Aquaculture without microplastics Hochschule Hof, Hochschule Hof
Plastics in the food chain are a frequently discussed and increasingly pressing issue: through the consumption of fish, consumers today are absorbing increasing amounts of microplastics into their own bodies. The main culprits here are the large quantities of plastic waste now found in the oceans, where they are broken down into tiny particles and ingested by marine animals. However, the problem of microplastics is not only found in the oceans but also in freshwater - and this is precisely where the new research project comes in.
Avoiding microplastics
"In pond management or in large aquacultures, microplastics can in principle be much better excluded due to the closed water systems. On the other hand, however, also here the human factor means that microplastics or macroplastics nevertheless enter ponds or flow-through systems and from there find their way into the organisms of fish, useful plants or mussels. This risk is additionally amplified by various functional plastic components in the system itself," says Prof. Dr. Manuela Wimmer, head of the research project. The scientists now want to develop a solution at least for closed aquacultures, including aquaponics, i.e. the mixed culture of fish farming and crop cultivation without the use of soil.
Degradable bioplastics for aquacultures
Dr. Harvey Harbach, research associate in the project, explains the project approach: "Our research focus is on the so-called growing bodies of aquacultures. These are visually very close to curlers and serve as a settlement area for useful bacteria in a filter. These bacteria are used to treat the water in aquacultures and clean it of harmful substances. They convert ammonium and nitrite into the more harmless nitrate, which acts as a plant fertilizer. The problem so far is: these growth bodies are still made of conventional, i.e. petroleum-based, plastic." The main objective of the "BioBioCarrier" project is therefore the production of biodegradable growth bodies made of biopolymers for biological water treatment entirely without microplastics.
Long-lasting fertilization effect
However, not only the plastic particles, which are harmful to the organism, are to be avoided in the future. The slow decomposition of the biodegradable growth bodies is accompanied by another positive effect: "When the growth bodies decompose, essential plant nutrients are continuously released into the water as part of the decomposition process, which are needed by the cultivated crops for growth. This therefore results in automatic fertilization. As a result, no or significantly less fertilizer would have to be added manually," says Prof. Dr. Manuela Wimmer.
Institutes work together
The project combines the expertise of two institutes at Hof University of Applied Sciences and is the first ever inter-institutional project at the teaching and research institution: "The Institute for Biopolymers and Sustainability (ibp) and the Institute for Water and Energy Management (iwe) develop a future-oriented technology in this project in an interdisciplinary manner. The replacement of petroleum-based plastics with bioplastics fits ideally into the sustainable and resource-saving food production through aquaponics. Hof University of Applied Sciences is thus strengthening its profile as a Green Tech university," said University President Prof. Dr. Dr. h.c. Jürgen Lehmann.
The BioBioCarrier project is carried out in cooperation with the company Christian Stöhr GmbH & Co. Elektro- u. Kunststoffwaren KG from Marktrodach, Germany.
Contact for scientific information:
Prof. Dr. Manuela Wimmer
Ingenieurwissenschaften
Umweltingenieurwesen
Hochschule Hof
Alfons-Goppel-Platz 1
95028 Hof
Fon: +49 (0) 9281 / 409 4580
E-Mail: manuela.wimmer(at)hof-university.de
