El Nino

El Nino – Typical surface ocean circulation

El nino conditions

• Normal

• El nino – strong counter-current

El nino conditions

• Normal

• El nino – strong countercurrent

• Prentice Hall Textbook animation link

El Nino: Normal Conditions

• Prentice Hall Textbook animation link

El Nino: El Nino Development

• Prentice Hall Textbook animation link

El Nino: La Nina

Winter NH

• El Nino

• La Nina

Summer NH

• El Nino

• La Nina

El nino - precipitation

El nino - precipitation

Typical winter Effects

• El Nino

• La Nina

http://www.cpc.noaa.gov/products/analysis_monitoring/ensocycle/nawinter.html

El Nino – weak Aleutian High

La Nina – strong Aleutian High

El Nino: US Winter Temperatures

• Higher in mid continent• Lower in south

El Nino: US Winter Precipitation

• Higher in south and coastal regions

Flooding in San Francisco

During the winter of 1997-98, wind-driven waves and abnormally high sea levels significantly contributed to hundreds of millions of dollars in flood and storm damage in the San Francisco Bay region. Recent analyses by U.S. Geological Survey (USGS) scientists of nearly 100 years of sea-level records collected near the Golden Gate Bridge found that these abnormally high sea levels were the direct result of that year's El Niño atmospheric phenomenon.

Flooding in San Francisco

• Less land sea winds with El nino conditions result in higher sea level.

http://geopubs.wr.usgs.gov/fact-sheet/fs175-99/

Hurricanes• El Niño contributes to more eastern Pacific hurricanes and fewer

Atlantic hurricanes. – Average US damage = $5.9 billion

• La Niña contributes to fewer eastern Pacific hurricanes and more Atlantic hurricanes.– Average US damage = $2.0 billion

US hurricane damage

US TornadosTornado activity

Depends on the location of the polar jet stream (and thus the location an movement of mid-latitude cyclones)

• El Nino: More to the south

• La Nina: more to the north

AKprecip

(in)

• El Nino:

• Nov- Dec

AKTemperature

• El Nino:

• Feb - Apr

Prediction of El Nino• Satellites

– provide data on tropical rainfall, wind, and ocean temperature patterns, as well as changes in conditions for hurricane formation.

• Ocean buoys – help to monitor sea-surface and upper ocean

temperatures.

• Radiosondes – balloon-borne instrument platforms with radio

transmitting capabilities, help to monitor global weather and climate patterns

• Super computers – gather all of the weather data around the world and

put it into useful formats used by scientists.– Run models for future change