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Study: Phytoplankton Bloom Detectable by Satellite, Fueled by 2018 Kīlauea Eruption

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An extensive plume of microbes, detectable by satellite, was fueled by lava from the 2018 Kīlauea eruption.  That according to a study led by researchers at the University of Hawai‘i at Mānoa and University of Southern California (USC) and published today in the journal Science.

According to the study, the eruption injected millions of cubic feet of molten lava into waters off the Big Island, with high concentrations of nutrients that stimulated phytoplankton growth.

Kilauea lava entry site on the southeast coastline of Hawaii. Credit: Karin Bjorkman, UHM SOEST.

A study revealed that this biological response hinged on unexpectedly high concentrations of nitrate, despite the negligible amount of nitrogen in basaltic lava. The research team determined that nitrate was brought to the surface ocean when heat from the substantial input of lava into the ocean warmed nutrient-rich deep waters and caused them to rise up, supplying the sunlit layer with nutrients.

After observing the phytoplankton bloom in satellite images, the UH Mānoa Center for Microbial Oceanography: Research and Education (C-MORE) organized a rapid response oceanographic expedition on UH research vessel Ka‘imikai-O-Kanaloa from July 13 to 17, 2018—in the thick of Kilauea’s activity.

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The team conducted round-the-clock operations in the vicinity of the lava entry region to test water chemistry and the biological response to the event.

Kilauea lava entry off Hawai‘i Island from UH research vessel KOK. Credit: Ryan Tabata, UHM SOEST.

Co-lead authors Sam Wilson at C-MORE and Nick Hawco, a USC researcher who will be joining the UH Mānoa Oceanography Department in January 2020, tested the hypothesis that lava and volcanic dust would stimulate microorganisms that are limited by phosphate or iron, which are chemicals found in lava.

As it turned out, since there was so much lava in the water, the dissolved iron and phosphate combined into particles, making those nutrients unavailable for microbes. Further, deep, heated seawater became buoyant and brought up nitrate which caused other classes of phytoplankton to bloom.

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Researchers say it is possible that this mechanism has led to similar ocean fertilization events in the past associated with the formation of the Hawaiian Islands and other significant volcanic eruptions, the authors suggest.

Depending on their location, sustained eruption on this scale could also facilitate a large flux of nitrate from the deep ocean and perturb larger scale ocean circulation, biology and chemistry.

“The expedition in July 2018 provided a unique opportunity to see first-hand how a massive input of external nutrients alters marine ecosystems that are finely attuned to low-nutrient conditions,” said Wilson. “Ecosystem responses to such a substantial addition of nutrients are rarely observed or sampled in real time. UH has a strong tradition of not only volcanic research, but also looking at its impacts on the surrounding environment such as the ocean, groundwater, atmosphere. This latest piece of research improves our understanding of lava-seawater interactions within the much broader context of land-ocean connections.”

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In the future, the team hopes to sample the newly-formed ponds at the bottom of the Halema‘uma‘u crater and further investigate lava-seawater interactions in the laboratory.

Kilauea lava entry site on the southeast coastline of Hawaii. Credit: Karin Bjorkman, UHM SOEST.

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