The El Niño-Southern Oscillation (ENSO)
Floods and mudslides in Ecuador, droughts and wildfires in Australia, and extreme California rainstorms – could all these events be related? Yes, they can. They are all affected by changes in the ocean and atmosphere called the El Niño-Southern Oscillation (ENSO).
Normally, winds move seawater at the ocean surface from the eastern part of the tropical Pacific to the western Pacific Ocean. Because the surface water is moving west, cold deep water comes to the surface in the eastern Pacific, a process called upwelling. The western Pacific is in a low pressure system and has wet weather. The eastern Pacific, in a high pressure system, is dry. But every few years the atmosphere and ocean changes during El Niño and La Niña events – the two extremes of ENSO.
During El Niño events, the difference in air pressure across the Pacific shrinks, causing the winds to weaken. Without wind pushing seawater west, the warm water of the western Pacific spreads east. Water piles up in the eastern tropical Pacific, causing the ocean surface to become higher. The extra water in the eastern Pacific causes the upwelling to weaken.
During La Niña the winds grow stronger across the Pacific because the low pressure over the western Pacific and the high pressure over the central and eastern Pacific both get larger. This causes more upwelling of ocean water in the eastern Pacific.
Both El Niño and La Niña events can have far-reaching effects. Intense rainstorms and flooding, extreme droughts, the strength of the Atlantic hurricane season, and the number of winter storms in many areas of the world are affected by ENSO events. ENSO may also have an impact on the North Atlantic Oscillation. These impacts are called teleconnections.