Suzana J. Camargo Lamont-Doherty Earth Observatory Columbia University ANALYSIS OF 20 TH CENTURY ATLANTIC HURRICANE POTENTIAL INTENSITY AND TROPICAL CYCLONE.

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Presentation transcript:

Suzana J. Camargo Lamont-Doherty Earth Observatory Columbia University ANALYSIS OF 20 TH CENTURY ATLANTIC HURRICANE POTENTIAL INTENSITY AND TROPICAL CYCLONE ACTIVITY IN THE CMIP5 MODELS Atlantic Sector Climate Variability over the Last Millennium and the Near Term Future Workshop LDEO, Palisades, NY, October 17, 2012

OUTLINE Local and remote influences of Atlantic hurricane potential intensity Tropical cyclone activity in the CMIP5 models

LOCAL AND REMOTE INFLUENCES ON ATLANTIC HURRICANE POTENTIAL INTENSITY Suzana J. Camargo, Mingfang Ting and Yochanan Kushnir Lamont-Doherty Earth Observatory, Columbia University Thanks to Donna Lee, Naomi Naik and Cuihua Li

ATLANTIC PDI (POWER DISSIPATION INDEX ~ V 3 MAX ) AND TROPICAL SST Emanuel, 2005

20 TH CENTURY NORTH ATLANTIC SST AND POTENTIAL INTENSITY (PI)

PDI and SST PDI and relative SST Vecchi and Soden 2007

Objective: Contributions of natural variability and anthropogenic trend to North Atlantic potential intensity CCM3 simulations forced with fixed SST GOGA: global SST TAGA: tropical Atlantic SST 16 ensemble members, See description in Seager et al. (2005) IOPOGA: Indo-Pacific SST 8 ensemble members,

PI GOGA & REANALYSIS I CLIMATOLOGICAL ANNUAL MAXIMUM

PI ANOMALY GOGA AND REANALYSIS ATLANTIC MAIN DEVELOPMENT REGION (MDR)

PI GOGA, TAGA & IOPOGA

PI AND RELATIVE SST: GOGA, TAGA & IOPOGA

CLIMATE CHANGE AND INTERNAL VARIABILITY (AMV) INDICES Ting et al., 2009

REGRESSION WITH SST

PI REGRESSION PATTERNS: CC

PI REGRESSIONS TIME-SERIES:

SUMMARY Remote SST reduces trend of North Atlantic PI (confirming Vecchi and Soden 2007). Remote SST also slightly reduces AMV effect on PI in the North Atlantic. Differences of PI for GOGA and TAGA not due to Atlantic extra-tropical SST. Late 20 th century PDI upward trend (Emanuel 2005) probably not dominated by climate change, but internal variability (AMV) as hinted in DelSole et al with a small contribution of climate change. Next step analysis of PI in the 21 st century in the CMIP5 simulations. Camargo, Ting & Kushnir, Climate Dynamics, 2012

TROPICAL CYCLONE ACTIVITY IN THE CMIP5 MODELS Suzana J. Camargo Lamont-Doherty Earth Observatory Columbia University Thanks to Haibo Liu and Naomi Naik for the CMIP5 dataset!

OBJECTIVES Analyze the tropical cyclone (TC) activity in the CMIP5 models: Globally Atlantic Storms in the models and environmental variables Comparison with CMIP3 Choice of models: availability of 6-hourly data!

TRACKS OF TCS IN HISTORICAL RUNS

GLOBAL NUMBER OF TCS PER YEAR

GENESIS POTENTIAL INDEX

GLOBAL NUMBER OF TCS FUTURE & PRESENT

TRACKS ATLANTIC AND EASTERN NORTH PACIFIC

ATLANTIC NUMBER OF TROPICAL CYCLONES

MRI TC ACTIVITY – 5 ENSEMBLES

NUMBER OF ATLANTIC TROPICAL CYCLONES FUTURE & PRESENT

CLUSTER ANALYSIS: TRACKS ATLANTIC Observations Kossin, Camargo and Sitkowski, J. Climate 2010 Models

TRACK CHANGES ATLANTIC: MPI: Increase: subtropical storms Increase: eastern subtropical storms Large Decrease: Deep tropics storms MRI: Decrease: eastern subtropical storms Increase: western subtropical storms

GPI CHANGES

GPI DIFFERENCES – COMPARISON WITH CMIP3 22 CMIP3 models – June to November GPI multi-model differences Vecchi and Soden, CMIP5 models: Northern Hemisphere: ASO Southern Hemisphere: JFM

PI DIFFERENCES: COMPARISON WITH CMIP3 22 CMIP3 models – June to November PI multi-model differences Vecchi and Soden, CMIP5 models: Northern Hemisphere: ASO Southern Hemisphere: JFM

VERTICAL WIND SHEAR DIFFERENCES: COMPARISON WITH CMIP3 22 CMIP3 models – June to November PI multi-model differences Vecchi and Soden, CMIP5 models: Northern Hemisphere: ASO Southern Hemisphere: JFM

SUMMARY TC activity in the models analyzed not very realistic yet. Models have a low bias in TC counts, that improves with horizontal resolution. No robust changes in TC frequency: globally or regionally. Environmental changes: very similar to CMIP3 results Need of downscaling (statistical, dynamical) and/or higher resolution runs Submitted to J. Climate, CMIP5 MAPP North American Climate special issue.