According to Atiyeh et al. (2000),

According to Atiyeh et al. (2000), earthworms also have an enormous
impact on nitrogen transformations in manure, by enhancing N mineralization,
thus allowing mineral nitrogen to be retained in the form of nitrate. Generally,
the final N content of the composted material is dependent mostly on the initial
N present in the waste and the extent of its decomposition (Crawford, 1983;
Gaur and Singh, 1995). Mansell et al. (1981) reported that plant litter contains
more available P after ingestion by earthworms, which may be due to the
physical breakdown of the plant material by worms during vermicomposting
process. An increase of 25% in P of paper waste sludge was also reported by
Satchell and Martein (1984) due to worm activity. Satchell and Martein (1984)
attributed this increase in P to direct action of worm gut enzymes and indirectly
by stimulation of the microflora. According to Edwards and Lofty (1972),
increase in TP during vermicomposting is probably due to mineralization and
mobilization of phosphorus as a result of bacterial and faecal phosphatase
activity of earthworms.
The presence of large number of microflora in the earthworm‟s gut might
play an important role in increasing P and K content in the process of
vermicomposting. Higher TK in the final product indicates that the microbial
flora also influences the level of available potassium. Acid production by the
microorganisms seems to be prime mechanism for solubilising the insoluble
potassium (K). According to Kaviraj and Sharma (2003), acid production
during organic matter decomposition by the microorganisms is the major
mechanism for solubilisation on insoluble P and K. Also the presence of large
number of microflora in the gut of the earthworms might play an important role
in increasing P and K content in the process of vermicomposting. The same is
reflected in the results of present study.
As we know proteins are made up of amino acids, arranged in a linear
chains, with the general formula of H2NCHRCOOH. Therefore, the hair waste
which contains „Keratin‟ as its structural component, showed the highest
percentage of nitrogen content after vermicomposting. Tripathi and Bharadwaj
(2004) reported 156%, 41% and 38% increase in nitrogen, phosphorus, and
potassium as compared to control after 150 days of earthworm (E. foetida)
inoculation. In addition, the researchers also reported the increase of 102%,
33% and 42% in nitrogen, phosphorus and potassium, respectively as compared
to control after 150 days due to vermicomposting with Lampito mauritii. They
also reported positive correlations between composting period of E. foetida and
amounts of N and K. Finding of the present study was found to be similar as
reported by Tripathi and Bharadwaj (2004). The increases in amounts of N, P
and K in the vermicomposts of present study indicated that the enhanced
mineralization of these elements was due to the microbial and enzyme activity
Journal of Agricultural Technology 2013, Vol. 9(3): 529-539
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in the gut of the earthworms (Parthasarathi and Ranganathan, 2000). Several
studies have also reported that earthworm casts contain more carbon and N than
non-ingested soil (Lee, 1985; Fragoso et al., 1993). This indicates that N is
localized in worm castings.