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Study reveals Hawaiian hotspot is getting hotter
Contrary to conventional geological thinking, the Hawaiian mantle plume has gotten hotter by about 250°C (480°F) over the past 47 million years. This discovery, led by Earth scientists at the University of Hawai'i at Mānoa, reverses the long-held idea that hotspots start out very hot and progressively cool over time. The study, published recently in Earth and Planetary Science Letters, also found that heat surges produced the two largest volcanoes along the Northwestern and Main Hawaiian Island chain.
The Hawaiian Ridge consists of 65 volcanoes spread over 3,500 km (2,179 miles) that formed during the past 47 million years as the Pacific Plate slowly moved over the Hawaiian hotspot, where a plume of molten material flows out of Earth's crust. A team of researchers, led by Michael Garcia, emeritus professor of Earth sciences in the UH Mānoa School of Ocean and Earth Science and Technology, set out to evaluate hypotheses that might explain the 100-fold fluctuation in lava volume along this ridge. By examining olivine basalts from 16 volcanoes, the researchers assessed four testable causes, including changes in lithosphere thickness, magma source composition, the rate of Pacific Plate movement and plume temperature.
"It was a major surprise to find such a strong, direct correlation between mantle temperatures and volcano size," said Garcia. "Other potential explanations simply failed to explain the data."
To uncover this connection, the team developed a cutting-edge "geothermometer" to estimate the temperature of the lava when it first formed deep within Earth's mantle. They paired these temperatures with recent, comprehensive ocean floor surveys to calculate more accurate estimates of volcano size along the Hawaiian Ridge.
The results show an overall increase in lava temperature with two heat surges: one 14–20 million years ago, which formed Pūhāhonu, the largest and longest-lived shield volcano in the past 60 million years, and the other forming the Hawaiian Islands 0–6 million years ago.
"The development of the new geothermometer allows one to better understand the history of volcanoes and why some are larger than others," Garcia added.
The researchers suggest that the overall increase in Hawaiian mantle plume temperature is possibly related to the drifting of dense, hot material in the lowermost mantle.
Publication details
Michael O. Garcia et al, Taking the temperature of the Hawaiian plume using multiple geochemical approaches: Evidence for secular heating from 47 Ma to present, Earth and Planetary Science Letters (2026). DOI: 10.1016/j.epsl.2026.120055
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Citation: Study reveals Hawaiian hotspot is getting hotter (2026, July 14) retrieved 14 July 2026 from https://phys.org/news/2026-07-reveals-hawaiian-hotspot-hotter.html
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