[font face=Serif][font size=5]Toxic Mercury in Aquatic Life Could Spike with Greater Land Runoff[/font]
[font size=4]Rutgers Jeffra Schaefer helped conduct study on the potential impact of climate change and rising methylmercury levels on the marine food web[/font]
Friday, January 27, 2017
By Todd B. Bates
[font size=3]A highly toxic form of mercury could jump by 300 to 600 percent in zooplankton tiny animals at the base of the marine food chain if land runoff increases by 15 to 30 percent, according to a new study.
And such an increase is possible due to climate change, according to the pioneering study by Rutgers and other scientists
published today in
Science Advances.
With climate change, we expect increased precipitation in many areas in the Northern Hemisphere, leading to more runoff, said
Jeffra K. Schaefer, study coauthor and assistant research professor in Rutgers
Department of Environmental Sciences. That means a greater discharge of mercury and organic carbon to coastal ecosystems, which leads to higher levels of mercury in the small animals living there. These coastal regions are major feeding grounds for fish, and thus the organisms living there serve as an important source of mercury that accumulates to high levels in the fish people like to eat.
The study showed that an increase in natural organic matter entering coastal waters can boost the bioaccumulation of
methylmercury a highly toxic chemical found at elevated levels in
many species of fish in zooplankton by 200 to 700 percent. The huge increase in methylmercury shifts the food web from being autotrophic (largely microscopic plants and cyanobacteria that make food from inorganic matter) to heterotrophic (bacteria that eat organic matter produced by plants and cyanobacteria).
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