Transcript Slide 1

The Perfect Ocean for Drought,
Martin Hoerling & Arun Kumar
On the Cause of the 1930s Dust
Bowl, Siegfried D. Schubert, Max J.
Suarez, Philip J. Pegion, et al.
CAITLIN STRIPLING
THE OHIO STATE UNIVERSITY
ATMOSPHERIC SCIENCE
GRADUATE STUDENT (MS)
Overview

Introduction

Hoerling



Data & Methods

Results

Summary
Schubert

Data & Methods

Results

Summary
Conclusion
Introduction

Drought: an extended period when a region
receives a deficiency in its water supply, whether
atmospheric, surface or ground water.

Regions most affected:

Western U.S.

Eastern Australia

Equatorial/South Africa

South America (Brazil)

Asian Regions (China and India)
Introduction

Global impacts

Mitigation and relief efforts:
Desalination
(Sorek; Israel)
Cloud Seeding
Rainwater
harvesting (MITHE,
Mexico City)
Dams (Jawa Dam
remains, Jordan)
Hoerling’s Study
How were the 1998-2002 droughts spanning the U.S.,
southern Europe, and southwest Asia connected?
Data Collection Methods

Atmospheric General Circulation Models (AGCMs)

ECHAM4.5

NCEP

NSIPP
Observed Conditions
Observed temperature
and precipitation
conditions from 19982002.
Above normal
temperatures
No more than 50% of
rainfall, annually.
Decreased rainfall  Increased land temp  Drought conditions
Observed Conditions (cont.)
Observed sea surface
temperatures (SSTs).
La Niña Conditions:
• Warm pool in tropical
Indian and west
Pacific.
• Cold tongue in
equatorial
central/east Pacific.
Uninterrupted warmth in
warm pool.
Cold tongue peaked in
early winter and
weakened in late spring.
Modeled Temperature and
Precipitation
Combined results of
three GCM models.
Drying over U.S.,
southern Europe, and
southwest/central Asia.
Higher land
temperatures, lower
precipitation amounts.
Drying was strongly ocean driven (easily reproduced).
Modeled Pressure
Observed vs.
modeled 200mb
heights.
Uninterrupted high
pressure in midlatitudes.
Symmetry of
atmospheric
anomalies about
equator.
Modeled Tropical SSTs
Testing tropical SSTs
impact on droughts.
Three tests:
• All Tropical
• Warm Tropical Only
• Cold Tropical Only
The use of all tropical
SSTs yielded the
closest results to what
was actually
observed.
Summary of Results

Widespread mid-latitude
drought strongly
determined by tropical
oceans.

Ocean conditions “perfect”
for severe, sustained
drought in mid-latitudes.

SST anomalies due to
increase GHGs, rather than
natural variability in ENSO.
Schubert’s Study
Since the 1930s experienced weak Pacific SST
anomalies, what prompted the generation of the Dust
Bowl?
Data Collection Methods

Similar methods

AGCMs

NSIPP modeling

100-year runs, Climate of the 20th Century project
(C20C)

Modeling ocean basins separately
Preliminary Data/Models
Observed vs. modeled precipitation
of 20th Century.
Similarities– dry tendency in 1930s,
abrupt transition to wet conditions.
Inability to model conditions in
northern plains, Canada, and Mexico
correctly.
Sea surface temperatures based on
collected data from ships.
Best estimate.
Experiment Time!
Tested subregions of the three tropical basins to see how their SSTs
influenced the rainfall and drought conditions.
Global vs. Tropical Modeling
C20C mean vs. global,
tropical, global minus tropical
models.
Global model very similar to
C20C, with additional deficit
in Alabama and surplus in
northwest U.S.
Tropical decreased affected
area.
Global minus tropical
broadened area.
Global Modeling:
With/without Atmosphere-Land
Interactions
Global run without landatmosphere interactions.
Reduced deficit by 50%.
Land-atmosphere interactions highly
responsible for drought severity.
Seasonal Distribution of Rainfall
Seasonal averages.
Global and fixed beta model
underestimate deficits.
For the fixed beta:
• Winter: Slight surplus.
• Spring: Small deficit.
• Summer: Slightly larger deficit
than spring.
• Fall: Largest deficit.
Look to summer and fall for SST
anomalies affecting Dust Bowl
region.
Summary of Results

Cause still unclear

Additional proof that tropical Pacific and Atlantic SSTs impacted
precipitation variations.
SSTs + Rainfall Deficit + Land-Atmosphere Interactions = Drought Conditions
Conclusion

Limited availability of data

Current/future projects

Drought relief
References

The Perfect Ocean for Drought, Martin Hoerling & Arun Kumar

On the Cause of the 1930s Dust Bowl, Siegfried D. Schubert,
Max J. Suarez, Philip J. Pegion, et al.

http://en.wikipedia.org/wiki/Drought

http://www.ibtimes.com/global-drought-conditions-are-dryingout-several-regions-sparking-food-production-concerns1628770

http://www.technologyreview.com/featuredstory/534996/me
gascale-desalination/

http://www.ide-tech.com/blog/case-study/sorek-israelproject/

http://www.pbs.org/kenburns/dustbowl/

http://discoverynews.com