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Nuclear Niño response observed in simulations of nuclear war scenarios

Earth Sciences

Nuclear Niño response observed in simulations of nuclear war scenarios

J. Coupe, S. Stevenson, et al.

This study reveals how smoke from nuclear war fires could trigger a significant climate response in the equatorial Pacific Ocean, leading to a drastic reduction in phytoplankton productivity and an extreme climate impact lasting up to seven years. Conducted by Joshua Coupe, Samantha Stevenson, and their colleagues, it highlights the potential for nuclear war to severely disrupt environmental stability and food security.

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~3 min • Beginner • English
Abstract
The climate impacts of smoke from fires ignited by nuclear war would include global cooling and crop failure. Facing increased reliance on ocean-based food sources, it is critical to understand the physical and biological state of the post-war oceans. Here we use an Earth system model to simulate six nuclear war scenarios. We show that global cooling can generate a large, sustained response in the equatorial Pacific, resembling an El Niño but persisting for up to seven years. The El Niño following nuclear war, or Nuclear Niño, would be characterized by westerly trade wind anomalies and a shutdown of equatorial Pacific upwelling, caused primarily by cooling of the Maritime Continent and tropical Africa. Reduced incident sunlight and ocean circulation changes would cause a 40% reduction in equatorial Pacific phytoplankton productivity. These results indicate nuclear war could trigger extreme climate change and compromise food security beyond the impacts of crop failure.
Publisher
Communications Earth & Environment
Published On
Jan 22, 2021
Authors
Joshua Coupe, Samantha Stevenson, Nicole S. Lovenduski, Tyler Rohr, Cheryl S. Harrison, Alan Robock, Holly Olivarez, Charles G. Bardeen, Owen B. Toon
Tags
nuclear war
climate impacts
equatorial Pacific Ocean
Earth system model
phytoplankton productivity
Nuclear Niño
food security

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