New study shows mechanisms of Hagfish burrowing into deep sea sediment

Scientists at the Schmid College of Science and Technology at Chapman University developed a novel way to observe the elusive burrowing behavior of hagfish. Dr. Douglas S Fudge and his team created a specialized tank of transparent gelatin in order to visualize how the hagfish behave and locomote within sediments. 

Hagfishes are bottom-dwelling marine animals that are capable of producing startling amounts of defensive slime when they are provoked. Understanding the burrowing activities of hagfishes could lead to increased knowledge of sediment turnover in marine benthic habitats, new insights into the reproductive behavior of hagfishes or even inspiration for the design of burrowing robots.

The new research, “Biphasic burrowing in Atlantic hagfish” published today, June 17 in The Journal of Experimental Biology builds upon Fudge’s previous work with hagfishes. Until now, how hagfish create burrows, how they move within them, and the final structure of the burrows have been enigmatic because the opacity of sediment obscures a clear view. 

The scientists discovered that hagfish create a u-shaped burrow by utilizing a ‘thrash’ phase with vigorous swimming coupled with side- to-side head movements followed by a ‘wriggle’ phase that continues until the head of the hagfish pops up out of the substrate. They found that the wriggle phase seems to be powered by a burrowing strategy known as “internal concertina,” which is also used by a specialized group of burrowing snakes and a group of burrowing amphibians known as caecilians.  

“For a long time we’ve known that hagfishes can burrow into soft sediments, but we had no idea how they do it. By figuring out how to get hagfish to voluntarily burrow into transparent gelatin, we were able to get the first ever look at this process.”  

Fudge’s research could have wide-ranging ecological implications. Hagfish burrowing likely has important effects on sediment turnover, and, through ventilation of their burrows, on the redox chemistry of the sediment. Sediment near a hagfish burrow that might otherwise be anoxic might contain substantial amounts of oxygen, thus altering the kinds of organisms that can live there.

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About Chapman University

Founded in 1861, Chapman University is a nationally ranked private university in Orange, California, about 30 miles south of Los Angeles. Chapman serves nearly 10,000 undergraduate and graduate students, with a 12:1 student-to-faculty ratio. Students can choose from 123 areas of study within 11 colleges for a personalized education. Chapman is categorized by the Carnegie Classification as an R2 “high research activity” institution. Students at Chapman learn directly from distinguished world-class faculty including Nobel Prize winners, MacArthur fellows, published authors and Academy Award winners. The campus has produced a Rhodes Scholar, been named a top producer of Fulbright Scholars and hosts a chapter of Phi Beta Kappa, the nation’s oldest and most prestigious honor society. Chapman also includes the Harry and Diane Rinker Health Science Campus in Irvine. The university features the No. 4 film school and No. 60 business school in the U.S. Learn more about Chapman University: www.chapman.edu.