Highlights
- Low levels of antidepressants are found in many water bodies, so animals like crayfish are often exposed to trace amounts of these drugs
- The researchers found that crayfish exposed to low levels of antidepressant medication behaved in ways that could make them more vulnerable to predators
- Consumers can reduce pharmaceuticals in water bodies by disposing of medications properly
GAINESVILLE ‒ Antidepressants can help humans emerge from the darkness of depression. Expose crayfish to antidepressants, and they too become more outgoing — but that might not be such a positive thing for these freshwater crustaceans, according to a new study led by scientists with the University of Florida.
“Low levels of antidepressants are found in many water bodies,” said A.J. Reisinger, lead author of the study and an assistant professor in the UF/IFAS soil and water sciences department. “Because they live in the water, animals like crayfish are regularly exposed to trace amounts of these drugs. We wanted to know how that might be affecting them,” he said.
Antidepressants can get into the environment through improper disposal of medications, Reisinger said. In addition, people taking antidepressants excrete trace amounts when they use the bathroom, and those traces can get into the environment through reclaimed water or leaky septic systems.
The researchers found that crayfish exposed to low levels of antidepressant medication behaved more “boldly,” emerging from hiding more quickly and spending more time searching for food.
“Crayfish exposed to the antidepressant came out into the open, emerging from their shelter, more quickly than crayfish not exposed to the antidepressant. This change in behavior could put them at greater risk of being eaten by a predator,” said Lindsey Reisinger, a co-author of the study and an assistant professor in the UF/IFAS fisheries and aquatic sciences program.
“Crayfish eat algae, dead plants and really anything else at the bottom of streams and ponds. They play an important role in these aquatic environments. If they are getting eaten more often, that can have a ripple effect in those ecosystems,” Lindsey Reisinger added.
In their study, conducted while A.J. Reisinger was a postdoctoral researcher at the Cary Institute of Ecosystem Studies, the scientists wanted to understand how crayfish respond to low levels of antidepressants in aquatic environments.
“Our study is the first to look at how crayfish respond when exposed to antidepressants at levels typically found in the streams and ponds where they live,” A.J. Reisinger said.
The researchers achieved this by recreating crayfish’s natural environment in the lab, where they could control the amount of antidepressant in the water and easily observe crayfish behavior.
Crayfish were placed in artificial streams that simulated their natural environment. Some crayfish were exposed to environmentally realistic levels of antidepressant in the water for a few weeks, while a control group was not exposed. The researchers used a common type of antidepressant called a selective serotonin reuptake inhibitor, or SSRI.
To test how antidepressant exposure changed crayfish behavior, researchers used something called a Y-maze. This maze has a short entrance that branches into two lanes, like the letter Y.
At the start of the experiment, the researchers placed each crayfish in a container that acted as a shelter, and that shelter was placed at the entrance to the maze.
When researchers opened the shelter, they timed how long it took for the crayfish to emerge. If the crayfish emerged, they had the choice of the two lanes in the Y-maze. One lane emitted chemical cues for food, while the other emitted cues that signaled the presence of another crayfish. The researchers recorded which direction the crayfish chose and how long they spent out of the shelter.
Compared to the control group, crayfish exposed to antidepressants emerged from their shelters earlier and spent more time in pursuit of food. They tended to avoid the crayfish side of the maze, a sign that the levels of antidepressants used in study didn’t increase their aggression.
“The study also found that crayfish altered levels of algae and organic matter within the artificial streams, with potential effects on energy and nutrient cycling in those ecosystems,” A.J. Reisinger said. “It is likely that the altered crayfish behavior would lead to further impacts on stream ecosystem functions over a longer time period as crayfish continue to behave differently due to the SSRIs. This is something we’d like to explore in future studies.”
The study, co-authored with Erinn Richmond of Monash University and Emma Rosi of the Cary Institute of Ecosystem Studies, is published in the journal “Ecosphere.”
Wondering how you can reduce the levels of antidepressants and other pharmaceuticals in water bodies? There are steps people can take, A.J. Reisinger said.
“The answer is not for people to stop using medications prescribed by their doctor. One big way consumers can prevent pharmaceuticals from entering our water bodies is to dispose of medications properly,” he said.
A.J. Reisinger has authored an Extension publication and infographic on how to dispose of unwanted medications properly and keep them out of water bodies.
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Not Acting Like Themselves: Antidepressants In Environment Alter Crayfish Behavior, Study Finds
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