Department Of Environmental Science And Technology

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Author: search.filters.author.Sharma, K.Has files: Yes

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    Vermi-modification of ruminant excreta using Eisenia fetida
    (Springer Verlag, 2017) Sharma, K.; Garg, V.K.
    Present investigation aims on the vermicomposting of the excreta of different ruminants to convert it into manure employing earthworm species, Eisenia fetida. A total of 11 feedstocks (FS1?FS11) with different ratios were prepared from the excreta of different ruminants, viz., sheep, cow, buffalo, and goat. Semi-composted feedstocks were fed to E. fetida for 90?days under laboratory conditions. Vermicomposting enhanced the nutrient contents of ruminant excreta and converted it into odor-free and homogenous vermicompost. The growth of E. fetida was significant in all the feedstocks, but largest biomass gain was achieved in buffalo excreta followed by [sheep?+?buffalo]?>?[goat?+?buffalo] and [cow?+?buffalo] feedstocks. Highest fecundity (782???23.3) was also recorded in buffalo excreta followed by [goat?+?buffalo] excreta feedstock (484.6???15.7). In vermicomposted feedstocks, total organic carbon and organic matter was lesser, while NPK and heavy metals were higher as compared to raw feedstocks. C/N ratios of vermicomposts ranged from 15.37 to 38.56, which indicate a good level of maturity and stabilization of feedstocks. ? 2017, Springer-Verlag GmbH Germany.
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    Management of food and vegetable processing waste spiked with buffalo waste using earthworms (Eisenia fetida)
    (Springer Verlag, 2017) Sharma, K.; Garg, V.K.
    The present investigation was focused on the vermicomposting of food and vegetable processing waste (VW) mixed with buffalo dung (BW) under laboratory condition employing Eisenia fetida earthworm species. Four different proportions of VW and BW were prepared and subjected to vermicomposting after 3?weeks of pre-composting. After vermicomposting, nitrogen (7.82?20.73?g/kg), total available phosphate (4.80?11.74?g/kg) and total potassium (7.43?12.75?g/kg) content increased significantly as compared to initial feed stocks. Significant reduction was observed in pH (7.56 to 6.55), total organic carbon (48.25?23.54%) and organic matter (83.18?40.68%). Metal content (Fe, Cu, Zn and Ni) was higher in all the vermicomposts than feedstocks. Data on growth and reproduction of earthworm revealed that the highest biomass gain and fecundity of worms were attained in 100% BW followed by [BW75%?+?VW25%]?>?[BW50%?+?VW50%]?>?[BW25%?+?VW75%] feedstocks. Results evidenced the suitability of VW (up to 50%) spiked with BW for increasing earthworm population and in providing potent organic manure for agricultural applications. ? 2017, Springer-Verlag Berlin Heidelberg.