Tuesday, July 7, 2015

El Nino forming across the Pacific has been turbocharged by a series of tropical cyclones that helped to shift the direction of trade winds

El Nino Gets Reinforced by Cyclones as Event to Last Until 2016

The El Nino forming across the Pacific has been turbocharged by a series of tropical cyclones that helped to shift the direction of trade winds, potentially adding to warming that’s evoking parallels with the record 1997-98 event.

Several cyclones, including a rare storm in the Southern Hemisphere this month, resulted in a strong reversal of trade winds near the equator, Australia’s Bureau of Meteorology said on its website on Tuesday. That’s set to increase temperatures below the surface, which then may raise sea-surface temperatures further in the coming months, it said in a fortnightly update.

El Ninos can affect weather worldwide by baking Asia, dumping rain across South America and bringing cooler summers to North America. This year’s pattern, the first since 2010, will probably bring warmer, drier weather to palm oil regions in Southeast Asia, Malayan Banking Banking Bhd. warned on Tuesday. Tropical commodities including palm oil are to be favored over other raw materials such as gold and copper this half as the El Nino raises risks, according to Oversea-Chinese Banking Corp.

The “El Nino will persist until at least the end of 2015,” the Australian bureau said. “Models also indicate that further warming is likely. Historically, El Nino reaches its peak strength during the late spring or early summer,” it said, referring to seasons in the southern hemisphere.

Three of five sea-surface temperature indexes are at their warmest sustained weekly value since the 1997-98 event, the bureau said. The so-called temperature anomaly in the central Pacific in June was the second warmest on record for the month, behind only 1997, it said. The El Nino of 1997-98 was the strongest on record, according to data collated by the National Oceanic and Atmospheric Administration.


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El Nino Likely to Last Through Winter 2015-2016, NOAA Says

By Jon Erdman
Published Jun 11 2015 10:08 AM EDT
weather.com

Strong El Nino Possible: What Does It Mean?

Meteorologist Ari Sarsalari talks about a strong forecast El Nino that will have several effects on the U.S.  

El Nino has an 85 percent chance of lasting through winter 2015-2016, according to an updated forecast released on Thursday by the National Oceanic Atmospheric Adminisration (NOAA). NOAA also reported that there is a greater than 90 percent chance of El Nino lasting through the fall.

El Nino is an anomalous, yet periodic, warming of the central and eastern equatorial Pacific Ocean. For reasons still not well understood, every 2-7 years, this patch of ocean warms for six to 18 months.

The declaration that El Nino is likely to last through winter is important for the United States since precipitation and temperature impacts from a moderate-to-strong El Nino are typically most noticeable during the cold season. We have more on what those impacts are later in this article.

Sea-surface temperatures compared to average in the Pacific Ocean. The area highlighted by the white rectangle shows the warmer-than-average waters of the equatorial Pacific Ocean.  (NOAA)
NOAA reports that sea-surface temperature anomalies increased during the month of May in the equatorial Pacific Ocean. In addition, NOAA says that many computer models are predicting that sea-surface temperature anomalies will continue to increase through the fall.

Statistical and dynamical model forecasts from May 2015 of sea-surface temperature anomalies (degrees Celsius) until March 2016 in the region of the equatorial Pacific Ocean in which El Nino is defined.  
There's also an increasing chance El Nino may become moderate or strong, and, thus, play a stronger role in your weather. Hurricane Specialist Eric Blake of the National Hurricane Center tweeted on June 9 that more than 80 percent of model members from the North American Multi-Model Ensemble are forecasting a strong El Nino to develop by the end of summer.
What does warm water have to do with the weather? 

Schematic comparison of sea-surface temperature and most persistent rain/thunderstorm locations in neutral vs. El Nino conditions in the equatorial Pacific Ocean.   (NOAA)

A 'Sea Change' in Atmospheric Circulation

Typically, easterly trade winds near the equator pile warm water into the western Pacific Ocean. Conversely, the resultant upwelling, or upward movement of deep, cold ocean water keeps the eastern and central Pacific Ocean cooler.
Thunderstorms require at least some degree of warm, humid air near the surface, so they're more numerous and persistent over the western Pacific warm pool, and much less so in the eastern equatorial Pacific. 
During an El Nino, these trade winds weaken, and may at times reverse from west to east. Warmer western Pacific water then slowly sloshes back toward the central, even eastern Pacific Ocean in what's known as an equatorial-trapped Kelvin wave.
Therefore, the most persistent thunderstorms will shift from the western to the eastern and central Pacific Ocean in an El Nino. 
This trade wind reversal and the resulting reorientation of thunderstorms changes the atmospheric circulation not just over this swath of the equatorial Pacific Ocean, but can also have far-reaching impacts on the atmospheric circulation.

