Transcript ATS 2003

Air Quality Degradation due to Greenhouse Warming Decreasing the Frequency of Mid-latitude Cyclones
Eric M. Leibensperger
1
([email protected]) ,
1
Loretta J.
Harvard University
2
1
Mickley ,
Daniel J.
1
Jacob ,
Here we analyze long-term trends in North American cyclones for 1950-2050 using a transient-climate simulation with the NASA Goddard Institute for Space Studies
(GISS) General Circulation Model (GCM) III using two horizontal resolutions (2ºx2.5º and 4ºx5º). The model is evaluated with present-day cyclone climatology from the
NCEP/NCAR Reanalysis. We show that the GCM can reproduce at least qualitatively the observed decrease and shift of cyclone tracks in the second half of the 20th
century (1951-2004). A future-climate simulation following the Special Report on Emission Scenarios (SRES) A1B emission inventory predicts a continuation of this
decreasing trend, with significant negative implications for air quality.
Twentieth-century trends in North American cyclones were diagnosed in
the GISS GCM with 2ºx2.5º resolution by using the Storm Tracker to
count individual cyclone tracks in the domain (40º-50ºN, 60º-75ºW) for
the 1951-2004 summers. We see a significant decrease in cyclone
frequency. The plot below shows the standardized departure for
individual years from the 1951-2004 mean:
Standardized Departure

