Scientists discover new connections that may help predict Indian monsoon’s intensity

August 28, 2009 By Leave a Comment

Washington, August 28 (ANI): In a new research, scientists have determined that subtle connections between the 11-year-solar cycle, the stratosphere and the tropical Pacific Ocean work in sync to generate periodic weather patterns that affect much of the globe, an understanding which would help in predicting the intensity of the Indian monsoon.

“It’s been long known that weather patterns are well-correlated to very small variations in total solar energy reaching our planet during 11-year solar cycles,” said Jay Fein, program director in the National Science Foundation (NSF)’s Division of Atmospheric Sciences, which funded the research.

“What’s been an equally long mystery, however, is how they are physically connected. This remarkable study is beginning to unravel that mystery,” he added.

An international team of authors led by the National Center for Atmospheric Research (NCAR) in Boulder, Colorado, used more than a century of weather observations and three powerful computer models to tackle one of the more difficult questions in meteorology: if the total energy that reaches Earth from the Sun varies by only 0.1 percent across the approximately 11-year solar cycle, how can it drive major changes in weather patterns on Earth?

The answer, according to the study, has to do with the Sun’s impact on two seemingly unrelated regions.

Chemicals in the stratosphere and sea surface temperatures in the Pacific Ocean respond during solar maximum in a way that amplifies the Sun’s influence on some aspects of air movement.

This can intensify winds and rainfall, change sea surface temperatures and cloud cover over certain tropical and subtropical regions, and ultimately influence global weather.

“The Sun, the stratosphere, and the oceans are connected in ways that can influence events such as winter rainfall in North America,” said NCAR scientist Gerald Meehl, the lead author of the paper.

“Understanding the role of the solar cycle can provide added insight as scientists work over the next decade or two toward predicting regional weather patterns,” he added.

The Indian monsoon, Pacific precipitation and sea surface temperatures, and other regional climate patterns are largely driven by rising and sinking air in Earth’s tropics and subtropics.

The new study could help scientists use solar-cycle predictions to estimate how that circulation, and the regional climate patterns related to it, might vary over the next decade or two. (ANI)

Filed Under: Uncategorized Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

El Nino – El Nino 2009 – El Nini Effect – El Nino conditions return to affect weather

July 10, 2009 By Leave a Comment

El Nino – El Nino 2009 – El Nini Effect – El Nino conditions return to affect weather

WASHINGTON (AP) — El Nino is back.

Government scientists said Thursday that the periodic warming of water in the tropical Pacific Ocean, which can affect weather around the world, has returned.

The Pacific had been in what is called a neutral state, but forecasters at the National Oceanic and Atmospheric Administration say the sea surface temperature climbed to 1.8 degrees Fahrenheit above normal along a narrow band in the eastern equatorial Pacific in June.

In addition, NOAA’s Climate Prediction Center said temperatures in other tropical regions are also above normal, with warmer than usual readings as much as 975 feet below the ocean surface.

In general, El Nino conditions are associated with increased rainfall across the east-central and eastern Pacific and with drier than normal conditions over northern Australia, Indonesia and the Philippines.

A summer El Nino can lead to wetter than normal conditions in the intermountain regions of the United States and over central Chile. In an El Nino year there tend to be more Eastern Pacific hurricanes and fewer Atlantic hurricanes.

The forecasters said they expect this El Nino to continue strengthening over the next few months and to last through the winter of 2009-2010.

“Advanced climate science allows us to alert industries, governments and emergency managers about the weather conditions El Nino may bring so these can be factored into decision-making and ultimately protect life, property and the economy,” NOAA Administrator Jane Lubchenco said in a statement.

NOAA officials noted that not all El Nino effects are negative. For example, it can suppress Atlantic hurricanes and bring needed moisture to the arid Southwest.

But it can also steer damaging winter storms to California and increase storminess across the southern United States.

The warming of the ocean can also lead to a reduction in the seafood catch off the West Coast, and fewer fish can also impact food sources for several types of birds and marine mammals.

A recent study by researchers at Georgia Tech suggests there may actually be two forms of El Nino, depending on whether the warming is stronger in the eastern or central pacific.

While the current warming seems to be strongest in the east, the more traditional form, government forecasters did not categorize it.

If the Georgia Tech study is correct, this would be the type of El Nino that reduces hurricanes in the Atlantic and Caribbean. The other form, centered farther west, reportedly seems to promote Atlantic storms.

Filed Under: International News Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

Global warming may go on hold for decades

March 4, 2009 By Leave a Comment

Washington, March 3 (ANI): A new study has determined that global warming may have hit a speed bump and could go into hiding for decades.

Earth’s climate continues to confound scientists. Following a 30-year trend of warming, global temperatures have flatlined since 2001 despite rising greenhouse gas concentrations, and a heat surplus that should have cranked up the planetary thermostat.

“This is nothing like anything we’ve seen since 1950,” Kyle Swanson of the University of Wisconsin-Milwaukee told Disocvery News.

“Cooling events since then had firm causes, like eruptions or large-magnitude La Ninas. This current cooling doesn’t have one,” Swanson added.

Instead, Swanson and colleague Anastasios Tsonis think a series of climate processes have aligned, conspiring to chill the climate. In 1997 and 1998, the tropical Pacific Ocean warmed rapidly in what Swanson called a “super El Nino event.”

It sent a shock wave through the oceans and atmosphere, jarring their circulation patterns into unison.

When added up with the other four years since 2001, Swanson said the overall trend is flat, even though temperatures should have gone up by 0.2 degrees Centigrade (0.36 degrees Fahrenheit) during that time.

The discrepancy gets to the heart of one of the toughest problems in climate science – identifying the difference between natural variability from human-induced change.

But just what’s causing the cooling is a mystery.

Sinking water currents in the north Atlantic Ocean could be sucking heat down into the depths. Or an overabundance of tropical clouds may be reflecting more of the sun’s energy than usual back out into space.

“It is possible that a fraction of the most recent rapid warming since the 1970′s was due to a free variation in climate,” Isaac Held of the National Oceanic and Atmospheric Administration in Princeton, New Jersey told Discovery News. “Suggesting that the warming might possibly slow down or even stagnate for a few years before rapid warming commences again,” he added.

“When the climate kicks back out of this state, we’ll have explosive warming. Thirty years of greenhouse gas radiative forcing will still be there and then bang, the warming will return and be very aggressive,” Swanson said. (ANI)

Filed Under: Science News Tagged With: , , , , , , , , , , , , , , , , , , ,