Bioconversion and biodynamics of Eisenia foetida in different organic wastes through microbially enriched vermiconversion technologies
Article Type
Research Article
Publication Title
Ecological Engineering
Abstract
The present investigation is an attempt to convert organic wastes like water hyacinth, paddy straw and sawdust to organic manure through vermicomposting by Eisenia foetida together with the help of some beneficial microbes such as Trichoderma viride (cellulolytic), Azotobacter chroococcum (nitrogen fixing), Bacillus polymixa (phosphate solubilizing) and Bacillus firmus (potassium solubilizing). Chemical and biochemical properties of vermicompost prepared from the aforementioned organic wastes were studied. Earthworm biomass, growth performance, and cocoon production were higher in vermicompost prepared from water hyacinth and paddy straw as compared to vermicompost prepared from sawdust. All vermibeds showed significant reduction in pH, organic carbon, cellulose content and C/N ratio and substantial increase in humic acid, total N, available P and exchangeable K. Vermistabilization also increased the microbial population and enzyme activities of all organic wastes. Inoculation of A. chroococcum, B. polymixa and B. firmus alone or in combination with T. viride significantly increased nitrogen, available P and K content. Significant increases in microbial population and enzyme activities in vermicomposts were recorded with inoculation of T. viride either alone or in consortia. The best quality compost was prepared when the substrate was treated with all the four microorganisms together followed by vermicomposting. Results indicated that the combination of earthworms and microorganisms reduced the overall time required for composting besides producing a nutrient-enriched compost product.
First Page
154
Last Page
161
DOI
10.1016/j.ecoleng.2015.11.012
Publication Date
1-1-2016
Recommended Citation
Das, D.; Bhattacharyya, P.; Ghosh, B. C.; and Banik, P., "Bioconversion and biodynamics of Eisenia foetida in different organic wastes through microbially enriched vermiconversion technologies" (2016). Journal Articles. 4120.
https://digitalcommons.isical.ac.in/journal-articles/4120