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Hurricane Nicole sheds light on how storms impact the deep ocean

Hurricane ultimately triggered an algae bloom

scientists and crew of the R/V Atlantic Explorer recover a deep ocean sediment trap

Scientists recover a deep ocean sediment trap from a mooring in the Sargasso Sea.


September 24, 2019

In early October 2016, tropical storm Nicole formed in the middle of the Atlantic Ocean. It roamed for six days, reaching Category 4 hurricane status with powerful 140 miles per hour winds, before hitting the tiny island of Bermuda as a Category 3.

Hurricanes like Nicole can cause significant damage to human structures on land and can often permanently alter landscapes. But these powerful storms also affect the ocean.

Scientists have a good understanding of how hurricanes impact the surface layer of the ocean -- the sunlit zone where photosynthesis occurs. The strong winds of hurricanes churn colder water from lower depths, bringing nutrients such as nitrogen and phosphorus to the surface and stimulating short-lived algae blooms. However, until recently, geoscientists didn't know much about how hurricanes impact the deep ocean.

A new study of Hurricane Nicole by researchers at the Marine Biological Laboratory in Woods Hole, Massachusetts, and the Bermuda Institute of Ocean Sciences shows that Nicole had a significant effect on the ocean's carbon cycle and deep-sea ecosystems.

The results, published in Geophysical Research Letters, demonstrate the first direct evidence that hurricanes affect the ocean's biological pump, a process in which living organisms transfer carbon from the surface to deeper ocean layers and the seafloor.

"The availability of long-term, nearly continuous observing programs like those near Bermuda gives us the ability to study sudden and extreme events against an understanding of 'normal' conditions," said Hedy Edmonds, a program director in NSF's Division of Ocean Sciences, which funded the research.

--  NSF Public Affairs, (703) 292-7090 media@nsf.gov