Mangroves and seagrasses absorb microplastics
Microplastics do not just end up in the open sea – in fact, a lot also end up in the ecosystems of the coastal zones, a new study shows and this may threaten wildlife.
Mangroves and seagrasses grow in many places along the coasts of the world, and these ‘blue forests’ constitute an important environment for a large number of animals. Here, juvenile fish can hide until they are big enough to take care of themselves; crabs and mussels live on the bottom; and birds come to feed on the plants.
However, the plant-covered coastal zones do not only attract animals but also microplastics, a new study shows.
– The denser the vegetation, the more plastic is captured, says Professor and expert in coastal ecology, Marianne Holmer, from the University of Southern Denmark.
The animals eat plastic
She is concerned about how the accumulated microplastics affect animal and plant life.
– We know from other studies that animals can ingest microplastics and that this may affect their organism.
Animals ingest microplastics with the food they seek in the blue forests. They may suffocate, die of starvation, or the small plastic particles can get stuck different places in the body and do damage.
May spread disease
Another problem with microplastics is that they may be covered with microorganisms, environmental toxins or other health hazardous/disease-promoting substances that are transferred to the animal or plant that absorbs the microplastics.
– When microplastics are concentrated in an ecosystem, the animals are exposed to very high concentrations, Marianne Holmer explains.
She points out that microplastics concentrated in, for example, a seagrass bed are impossible to remove again.
Worst in the mangrove forests
The study is based on examinations of three coastal areas in China, where mangroves, Japanese eelgrass (Z. japonica) and the paddle weed Halophila ovalis grow. All samples taken in blue forests had more microplastics than samples from control sites without vegetation.
The concentrations were up to 17.6 times higher, and they were highest in the mangrove forest. The concentrations were up to 4.1 times higher in the seagrass beds.
Mangrove trees probably capture more microplastics, as the capture of particles is greater in mangrove forests than in seagrass beds.
It’s my expectation that we will also find higher concentrations of microplastics in Danish and global seagrasses.
Researchers also believe that microplastics bind in these ecosystems in the same way as carbon; the particles are captured between leaves and roots, and the microplastics are buried in the seabed.
– Carbon capture binds carbon dioxide in the seabed, and the blue forests are really good at that, but it’s worrying if the same thing happens to microplastics, says Marianne Holmer.
Although the study was conducted along Chinese coasts, it may be relevant to similar ecosystems in the rest of the world, including Denmark, where eelgrass beds are widespread.
– It’s my expectation that we will also find higher concentrations of microplastics in Danish and global seagrasses, she says.
The study was conducted in collaboration with colleagues from the Zhejiang University in China, among others, and is published in the journalEnvironmental Science and Technology.
The blue forests
Lots of plants grow in or below sea level; mangroves, seaweed, seagrass and marsh plants. Especially mangroves and seagrasses absorb and store carbon like plants on land and are thus extremely important for the planet’s carbon footprint.
Meet the researcher
Marianne Holmer is a Professor of Biology and is particularly interested in the global decline of seagrasses. She is also Dean of the Faculty of Science and Director of the Danish Institute for Advanced Study.