[OANNES Foro] El Niño tests forecasters

Mie Abr 2 08:46:11 PDT 2014

El Niño tests forecasters

As hints emerge of a major weather event this year, poor data could thwart
attempts to improve predictions.

Jeff
<http://www.nature.com/news/el-ni%C3%B1o-tests-forecasters-1.14972#auth-1>
Tollefson

NATURE, 02 April 2014

http://www.nature.com/news/el-ni%C3%B1o-tests-forecasters-1.14972

The first sign of a brewing El Niño weather pattern came in January, as
trade winds that normally blow from the east reversed course near Papua New
Guinea. Barrelling back across the tropical Pacific Ocean, they began to
push warm water towards South America. Now climate scientists and
forecasters are on high alert. 

A major El Niño event — a periodic warming of waters in the eastern
equatorial Pacific — could boost temperatures and scramble weather
worldwide. The most recent major event, in 1997–98, was linked to thousands
of deaths and tens of billions of dollars in damage from droughts, fires and
floods across several continents. Yet more than 15 years later, forecasting
the timing and intensity of El Niño remains tricky, with incremental
improvements in climate models threatened by the partial collapse of an
ocean-monitoring system that delivers the data to feed those models.

El Niño often emerges during the Northern Hemisphere summer and peaks around
December; forecast models can do a reasonable job of predicting its eventual
strength by July, when the changes in ocean circulation that give rise to
the weather pattern have become pronounced. But scientists are working
feverishly to provide earlier forecasts, to allow governments more time to
prepare for potentially devastating weather patterns.

In 1997, the emergence of a record-breaking El Niño caught scientists by
surprise, despite hints in wind and sea surface temperature data (see
<http://www.nature.com/news/el-ni%C3%B1o-tests-forecasters-1.14972#warm>
‘Warming up’). The European Centre for Medium-Range Weather Forecasts in
Reading, UK, was reluctant to issue early warnings because its forecast
model was untested. And the model that had best predicted earlier El Niños —
developed by scientists at Columbia University’s Lamont–Doherty Earth
Observatory in Palisades, New York — foresaw neutral conditions.

“We were in the early days in forecasting,” says Michael McPhaden, an
oceanographer at the US National Oceanic and Atmospheric Administration
(NOAA) in Seattle, Washington. “Now we are much more systematic.”

 <http://www.nature.com/news/el-nino-jpg-7.16543?article=1.14972>
http://www.nature.com/polopoly_fs/7.16543.1396374158!/image/el-nino.jpg_gen/
derivatives/landscape_630/el-nino.jpg

Source: NOAA

 <javascript:;> Expand

This year, NOAA issued its first forecast on 6 March, estimating a 50%
chance that El Niño will develop this summer. But that early projection, and
others from weather agencies and research institutions around the world,
comes with lots of uncertainty. Fickle tropical winds in spring can easily
quash a brewing El Niño — or strengthen it.

Researchers say that real progress in forecasting has come from
systematically comparing the outputs of groups of models, with each
simulation run under a range of possible climate conditions. “Combining
these various predictions — doing some crowd-sourcing, if you will — tends
to lead to more reliable predictions,” says Gabriel Vecchi, a climate
modeller at NOAA’s Geophysical Fluid Dynamics Laboratory in Princeton, New
Jersey. Averaging the results of several different forecasting models tends
to cancel out flaws in an individual program, he says.

The sensitivity of the simulations is also increasing. Global climate models
divide the planet into grids, like a computer screen divided into pixels,
and represent climate variables such as temperature as averages in each
cell. Modellers increase the resolution of their calculations by reducing
the size of the cells. Vecchi’s lab, for example, has shifted its model from
a grid with cells 200 kilometres across to one with cells 50 kilometres
across, thereby increasing the number of cells by a factor of 16. In theory,
this allows for more-accurate representations of the microphysical processes
and interactions that drive weather and ultimately climate. Forecasters also
continuously fine-tune how they incorporate environmental-monitoring data
and represent complex interactions between air and ocean circulation.

During the spring, when forecasting is most difficult, such improvements
have given climate models based on physical processes a leg-up over less
sophisticated statistical models, which compare the current weather-system
trends to those of past years and essentially estimate the likelihood that
history will repeat itself.

Almost all of this year’s initial forecasts suggest that a moderate to
severe El Niño or neutral conditions will emerge in coming months. None
predicts El Niño’s sister effect, La Niña, in which upwelling currents from
the deep ocean bring cooler waters to the surface off the Pacific coast of
South America.

In the coming weeks, scientists will watch to see if warm water continues to
flow across the Pacific into the area off South America where El Niño forms.
But in a potential blow to the ongoing effort to improve forecast accuracy,
their ocean-temperature data will get progressively worse. A US-funded
system of data-gathering buoys known as the Tropical Atmosphere Ocean (TAO)
array has started to break down as a result of budget cuts that have hobbled
its maintenance (see  <http://doi.org/q72> Nature http://doi.org/q72; 2014).
NOAA has committed to restoring most of the system by the end of the year,
but that aid will come months after crucial El Niño forecasts are issued.
Scientists will be forced to supplement the buoy data with satellite
observations of water temperature and sea level, which can serve as proxies
for the depth of the wave of warm water.

The stakes are high. Since 1998, the eastern Pacific has been in a cold
phase that is associated with La Niña-like conditions, but every 15–30
years, as part of a cycle known as the Pacific Decadal Oscillation, that
trend flips. Kevin Trenberth, a climate scientist at the US  National Center
for Atmospheric Research in Boulder, Colorado, has theorized that a major El
Niño could help to push the ocean back into a warm phase, which studies have
linked to more frequent El Niños and more rapid global warming (see
<http://www.nature.com/uidfinder/10.1038/505276a> Nature 505, 276–278;
2014).

But all of that depends on what happens as warm water washes across the
Pacific in the next couple of months. “The system is primed,” says
Trenberth. “Will it wimp out or really take off?”

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