Journal
BIORESOURCE TECHNOLOGY
Volume 71, Issue 1, Pages 5-12Publisher
ELSEVIER SCI LTD
DOI: 10.1016/S0960-8524(99)00055-3
Keywords
waste streams; bioconversion; environment; vermicomposting; stocking density; feeding rate; biosolids
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The double-pronged problem of quantity, and disposal of waste streams from a myriad of industries, is becoming increasingly acute, the world over. The use of earthworms as a waste treatment technique for such wastes is gaining popularity. This method is commonly known as vermicomposting. Compared to conventional microbial composting, vermicomposting produces a product that is more or less homogenous, with desirable aesthetics, with reduced levels of contaminants and tends to hold more nutrients over a longer period, without impacting the environment. Like in other related waste treatment techniques, certain parameters need to be established for the design of efficient and economical vermicomposting systems. Specifically, the focus of this study was to investigate and establish an optimal stocking density and an optimal feeding rate for the vermicomposting of biosolids, with paper mulch provided as bedding. A stocking density of 1.60 kg-worms/m(2) (0.33 lb-worms/ft(2)) and a feeding rate of 1.25 kg-feed/kg-worm/ day resulted in the highest bioconversion of the substrate into earthworm biomass. The best vermicompost was obtained at the same stocking density and a feeding rate of 0.75 kg-feed/kg-worm/day. (C) 1999 Elsevier Science Ltd. All rights reserved.
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