Weather Impacts

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Typical precipitation departures from late fall (Nov.) through winter (Mar.) during a moderate to strong El Nino.  (NOAA/CPC)
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Typical temperature departures from late fall (Nov.) through winter (Mar.) during a moderate to strong El Nino.  (NOAA/CPC)
First, keep two things in mind throughout this discussion of potential impacts:
1) El Nino is not the sole driver of the atmosphere at any time. Day-to-day variability in the weather pattern, including blocking patterns, forcing from climate change and other factors all work together with El Nino to determine the overall weather experienced over the timeframe of a few months.
2) No two El Ninos are exactly alike. The intensity matters for impacts.
El Nino's clearest impact on northern hemisphere weather patterns occurs from late fall through winter.
Looking at past moderate-strong El Ninos, here are the upshots for temperatures and precipitation from late fall through winter in the U.S.:
- Wetter: Southern U.S. from California to the Carolinas then up parts of the East Coast
Drier: Parts of the Ohio Valley, Great Lakes, Northwest and Northern Rockies
Cooler: Desert Southwest, Southern Plains, northern Gulf Coast
Warmer: Northern tier of states from the Pacific Northwest to the Northern Plains, Great Lakes, and Northeast
Note these are impacts that are typically expected, but they aren't always the rule.
Residents of the western states may remember the flooding that struck California during the strong 1997-98 El Nino. In February 1998, a series of storms caused an estimated $550 million in damage and killed 17 people in California. A total of 35 counties were declared federal disaster areas. This fits into the bucket of the wetter-than-average winter you would typically expect in a moderate or strong El Nino.
Interestingly, during the previous winter there was also major flooding in California and it was even more costly with a total price tag of $1.8 billion, according to Jan Null, a consulting meteorologist in California. However, El Nino was not present that winter and rainfall for the season was near average. The flooding was the result of excessive rainfall that fell in a short time period combined with snowmelt from late December to early January.
The weak El Nino in the winter of 2006-07 provided a totally different story than what we saw in the very strong 1997-98 El Nino winter.
California had its 23rd driest winter season on record when looking at the three-month period from December 2006 to February 2007. In Los Angeles, the entire water year from July 2006 to June 2007 was the driest on record with just 3.21 inches of rainfall.
So, those hoping for drought relief next winter in the Golden State shouldn't immediately draw a conclusion that significant rains are ahead in any El Nino year. The strength of the El Nino can play a role in the outcome. In addition, heavy rainfall can occur with or without El Nino present and that was the case in the winter preceding the strong 1997 to 1998 El Nino.
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Stronger El Ninos can produce greater wind shear over parts of the Atlantic Basin. 

What About Hurricane Season?

There is a body of scientific evidence linking the occurrence of El Nino with increased wind shear in the tropical Atlantic Basin, which is one factor – along with dry air – that limits the development and strengthening of tropical cyclones.
Take the 2013 Atlantic hurricane season. Yes, 14 storms formed, but only two reached hurricane strength. Neither of these hurricanes reached major hurricane status, which is defined as Category 3 or stronger on the Saffir-Simpson Hurricane Wind Scale.
When considering overall season activity via the ACE index, 2013 was the least active Atlantic hurricane season since 1994. There was no El Nino in place in 2013.
Now, consider the 2004 Atlantic hurricane season. Four hurricanes - Charley, Frances, Ivan and Jeanne - hammered Florida in less than six weeks. There were 15 storms and nine hurricanes that season, which is an active one by any measure, and it developed despite a weak El Nino.
Taken together, the five El Nino hurricane seasons since 1995 averaged about 11 storms, 5 hurricanes, and 2-3 major hurricanes, a reduction of four storms, 3 hurricanes, and 1-2 major hurricanes from the average since 1995.
Prior to the current active phase of Atlantic hurricane activity (pre-1995), there were several other relatively slow hurricane seasons: 1982, 1986, 1987, 1991 and 1994. The 1982 season was particularly inactive, with only six tropical storms and two hurricanes. The next year, despite one of the strongest El Ninos on record finally fading by early summer, only four storms formed the entire season.
Exactly where the equatorial Pacific Ocean warms in an El Nino matters, as well.
  • Warming in the eastern equatorial Pacific: lower numbers of Atlantic tropical cyclones
  • Warming in the central equatorial Pacific: higher numbers of Atlantic tropical cyclones
As we've stated, El Nino is only one driver of the atmospheric circulation. Wind shear over the Atlantic Basin may be less on some days, despite being higher when averaged over an entire season.
While we have focused on numbers of storms and hurricanes, it's ultimately a storm's path that matters for impact. 
"Even if we get a strong El Nino, that doesn't mean no U.S impacts (from hurricanes or tropical storms)," says Dr. Phil Klotzbach, a tropical meteorologist and researcher at Colorado State University.
Klotzbach notes that Hurricane Betsy hit both Louisiana and Florida in 1965 and Agnes flooded out the eastern U.S. in 1972, both during strong El Ninos. All it takes is one intense, landfalling hurricane to make many forget an El Nino was even there.
So, ultimately, if El Nino does form, it may exert some influence on the numbers. However, that is not a sure thing, and all it takes is one hurricane making landfall in a populated area to change perceptions of an active season.