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Thursday, October 15, 2015

El Nino: Disrupting the Marine Food Web

This gallery was created for Earth Science Week 2015 and beyond. It includes a quick start guide for educators and first-hand stories (blogs) for learners of all ages by NASA visualizers, scientists and educators. We hope that your understanding and use of NASA's visualizations will only increase as your appreciation grows for the beauty of the science they portray, and the communicative power they hold. Read all the blogs and find educational resources for all ages at: http://ift.tt/1OKWxQV. In case you haven't heard, El Nino is starting to make headlines this year. Often nicknamed "the bad boy of weather," who is this guy? A long time ago, fishermen off the west coast of South America — one of the world's most productive fisheries — noticed that some years the fish disappeared. This was especially noticeable around Christmas time — giving it the name El Nino, which means Christ child in Spanish. Today we know why El Nino happens — but knowing when it will happen is still a challenge. Normally, winds blow from east to west along the equator, pushing surface water westward. As the water moves away from the east, nutrient-rich deeper ocean water rises to fill the void (called upwelling.) When nutrients rise into sunlight, they cause blooms of tiny plants called phytoplankton. These plants feed the entire marine food web from small fish such as sardines to bigger fish, sea birds, and marine mammals. When an El Nino develops, the normal east-to-west winds die and warm surface water from the west Pacific moves eastward. This stops the upwelling in the east. Without the supply of deeper, nutrient-rich water, less phytoplankton bloom and the fisheries collapse. From satellites in space we see how these changes impact the ocean's color. Normally, the ocean looks more green along the equator (image below, left.) During El Nino, the ocean looks more blue and less green because there is less plant life (images below, right.) While this color change is subtle to our eyes, it means life or death for the species that depend upon plankton for food. Some animals starve (e.g. sea lions, marine iguanas, Galapagos penguins) while others move away to look for food elsewhere. In addition to disrupting the marine food web and reducing the fish catch in the Pacific, El Nino is linked to unusual weather around the world: more typhoons in the Pacific, fewer hurricanes in the Atlantic, more rain in California, less rain in Southeast Asia and Australia, and warmer weather in South America. The monstrous 1997/98 El Nino led to extreme events with catastrophic consequences. There were floods and landslides in some places and extreme drought in others. This is how El Nino got his reputation as a "bad boy." We still can't predict El Nino more than a few months in advance and won't know its full strength until it peaks around December, but this year's El Nino is shaping up to be a bully. As a scientist, I've been studying the interaction of physical oceanography and biology over the past 50 years. I also create a series of short visualizations called ClimateBits that play on Science On a Sphere displays at museums and science centers. Here's one I made about El Nino using chlorophyll images (from the MODIS sensor onboard the Aqua satellite) and sea-surface temperatures (from NOAA AVHRR and NASA AMSR-E satellites and oceanic buoy measurements.) To give background on motion in the ocean that is key to this story, I start the piece with one of my favorite visualizations by the NASA Scientific Visualization Studio showing output from an ocean circulation model color coded with sea surface temperatures. To see it on YouTube and for more information about El Nino and other Earth science concepts, visit: http://climatebits.org. -- Stephanie Schollaert Uz, PhD, NASA GSFC, Earth Sciences Division, Ocean Ecology Lab

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