Baton Rouge LA (SPX) Jan 13, 2022 New research from LSU and the University of Florida suggests that...
New research from LSU and the University of Florida suggests that more shark attacks occur during fuller phases of the moon.
While the exact cause remains unclear, the researchers found that more shark attacks than average occur during periods of higher lunar illumination and fewer attacks than average occur during periods of lower illumination.
Many different types of animals show behaviors that are linked to moon phases yet few studies to date have looked at the connections between lunar phases and shark attacks.
What makes this research important is the abundance of data the researchers analyzed.
Their findings are based on a global shark attack record collected during a 55-year period from 1960 to 2015 from the International Shark Attack File housed in the Florida Museum of Natural History at the University of Florida.
Being able to crunch numbers for shark attacks across the globe and over the course of decades revealed a clear correlation between lunar phases and shark attacks, although the reasons why remain unknown.
"It's not a matter of more light at night for sharks to see. Most shark attacks occur in the daylight. However, the moon can exert other forces on Earth and its oceans in ways that are much more subtle-for example, the gravitation pull that we see affect the tides," said Steve Midway, LSU associate professor and researcher on the project.
The scientists say it is still too early to demonstrate that lunar illumination is a causative factor for shark attacks.
Their new data serves as a building block towards better understanding shark attacks and could be useful for developing recommendations for water-based recreational activities in the future.
LIN Yangting and LIN Honglei from the Institute of Geology and Geophysics of the Chinese Academy of Sciences observed water signals in reflectance spectral data from the lunar surface acquired by the Chang'E-5 lander, providing the first evidence of in-situ detection of water on the Moon.