NASA Study Projects Warming-Driven Changes in Global Rainfall

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May 3, 2013

Steve Cole 
Headquarters, Washington 
202-358-0918 
stephen.e.cole@xxxxxxxx 

Kathryn Hansen 
Goddard Space Flight Center, Greenbelt, Md. 
301-286-1046 
kathryn.h.hansen@xxxxxxxx 

RELEASE: 13-119

NASA STUDY PROJECTS WARMING-DRIVEN CHANGES IN GLOBAL RAINFALL

WASHINGTON -- A NASA-led modeling study provides new evidence that 
global warming may increase the risk for extreme rainfall and 
drought. 

The study shows for the first time how rising carbon dioxide 
concentrations could affect the entire range of rainfall types on 
Earth. 

Analysis of computer simulations from 14 climate models indicates wet 
regions of the world, such as the equatorial Pacific Ocean and Asian 
monsoon regions, will see increases in heavy precipitation because of 
warming resulting from projected increases in carbon dioxide levels. 
Arid land areas outside the tropics and many regions with moderate 
rainfall could become drier. 

The analysis provides a new assessment of global warming's impacts on 
precipitation patterns around the world. The study was accepted for 
publication in the American Geophysical Union journal Geophysical 
Research Letters. 

"In response to carbon dioxide-induced warming, the global water cycle 
undergoes a gigantic competition for moisture resulting in a global 
pattern of increased heavy rain, decreased moderate rain, and 
prolonged droughts in certain regions," said William Lau of NASA's 
Goddard Space Flight Center in Greenbelt, Md., and lead author of the 
study. 

The models project for every 1 degree Fahrenheit of carbon 
dioxide-induced warming, heavy rainfall will increase globally by 3.9 
percent and light rain will increase globally by 1 percent. However, 
total global rainfall is not projected to change much because 
moderate rainfall will decrease globally by 1.4 percent. 

Heavy rainfall is defined as months that receive an average of more 
than about 0.35 of an inch per day. Light rain is defined as months 
that receive an average of less than 0.01 of an inch per day. 
Moderate rainfall is defined as months that receive an average of 
between about 0.04 to 0.09 of an inch per day. 

Areas projected to see the most significant increase in heavy rainfall 
are in the tropical zones around the equator, particularly in the 
Pacific Ocean and Asian monsoon regions. 

Some regions outside the tropics may have no rainfall at all. The 
models also projected for every degree Fahrenheit of warming, the 
length of periods with no rain will increase globally by 2.6 percent. 
In the Northern Hemisphere, areas most likely to be affected include 
the deserts and arid regions of the southwest United States, Mexico, 
North Africa, the Middle East, Pakistan, and northwestern China. In 
the Southern Hemisphere, drought becomes more likely in South Africa, 
northwestern Australia, coastal Central America and northeastern 
Brazil. 

"Large changes in moderate rainfall, as well as prolonged no-rain 
events, can have the most impact on society because they occur in 
regions where most people live," Lau said. "Ironically, the regions 
of heavier rainfall, except for the Asian monsoon, may have the 
smallest societal impact because they usually occur over the ocean." 

Lau and colleagues based their analysis on the outputs of 14 climate 
models in simulations of 140-year periods. The simulations began with 
carbon dioxide concentrations at about 280 parts per million -- 
similar to pre-industrial levels and well below the current level of 
almost 400 parts per million -- and then increased by 1 percent per 
year. The rate of increase is consistent with a "business as usual" 
trajectory of the greenhouse gas as described by the United Nations' 
Intergovernmental Panel on Climate Change. 

Analyzing the model results, Lau and his co-authors calculated 
statistics on the rainfall responses for a 27-year control period at 
the beginning of the simulation, and also for 27-year periods around 
the time of doubling and tripling of carbon dioxide concentrations. 
They conclude the model predictions of how much rain will fall at any 
one location as the climate warms are not very reliable. 

"But if we look at the entire spectrum of rainfall types we see all 
the models agree in a very fundamental way -- projecting more heavy 
rain, less moderate rain events, and prolonged droughts," Lau said. 

For images related to this release, please visit: 

http://go.usa.gov/TQM3 

	
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