Abstract
When using food and green waste composts as peat-free plant growing media, there is a challenge that nutrient immobilisation and high pH and salts content limit plant growth. The present study explored the use of spent mushroom compost (SMC) of Agaricus subrufescens in a sustainable plant growing system where only vermicompost from digested food waste and composted green wastes were used, even for the seedling stage. However, negative effects of high compost inclusion were offset by adding SMC. Significantly higher plant yield was obtained in several of the SMC amended treatments in four out of five lettuce experiments and in one tomato experiment. In addition, an experiment with cucumbers showed that nutrients were not available to the plant when the mushroom mycelium was actively growing, but became available if the mushroom mycelium had been inactivated first by pasteurisation. A significant effect from SMC was not observed under full fertigation. This study demonstrated that the addition of pasteurised Agaricus mycelium colonised compost can successfully offset negative effects from high pH and EC as well as limited nutrient supply (and nitrogen immobilisation) in peat-free, compost-based growing media.
Highlights
Soilless cultivation systems support resource use efficiency and crop quality [1]
spent mushroom compost (SMC) originated from mushroom composts made from wheat straw, food waste digestate and gypsum, on which mushroom harvesting was terminated before use in the plant experiments
Inclusion of SMC of A. subrufescens had a significant positive effect on growth of lettuce in compost mix fertigated with digestate
Summary
Soilless cultivation systems support resource use efficiency and crop quality [1]. Peat has been very popular as a substrate for decades due to its high conformity and excellent properties [2]. It is a fossil material contributing to global carbon emissions, and its extraction is environmentally problematic in several aspects at the local scale [3,4,5], whereas using inorganic growing media in such systems is not circular, since they end up as wastes after use [6]. Compost from waste materials is being increasingly adopted as peat substitute. Among the challenges of including a high percentage of compost in growing media are high pH, high salinity and nitrogen immobilisation [7,8,9]
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