Plastic waste in the oceans: Floating garbage chutes are not the solution
Correction of the press release published on August 19, in which megatons and tons were used instead of metric tons.
Cleaning the seas from plastic waste cannot be achieved with technologies such as the Dutch “Ocean Cleanup” project. The private initiative aims to clean up the oceans by using floating barriers which are supposed to collect the plastic waste and bring it ashore. However, this contribution to cleaning up the ocean surface is very small, according to a recently published scientific study. „Technologies such as those proposed by the ‘The Ocean Cleanup’ project will not help us to solve the plastic problem,“ said Agostino Merico, researcher at the Leibniz Centre for Tropical Marine Research (ZMT) in Bremen and Professor of Ecological Modeling at Jacobs University Bremen.
„We urgently need to rethink how we produce, consume and dispose of plastic and how we can promote sustainable alternatives,“ said the co-author of the recently published study. Plastic waste is an acute threat to the global marine ecosystem. Many marine organisms eat or swallow plastic, often with deadly consequences. When plastics decompose, they release toxic and hormonally active additives, such as plasticizers, into the marine environment. These substances are then absorbed by organisms and eventually also by humans. The authors estimate that 399,000 metric tons of plastic currently pollute the oceans, 69,000 metric tons of which are microplastics. This corresponds to the weight of about 4,000 blue whales, the largest inhabitants of the oceans, which weigh on average about 100 metric tons. The study estimates that by the year 2052, the amount of plastic will reach 860,000 metric tons – that is more than double of the present-day quantities.
A number of private initiatives have set themselves the goal of cleaning the oceans from plastic waste. “Ocean Cleanup“, for example, is striving to clean up the „Pacific Garbage Patch“ in the North Pacific, the largest garbage swirl in the oceans, within 20 years. To achieve this, 600-meter-long floating barriers will be used to collect the plastic, which will later be recycled or incinerated on land.
The study, titled „The long-term legacy of plastic mass production“, used mathematical models to analyze the effects of using 200 waste chutes. In this scenario, they would collect plastic for 130 years – from 2020 to 2150 – without downtime, which would lead to a plastic reduction of 44,900 metric tons during that time interval. This is just over five percent of the estimated global total by the end of this period. „In view of the huge amounts of plastic waste that continuously reach the oceans, this is a rather small contribution,“ said Dr. Sönke Hohn of the ZMT, one of the authors. However, Merico emphasized: “Though projects such as ‘The Ocean Cleanup’ are not as effective as many of us think, they are still admirable and useful.”
One big concern is related to the fate of the plastic waste that is collected and brought ashore. Recycling is difficult because the plastic is very diverse and often overgrown by microorganisms. Sorting it would require a great deal of effort. Solutions such as incineration or burial are impractical for ecological reasons. Burying could contaminate the soil, burning releases CO2 into the atmosphere.
„By giving the impression that these technologies are an effective solution to the problem of plastic in our oceans, they can provide a justification for further pollution of the environment,“ Merico fears. Barriers in rivers, the main transporters of waste, in combination with waste chutes, are clearly more promising, but they are not very practical because of the shipping traffic. „There is only one solution: we must stop producing plastics and promote alternative, more sustainable solutions such as the use of biodegradable materials,“ emphasized Merico.
In addition to the Leibniz Centre for Tropical Marine Research in Bremen and Jacobs University, researchers from the Leibniz Institute for Zoo and Wildlife Research in Berlin, the University of Exeter in England and the NGO „Making Oceans Plastic Free“ participated in conducting the study. It was recently published in the journal „Science of the Total Environment“.
About Jacobs University Bremen:
Studying in an international community. Obtaining a qualification to work on responsible tasks in a digitized and globalized society. Learning, researching and teaching across academic disciplines and countries. Strengthening people and markets with innovative solutions and advanced training programs. This is what Jacobs University Bremen stands for. Established as a private, English-medium campus university in Germany in 2001, it is continuously achieving top results in national and international university rankings. Its more than 1,500 students come from more than 120 countries with around 80% having relocated to Germany for their studies. Jacobs University’s research projects are funded by the German Research Foundation or the EU Research and Innovation program as well as by globally leading companies.
For more information: www.jacobs-university.de
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About the Leibniz Centre for Tropical Marine Research (ZMT):
In research and education, the Leibniz Centre for Tropical Marine Research (ZMT) in Bremen is dedicated to the better understanding of tropical coastal ecosystems such as mangroves, sea grasses, coral reefs, estuaries and upwelling systems. As an interdisciplinary Leibniz institute, the ZMT conducts research on the structure and functioning of tropical coastal ecosystems and their reaction to natural changes and human interactions. It aims to provide a scientific basis for the protection and sustainable use of these ecosystems. ZMT works in close cooperation with partners in the tropics, where it supports capacity building and the development of infrastructures in the area of sustainable coastal zone management. ZMT is a member of the Leibniz Association. More information at www.leibniz-zmt.de | Facebook | YouTube
Questions are answered by:
Prof. Dr. Agostino Merico
Professor of Ecological Modelling
Tel.: +49 421 23800 - 111
Link to the study: