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Project

Horti-BlueC (INTERREG HORTI-BLUEC)

Main research question/goal
The Interreg 2 Seas project Horti-BlueC puts together the puzzle pieces of various useful organic waste streams to create better and more sustainable growing substrates in greenhouses. The specific goal is to make the substrates for strawberry and tomato in greenhouses more sustainable. We work (further) on residual flows from agro, agri-food and fishery activities, which are processed into compost, plant fibers, biochar and chitin. The final goal is to come up with technically sound and economically interesting cultivation substrates, in collaboration with a number of partners who contribute their practical knowledge. The project also works on a strategy to heat greenhouses in a sustainable way, and to 'feed' the plants with CO2. Finally, we also formulate suggestions and arguments to adjust the legislation, where it forms an obstacle to roll-out.

Research approach
Plant fibers, used cultivation substrates, crustacean waste (source of chitin), CO2 from combustion gases and the woody fraction of green waste are processed into raw materials with added value when used in sustainable growing substrates. Within Horti-BlueC, we want to upgrade chitin from shrimp peel and biochar on the basis of, for example, cultivated substrates or green waste to a plant-strengthening product and / or fertilizer, so that the use of chemical plant protection products and fertilizers can be reduced. There are fewer residues in the cultivation substrates at the end of the cultivation. This means that the substrates can also be reused as raw materials after use in the cultivation of strawberry or tomato. The heat and CO2 produced by the biochar production are also used in the greenhouse.

Relevance/Valorisation
This project aims to adopt new techniques for circular horticulture. The extraction, production or transport of peat, coconut and mineral wool in cultivated substrates are under discussion. The production of plant protection products and artificial fertilizers also requires energy and therefore also has an important climate impact. By developing plant-strengthening crop substrates locally based on residual flows, a great deal of climate gain can be achieved and horticulture can take a step further in closing cycles.

Funding provider(s)
Interreg IVA 2 Mers Seas Zeeën
Provincie Antwerpen
Provincie Oost-Vlaanderen

External partner(s)
ADAS UK Ltd.
AGARIS
Cato Engineering
ECN>TNO
National Institute of Agricultural Botany
PCH - Proefcentrum Hoogstraten
Université de lille
University of Portsmouth
Date:8 Feb 2018 →  30 Apr 2022
Disciplines:Horticultural crop production, Biogeochemistry, Soil ecology, Recycling, Microbiomes, Sustainable agriculture, Industrial biotechnology not elsewhere classified, Agrochemistry and fertilisers, Environmental marine biotechnology, Environmental chemistry, Soil chemistry, Sustainable development, Agricultural plant protection