n  n 
GISS GCM
20ºN
120ºW
90ºW

  1951-2004 standard deviation
Cyclone Tracks of July 1960 from GISS GCM Simulation
60ºN
40ºN
90ºW
60ºW
The GCM and the reanalysis cyclones track eastward at comparable
latitudes and frequency over North America. Inspection of other years
indicates more generally that the GCM is successful in reproducing the
observed climatology.
60ºN
40ºN
40ºN
20ºN
20ºN
In a study of GCM data prepared for the Intergovernmental Panel on
Climate Change Fourth Analysis Report, Lambert et al. analyzed the
winter cyclone frequency of the participating climate models’ simulation of
1961-2000. The number of cyclones varied ~15% amongst the models,
with the GISS models closely matching the observed quantities. The
ability of the GISS models to match the frequency of cyclones,
underscores the ability of the GISS climate models to accurately portray
the frequency of cyclones.
90ºW
60ºW
120ºW
90ºW
60ºW
The above plot shows the cyclone tracks in summer 1999-2001 and 2049-2051.
Our analysis shows that there is a 14% decrease in the frequency of cyclones in
the 2049-2051 time period.
(c)
McCabe’s Analysis of NCEP/NCAR
To test our storm tracking procedure and to analyze the ability of the
GISS GCM III to reproduce the North American storm tracks, we run our
procedure on SLP data from the NCEP/NCAR reanalysis dataset and the
GISS GCM simulation of the second half of the 20th century. An
illustrative comparison for July 1960 is shown above (reanalysis) and
below (GISS GCM).
120ºW
60ºN
120ºW
n  number of cyclones in a given summer
 n  1951-2004 mean of summer cyclones
60ºW
20ºN
Cyclone Tracks From GISS GCM Simulation of 2049-2051
3. TRENDS IN THE LAST FIFTY YEARS
We see from this metric (below, left) that the cyclone frequency has
decreased by 2σ (a 40% decrease) over the 1950-2000 period (with a
summer mean of 12 cyclones and standard deviation of 3 cyclones). This
dramatic drop is similar in relative magnitude to the winter findings of
McCabe et al (below, right).
40ºN
We then applied our cyclone-tracking analysis to diagnose the change in cyclone
frequency between the present and future climates. The future climate is the result
of a transient simulation with the GISS GCM III at 4ºx5º resolution, with
greenhouse gas emissions following the A1B scenario. This simulation has been
applied by Wu et al. (see poster) as part of the GCAP project to study the effects
of climate change on air quality.
Cyclone Tracks From GISS GCM Simulation of 1999-2001
Cyclone Tracks of July 1960 from NCEP/NCAR Reanalysis Data
60ºN
David
2
Rind
4. N. AMERICAN CYCLONES IN THE 2050 CLIMATE
Mid-latitude cyclones are a major agent in the ventilation of the U.S. boundary layer. Greenhouse warming is expected to decrease mid-latitude cyclone frequency by
weakening the temperature contrast between the tropics and the poles [Lambert et al., 2006]. Analysis of observational datasets for the past 50 years has revealed a
decreasing trend in the number of mid-latitude cyclones and a poleward shift of cyclone tracks in the Northern Hemisphere [McCabe et al., 2001]. A decrease in the
number of cyclones tracking through the northern United States and southern Canada or a northward shift in the mean storm track in the summer would degrade air quality
in the United States by removing one of the primary mechanisms of pollution relief.
We track cyclones using the NASA GISS Storm Tracking algorithm
[Chandler and Jonas, 1999]. The algorithm tracks cyclones by analyzing
time series of sea level pressure (SLP) fields. We use a temporal
resolution of 6 hours for the SLP fields. For each time step the procedure
searches for pressure minima extending 720km in radius. The low
pressure center is tracked through time by assuming that the closest
neighbor in the next time step within 720km is the same system. In order
for a system to be considered a cyclone, it must exist for at least 24
hours (tracked 4 times) and have a central pressure no higher than 1010
hPa.
Jean
2
Lerner ,
NASA Goddard Institute for Space Studies
1. INTRODUCTION
2. STORM TRACKING
Shiliang
1
Wu ,
The study by Lambert et al. showcased a decrease in future cyclone frequency in
all 15 climate models examined. Within their study, Lambert et al., found a
decrease in cyclone frequency across all SRES emission inventory scenarios.
The thinning of the storm tracks affects not only the northeastern United States,
but also the midwestern states. The shift and change in frequency of mid-latitude
cyclones is a likely factor in the increase of pollution events in the Northeast and
Midwest found in the GCAP study (Wu et al., see poster) and corresponds to the
results of Mickley et al. [2004].
5. CONCLUSIONS AND FUTURE WORK
Mid-latitudes cyclones tracking across southern Canada are a crucial mechanism
for ventilating pollution from the eastern United States. Analysis of a transientclimate GISS GCM III simulation for 1950-2004 reveals a significant decrease in
the frequency of these cyclones, consistent with previous climatological analyses
(McCabe et al., Gulev et al.) This trend can be understood simply in terms of
greenhouse climate forcing, which decreases the thermal contrast between the
tropics and the poles that provides the driving force for cyclogenesis. We are
currently analyzing the NCEP-NCAR Reanalysis SLP data for 1950-2004 to better
quantify this trend in the observations.
Simulation of the 2000-2050 transient climate trend with the GISS GCM III (GCAP
project; see poster by Wu et al.) projects a further decrease in the frequency of
mid-latitude cyclones across North America. This decrease would be expected to
lead to longer and more frequent stagnation episodes in the United States, with
adverse consequences for air quality. Wu et al. show that 2000-2050 climate
change has important consequences for surface ozone. We are presently
analyzing the 2050 climate simulation further to diagnose changes in stagnation
episodes seen in the accumulation of simple chemical tracers.
REFERENCES
Chandler et al. [1999] Atlas of extratropical storm tracks
(1961-1998). NASA GISS Tech. Rep.
[http://www.giss.nasa.gov/data/stormtracks/].
Gulev et al. [2001] Climate Dynamics, 795-809.
Lambert et al. [2006] Climate Dynamics, 713-728.
McCabe et al. [2001] J. Climate, 2763-2768.
Mickley et al. [2004] GRL, L24103.
ACKNOWLEDGEMENTS
This work was supported by the Electrical Power
Research Institute. The GCAP data were produced with
support of the EPA-Star grant R830959.