ENSO El Niño Southern Oscillation

Earth Rocks!

21 Apr 201705:46

Summary

TLDRThe El Niño Southern Oscillation (ENSO) is a cyclic climate phenomenon with significant impacts on California. It alternates between two states: El Niño, which brings warmer ocean water and increased rainfall, and La Niña, which causes cooler waters and drier conditions. These shifts affect ocean currents, upwelling, and ecosystems, particularly along the Pacific coast. El Niño leads to coastal erosion, disrupted fish populations, and higher mortality in marine mammals, while La Niña intensifies droughts and fires in the western Pacific. ENSO events, which can last 1-7 years, drastically influence weather patterns and marine life.

Takeaways

😀 ENSO (El Niño Southern Oscillation) is a cyclic climate phenomenon with two main phases: El Niño and La Niña.
😀 The oscillation between El Niño and La Niña can occur with varying intervals and intensities, affecting global climate patterns.
😀 In normal conditions, trade winds push surface water westward across the Pacific, leading to upwelling of cold, nutrient-rich water in the eastern Pacific.
😀 The upwelling in the eastern Pacific supports one of the world’s largest ecosystems and highly productive fisheries.
😀 La Niña occurs when trade winds strengthen, increasing upwelling and cooling the eastern Pacific, leading to drier conditions in the east and more rainfall in the west.
😀 El Niño happens when trade winds weaken or reverse, causing warm water to shift eastward, disrupting upwelling and decreasing nutrient availability.
😀 El Niño results in coastal erosion, increased wave energy, and disruptions to marine life, including fish, sea lions, and seals.
😀 During El Niño, the eastern Pacific experiences more rainfall, while the western Pacific faces droughts and fires due to less moisture.
😀 Sea surface temperatures in the eastern Pacific can be used to determine whether the region is experiencing El Niño or La Niña conditions.
😀 ENSO events last between 1 to 7 years, and their intensity can vary, with each state (El Niño or La Niña) impacting the climate differently.
😀 California is heavily impacted by ENSO, with El Niño bringing warmer waters and more rain, while La Niña results in cooler, drier conditions along the coast.

Q & A

What is ENSO, and how does it impact California?
-ENSO (El Niño Southern Oscillation) is a cyclic climate phenomenon that alternates between two extreme climate states: El Niño and La Niña. This oscillation affects weather patterns globally, including California, by influencing rainfall, temperature, and ocean currents. During El Niño, California experiences increased rainfall and warmer ocean waters, while La Niña brings drier conditions and colder ocean currents.
What are the two end-member states of ENSO, and how do they differ?
-The two end-member states of ENSO are El Niño and La Niña. El Niño occurs when the pressure systems weakening or reversing the trade winds lead to warmer waters in the eastern Pacific, reducing upwelling and affecting marine ecosystems. La Niña, on the other hand, intensifies the trade winds and upwelling, leading to colder waters in the eastern Pacific and stronger weather patterns in the west.
How does the trade wind system function under normal ENSO conditions?
-Under normal ENSO conditions, the trade winds blow from the east to the west across the equatorial Pacific. This movement of winds pushes surface waters westward, creating a dome of water that piles up off the coasts of northern Australia and Indonesia. This system also facilitates nutrient-rich upwelling in the eastern Pacific, supporting diverse marine ecosystems.
What is the role of upwelling in the eastern Pacific during normal ENSO conditions?
-Upwelling in the eastern Pacific is crucial for bringing cold, nutrient-rich deep water to the surface. This supports a large ecosystem and productive fisheries, as the nutrients nourish the autotrophic organisms at the base of the food web.
What happens during a La Niña event?
-During a La Niña event, the trade winds strengthen, increasing the intensity of upwelling in the eastern Pacific. This leads to colder surface waters in the region, greater rainfall in the western Pacific, and drier conditions in the eastern Pacific. It also supports stronger marine ecosystems in the west but intensifies drought conditions in affected areas.
How does El Niño differ from La Niña in terms of atmospheric and oceanic conditions?
-El Niño occurs when the trade winds weaken or reverse, causing the warm waters from the western Pacific to move eastward. This halts upwelling and disrupts the marine food web. La Niña, conversely, is characterized by stronger trade winds, which enhance upwelling in the eastern Pacific, leading to colder waters and a more active marine ecosystem.
How can one determine whether the world is in an El Niño or La Niña state?
-A quick way to determine whether the world is in an El Niño or La Niña state is by observing the sea surface temperatures in the eastern equatorial Pacific. During El Niño, the surface waters are unusually warm due to the cessation of upwelling, while La Niña is associated with colder-than-normal surface waters as upwelling intensifies.
How long can ENSO states last, and how variable are their intensities?
-ENSO states can last anywhere from 1 to 7 years, with their intensity varying from event to event. Both El Niño and La Niña can exhibit differing strengths during each cycle, influencing the global climate and regional weather patterns.
What are the consequences of El Niño for California's weather and ecosystems?
-During El Niño, California experiences warmer ocean waters and increased rainfall, which can lead to flooding and coastal erosion. The disruption of marine ecosystems causes a decline in fish populations, which affects local wildlife like birds, seals, and sea lions. The 1983 El Niño event, for instance, resulted in high mortality rates for marine mammals.
What was the impact of the 1983 El Niño event on California?
-The 1983 El Niño event brought extreme weather conditions to California, including significant flooding, coastal erosion, and high mortality rates for marine mammals. The warm waters from the equator disrupted the local food chains, leading to a decline in fish populations and affecting the broader ecosystem.