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Groundwater helium level could signal potential risk of earthquake

Earthquake shows link between helium levels and stress on rock layer

Date:
November 29, 2016
Source:
University of Tokyo
Summary:
A relationship between helium levels in groundwater and the amount of stress exerted on inner rock layers of the earth, found at locations near the epicenter of the 2016 Kumamoto earthquake, has now been revealed by researchers. The scientists hope the finding will lead to the development of a monitoring system that catches stress changes that could foreshadow a big earthquake.
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Japanese researchers have revealed a relationship between helium levels in groundwater and the amount of stress exerted on inner rock layers of Earth, found at locations near the epicenter of the 2016 Kumamoto earthquake. Scientists hope the finding will lead to the development of a monitoring system that catches stress changes that could foreshadow a big earthquake.

Several studies, including some on the massive earthquake in Kobe, Japan, in 1995, have indicated that changes to the chemical makeup of groundwater may occur prior to earthquakes. However, researchers still needed to accumulate evidence to link the occurrence of earthquakes to such chemical changes before establishing a strong correlation between the two.

A team of researchers at the University of Tokyo and their collaborators found that when stress exerted on Earth's crust was high, the levels of a helium isotope, helium-4, released in the groundwater was also high at sites near the epicenter of the 2016 Kumamoto earthquake, a magnitude 7.3 quake in southwestern Japan, which caused 50 fatalities and serious damage.

The team used a submersible pump in deep wells to obtain groundwater samples at depths of 280 to 1,300 meters from seven locations in the fault zones surrounding the epicenter 11 days after the earthquake in April 2016. They compared the changes of helium-4 levels from chemical analyses of these samples with those from identical analyses performed in 2010.

"After careful analysis and calculations, we concluded that the levels of helium-4 had increased in samples that were collected near the epicenter due to the gas released by the rock fractures," says lead author Yuji Sano, a professor at the University of Tokyo's Atmosphere Ocean Research Institute.

Furthermore, scientists estimated the amount of helium released by the rocks through rock fracture experiments in the laboratory using rock samples that were collected from around the earthquake region. They also calculated the amount of strain exerted at the sites for groundwater sample collection using satellite data. Combined, the researchers found a positive correlation between helium amounts in groundwater and the stress exertion, in which helium content was higher in areas near the epicenter, while concentrations fell further away from the most intense seismic activity.

"More studies should be conducted to verify our correlation in other earthquake areas," says Sano. "It is important to make on-site observations in studying earthquakes and other natural phenomena, as this approach provided us with invaluable insight in investigating the Kumamoto earthquake," he adds.


Story Source:

Materials provided by University of Tokyo. Note: Content may be edited for style and length.


Journal Reference:

  1. Yuji Sano, Naoto Takahata, Takanori Kagoshima, Tomo Shibata, Tetsuji Onoue, Dapeng Zhao. Groundwater helium anomaly reflects strain change during the 2016 Kumamoto earthquake in Southwest Japan. Scientific Reports, 2016; 6: 37939 DOI: 10.1038/srep37939

Cite This Page:

University of Tokyo. "Groundwater helium level could signal potential risk of earthquake." ScienceDaily. ScienceDaily, 29 November 2016. <www.sciencedaily.com/releases/2016/11/161129152509.htm>.
University of Tokyo. (2016, November 29). Groundwater helium level could signal potential risk of earthquake. ScienceDaily. Retrieved March 27, 2024 from www.sciencedaily.com/releases/2016/11/161129152509.htm
University of Tokyo. "Groundwater helium level could signal potential risk of earthquake." ScienceDaily. www.sciencedaily.com/releases/2016/11/161129152509.htm (accessed March 27, 2024).

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