Science Market Update

Michigan Life Science Researchers Pinpoint Rising Mercury in Fish

Written by Sam Asher | Thu, Sep 19, 2013

It has long been known that mercury, which in high enough levels is toxic to humans, is found in several kinds of fish. But the reason fish contain mercury in the first place has always eluded us- until now. Life science researchers at the University of Michigan, Ann Arbor have found the reasons (indeed, there are multiple) and have concluded that the levels of mercury in fish are actually rising to this day.

The highest levels of mercury are found in large, deep-sea fish like swordfish and opah (also known as moonfish). Prevailing wisdom holds that since these fish eat fish that in turn have eaten other fish, the chain of consumption compounds their intake of mercury. While this makes sense on the surface, it doesn’t fully account for the large amounts of mercury in these fish. In addition, there has been a recent increase in the mercury levels of these fish, which would be unexplainable if their mercury intake was directly and exclusively related to their carnivorous tendencies.

(A preserved opah, courtesy Andrew Butko)

There was something deeper at work here, and the Michigan bioresearchers found it about 2000 feet below the ocean’s surface. There they discovered bacteria that produce the toxic form of mercury known as methylmercury. This explains why deep-sea fish have particularly high levels of toxic mercury: their waters are filled with bacteria that pump it into the water.

This leaves open the question of why these levels have been increasing as of late, however. The researchers took a closer look at the bacteria in question and found that they consume mercury in order to produce this methylmercury. Samples taken from the surface above these bacteria, like in the North Pacific Subtropical Gyre, revealed a high level of mercury on the surface of the water.

(The North Pacific Subtropical Gyre, better known to some as the Great Pacific Garbage Patch. Photo courtesy Lea Kelley)

To finish their sleuthing act, the bioresearchers compared these mercury isotopes to those emitted from coal-burning power plants and found a perfect match. This finally explained the recent increase: rapid human industrialization increases mercury emissions, which eventually make their way into fish that we catch and eat.

"The implications are that if we're going to effectively reduce the mercury concentrations in open-ocean fish, we're going to have to reduce global emissions of mercury, including emissions from places like China and India," said U-M (principal) investigator Joel Blum in a U-M article. "Cleaning up our own shorelines is not going to be enough. This is a global atmospheric problem."

Thus, it’s up to the developing and developed countries of this world to reduce mercurial waste, for our own health. This study was undertaken with help from researchers from the University of Hawaii and funding from the National Science Foundation, the John D. MacArthur Professorship, the Pelagic Fisheries Research Program at the University of Hawaii, and the University of Hawaii Sea Grant. For a more in-depth analysis of research funding and grants awarded to the University of Michigan, Ann Arbor, take advantage of our complimentary Funding Stats and Vendor Show Info report:

 

Biotechnology Calendar, Inc. pays a visit to the University of Michigan each year for its Ann Arbor BioResearch Product Faire™ held annually. Biotechnology Calendar is a full service event company that has produced on-campus, life science research trade shows nationwide for the past 20 years. We plan and promote each event to bring the best products and services to the finest research campuses across the country. If you are a university researcher or a laboratory product vendor, consider attending one of our on-campus trade shows: here is our 2013 schedule.