why do we get these changes?TC frequency Decrease globally by 6-34% by 2100• Distribution of SST change. Change in gradients -> Increase in VWS via thermal wind balance (Vecchi and Soden, 2007)
• Weakening of the tropical circulation. Increase in dry static stability. (Vecchi et al, 2006)
TC intensity• Decrease of TC frequency mainly from weaker storms. When conditions are favourable for TC development it will be able to utilize the energy available. • Supported by theory (Emanuel, 1985) and idealised studies (Shen, 2000)
Increase globally by 2-11% by 2100Knutson et al (2010)
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Idealised GCM simulationsHiGEMUK’s new High-Resolution Global Environmental Model (Shaffrey et al, 2009)
1.25ox0.83o, ∆x50N = 90 km
1/3o ocean model
HiGEM
Tran
sient
2% CO 2
/yr 7
0 yrs
HiGEM 1.1 CTRL 150 yrs
HiGEM 2xCO2 30 yrs
HiGEM 4xCO2 30 yrs
HiGEM 1.2 CTRL 117 yrs
HiGEM CTRL ~9x30 yrs
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1) Locate and track all centres of high relative vorticity 35000/yr 2) Apply a 2-day filter to the tracks 8000 storms / yr 3) Analyse vertical structure of storm for evidence of warm-core (tropical storm structure) 120 storms / yr
Tracking algorithm (TRACK; Bengstton et al, 2007)
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Assessing the model
At this model resolution we are able to realistically capture location and frequencyStrachan et al, (2012) in rev
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Climate Change Simulations
Track density difference
2xCO2 - CTRL
4xCO2 - CTRL
Stippling if outside 9x30yr CTRL variability
Storms/month/106km2
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Climate Change Simulations
Grey shading is 9x30yr CTRL variability
norm
Max rel vor
Increase in maximum intensity
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Large scale forcing
NAtl
NEPac
% change
SST VWS ppt RH700 ω500 TCfreq stronger TCfreq
% change
50
-50
50
-50
Red: 2xCO2 - CTRLGreen: 4xCO2 - CTRL
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Conclusion•HiGEM realistically captures the geographical location and TC frequency compared to observations.
• HiGEM simulates a decrease of TC frequency in most regions except for the North Indian Ocean and North Central Pacific region.• HiGEM simulates an increase of TC intensity, which only becomes significant in the 4xCO2 experiment.
• An increase in VWS in the 4xCO2 over the North Atlantic spreads to the North East Pacific and decreases TC freq.• A weaker Walker circulation suppresses activity in the North West Pacific and enhances activity in the North Central Pacific.
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Future work
•Continue Adding HiGEM1.2 onto my current study.
• Investigate the ENSO relation and different types of El Niño and the impact they have on TC activity. How these change with climate change.
• Apply my analyses to the different resolution simulation (atmosphere only)• Apply my analyses to the transient simulation
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TC and climate change studiesComparing with , and
• Different tracking algorithms
• Model TCs are not exactly comparable to obs TCs
• Inhomogeneities of obs TCs in different basins and over time.
• Different models resolutions/ different scenarios - show different parameters to be of importance
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Late 21st Century projections:
“storm-friendly” “storm-hostile”
Average of 18 models, Jun-Nov
Vecchi and Soden (2007)
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Vecchi et al., (2008)
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Large-scale tropical Atlantic climate changes projected for late 21st century by CMIP3 models (A1B scenario). Average SST change in MDR is 1.72oC with warming near 4oC in the upper troposphere.
Knutson et al., (2008)
Temp anom
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Shen (2000)
Emanuel Potential intensity
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Small decrease of TCs. Small increase of major hurricanes
TC
Hurricanes
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Increase in maximum intensity
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MSLP-10m windspeed relation
5 member ensemble for N512, all 2005
Other models – all years
Note: IBTrACS uses 10min winds, models use instantan. 6hourly winds
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• T42 ξ850 – Reduce noise. Comparison of different spatial resolution data• Minimum lifetime of 2 days and no constraint on the minimum
displacement distance. Capture more of TC lifecycle• Cyclogenesis (0-30oN over ocean)• Coherent vertical structure and warm core• Max T63 vor at each level from 850hPa to 250hPa• Intensity threshold T63 ξ850 > 6x10-5 s-1, ξ850 – ξ200 > 6x10-5 s-1 , for at least
1 day (4 x 6hr).• Search for warm core between p levels 850-500, 500-200hPa (+ ξ
value)
• Wind speed must attain 20m/s at 850hPa (change in slightly more intense TCs) [att20 dataset]
• Statistical packages
TRACK Hodges (1995); Bengstsson et al. (2007)
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Understanding natural variabilityENSO’s impact on geographical location
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Understanding natural variabilityENSO’s impact on TC frequency
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Climate Change Simulations
Error bars are max and min of 9x30 yr CTRL variability
Change in TC frequency
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Change in SST
Zhao et al (2009)
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AMO ~= AMOC Klotzbach and Gray (2011)
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Sea Surface Temperature Difference
2xCO2 - CTRL
Sea Surface Temperature Difference (°C)
Jul-Oct
• Tongue of relatively less warm water compared to the rest of the tropics• Grave results of TCs in this vicinity (NAtl).• Leads to increased vertical wind shear (VWS) via thermal wind balance
4xCO2 - CTRL
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Vertical Wind Shear Difference
Vertical Wind Shear difference (m/s)
Jul-Oct
• VWS spreads to the NEPac especially in the 4xCO2
• Detrimental affect on TCs.• Reduced VWS in CPac favours development
Stippling if outside 5x30yr CTRL variability
2xCO2 - CTRL
4xCO2 - CTRL
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Walker Circulation DifferenceJul-Oct 0-10N°
• Weakening of the tropical circulation inline with other studies (Vecchi and Soden, 2007)• Favours development in the CPac and reduces TC frequency is the NWPac
-ω difference (Pa/s) and divU difference (m/s)
2xCO2 - CTRL
4xCO2 - CTRL
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Change in RH700
Vecchi et al (2007)
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Change in –ω500
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Change in ppt
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Large scale tropical change
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Climate Change Simulations
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HadGAM – N96. 135kmHiGEM - N144. 90kmNUGAM - N216. 60km