Written by Louise Tosetto, PhD Candidate Marine Ecology, Macquarie University; Culum Brown, Associate Professor, Macquarie University, and Jane Williamson, Associate Professor in Marine Ecology, Macquarie University
Up to 236,000 tonnes of microplastics – tiny pieces of broken-down plastic smaller than your little fingernail – enter our oceans each year. This has researchers around the world worried, as wildlife can be harmed by eating the plastic or by toxins attached to it.
Another concern is that these plastics and toxins could accumulate in food chains, eventually making their way into animals that eat ocean creatures – such as ourselves.
In two recent studies (one in Marine Biology and the other in Animal Behaviour) we found that microplastics can indeed be passed up the food chain to fish. But we also found some good news: the microplastics appeared to have no effect on their behaviour.
Sweat the small stuff
Once in the ocean, persistent toxic chemicals such as bisphenol A (BPAs) and pesticides stick to and accumulate on plastic particles, adding extra layers of contamination.
It is possible that the contaminants on microplastics are absorbed by animals and enter the food chain. If they don’t kill the animals, these toxic chemicals may affect the animals’ behaviour and hormone levels.
The way an animal behaves in its environment is crucial. Sometimes pollutants don’t cause obvious health issues but may alter the way an animal feeds, moves or socialises. Exposure to some chemicals, for example, causes feminisation in males, resulting in reduced breeding activity and ultimately affecting a population’s stability.
Even minor changes in behaviour can affect how an animal performs and may have longer-term implications for survival and reproduction. These changes in behaviour can be an early warning that something is going on, like the canary in the coal mine.
Hop to it
We wanted to know whether microplastics pass through the food web. Microplastics accumulate on beaches, so we assessed how coastal animals respond when they ingest microplastics.
We contaminated microplastics by immersing them in Sydney Harbour for two months and then fed them directly to beach hoppers, small jumping crustaceans at the bottom of the coastal food web.
We then fed the plastic-contaminated beach hoppers to gobies – small fish that commonly eat crustaceans like beach hoppers.
The beach hoppers readily ate microplastics as part of their diet. We found that after just three days the microplastics had accumulated in the beach hoppers. After five days microplastics had caused weight gain, a reduction in the hoppers’ ability to hop, and in some cases death.
But the fish, which we fed with contaminated beach hoppers for four weeks, showed no difference in behaviour compared to fish who weren’t fed plastic-filled hoppers. This was a surprising result, given that hormones (important drivers of behaviour) are so sensitive to pollutants.
Sink or swim
It is vital we understand how animals that are exposed to microplastics are affected.
Beach hoppers are primary consumers, crucial to decomposing seaweed. They play a key role in cycling nutrients back into the beach. They are also an important food source for birds, insects and fish, which makes the hoppers essential in moving energy up the food chain.
If microplastics harm beach hoppers, then the processes carried out by the hoppers may also be affected. This in turn could mean a change in essential coastal processes.
If beach hoppers can’t hop as far or as high, they may not not able to find shelter as quickly, putting them at risk of being eaten or of drying out in the exposed environments of sandy beaches. Fewer beach hoppers could mean less decomposition and nutrient recycling, as well as less food available for animals higher in the food chain.
Gobies are middle-sized predators that live in shallow waters and are important in the connectivity between coastal environments and the deeper ocean. Gobies are themselves eaten by larger fish and sea birds.
We know that fish behaviour can change following exposure to high levels of carbon dioxide and pharmaceuticals, but our study suggests that munching on beach hoppers full of microplastics has little effect.
These results challenge the paradigm that microplastics help contaminants accumulate in the food chain. A recent study suggests that contaminants obtained from the natural environment and prey far outweigh what is absorbed from ingested microplastics, which explains our result.
While this study suggests that microplastics may not be increasing contamination in an obvious manner, there is little doubt about their impact on animals that directly consume them. Perhaps impacts on behaviour will be more apparent with longer exposure times to contaminated food sources than those in our study.
After all, it can’t be a good thing that microplastics are so abundant in the oceans that they will leave an undeniable signature in the fossil record.
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