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8. REFERENCES
Ananda, M.G., V.C. Reddy, M.Y. Ajayakumar and S. Seshadri Reddy (2004a).
Effects of organic wastes on yield and its components of ground nut in paddy –
ground nut cropping system. Environ. Ecol., 22 (Spl – 4): 770 – 774.
Ananda, M.G., V.C. Reddy and K.N. Kalyanamurthy (2004b). Effect of different
nutrient sources on growth and yield of ground nut (Arachis hypogaea L.).
Environ. Ecol., 22 (Spl – 4): 631 – 635.
Ananthakrishnasamy, S., S. Sarojini, G. Gunasekaran and G. Manimegala (2009).
Fly ash – A lignite waste management through vermicomposting by indigenous
earthworm Lampito mauritii. American – Eurasian J. Agric. Environ. Sci., 5(6):
720 – 724.
Ansari, A.A. (2008). Effect of vermicompost and vermiwash on the productivity of
spinach (Spinacia oleracea), onion (Allium cepa) and potato (Solanum
tuberosum). World J. Agric. Sci., 4(5): 554 – 557.
Arulmurugan, K. (1996). Studies on the effect of vermicompost on growth, yield,
protein and oil content of soybean (Glysine max (L.) Merril) cv. CO-1., M.Sc.
(Agric.) Dissertation, Annamalai University, Annamalai Nagar, India.
Arumugam, G.K., S. Ganesan, R. Kandasamy, R. Balasubramani and P.R. Burusa (2004). Municipal solid waste management through anaecic earthworm,
Lampito mauritii and their role in microbial modification. Eco Services
International, 1 – 9 pp.
Atiyeh, R.M., J. Dominguez, S. Subler and C.A. Edwards (2000). Change in the
biochemical properties of cow manure during processing by earthworm Eisenia
andrei (Bouch) and the effect of seedling growth. Pedobiologia, 44: 709 – 724.
Bakthavathsalam, R. (2003). Effect of neem products on cocoon production, hatching
ability and hatchling growth rate of the earthworm, Lampito mauritii (Templeton).
Environ. Ecol., 21 (3): 575 – 579.
Bakthavathsalam, R. (2007a). Reproductive influence and hatchling growth rate of
earthworm, Lampito mauritii cultured in different media of press mud and cow
dung. Environ. Ecol., 25S (2): 261 – 267.
Bakthavathsalam, R. (2007b). Macronutrient analysis of vermicompost obtained from
organic wastes, press mud and cow dung. Environ. Ecol., 25S (3A): 891 – 894.
Bakthavathsalam, R., K.S. Balaji and P. Rubaglory (2009). Effect of sheep droppings
and paddy straw waste vermicasts on the growth and yield of red rose plant.
Environ. Ecol., 27 (4A): 1850 – 1854.
125
Bakthavathsalam, R. and N. Birmanandhi (2007). An assessment of annual cocoon
production of anecic earthworm, Lampito mauritii cultured under different cow
dung media. Environ. Ecol., 25S (4): 1189- 1193.
Bakthavathsalam, R. and M. Deivanayaki (2007). Effect of Rhizobium on growth and
yield of black gram, Vigna mungo (Hepper) cultivated in pots under different
nutrient media. Environ. Ecol., 25S (2): 360 – 368.
Bakthavathsalam, R. and T. Geetha (2004a). Reproductive influence of the earthworm,
Lampito mauritii cultured in different media of paddy chaff and weed plants
materials. Environ. Ecol., 22 (3): 574 – 578.
Bakthavathsalam, R. and T. Geetha (2004b). Growth rate and reproductive capacity of
F1 hatchlings of Lampito mauritii cultured in paddy chaff and weed plants
materials. Environ. Ecol., 22(Spl – 4): 705 – 709.
Bakthavathsalam, R. and T. Geetha (2004c). Macronutrient analysis of vermicomposts
and their effects on the growth of radish plant. Environ. Ecol., 22(4): 941 – 947.
Bakthavathsalam, R., S. Rajapandiyan, M. Purushothaman, M. Muruganandham
and M. Deivanayaki (2010a). Utilization of coir waste mixture in the culture
practices of earthworm and pot cultivation of white radish. Environ. Ecol.,
28(2B): 1211 – 1215.
Bakthavathsalam, R. and G. Ramakrishnan (2004). Culture of earthworm using
different organic wastes of agricultural importance. Environ. Ecol., 22 (Spl – 2):
386 – 391.
Bakthavathsalam, R. and S. Uthayakumar (2007). Rate of cocoon production of the
earthworm, Lampito mauritii cultured in different ratios of vegetable market
wastes. Environ. Ecol., 25S (4): 1124 – 1128.
Bakthavathsalam, R., S. Uthayakumar, M. Purushothaman, M. Deivanayaki and
M. Kannan (2010b). Effect of coir waste mixture on the production of cocoon,
hatchling and vermicast of Eudrilus eugeniae and the growth of white radish.
Environ. Ecol., 28(2B): 1220 – 1224.
Bakthavathsalam, R., S. Uthayakumar, M. Purushothaman, M. Muruganandham
and R. Arulvizhi (2010c). Macro and micronutrients present in Ipomoea carnea
and their effect on the growth and yield of green gram. Environ. Ecol., 28(2A):
1075 – 1079.
Bangur, N.G. (1976). Sugar press mud conversion into fertilizer. Co – Operative Sugar,
7 (11): 533 – 534.
Bano, K. and R.D. Kale (1987). Vermicomposting - a rural technology. Agric.Technol.,
5: 33 – 37.
126
Bano, K. and R.D. Kale (1991). Earthworm fauna of Southern Karnataka, India; In:
Advances in management and conservation of soil fauna (eds. G.K. Veeresh
D. Rajagopal and C.A. Viraktamath), Oxford and IBH, New Delhi, 627 – 634 pp.
Bano, K., R.D. Kale and G.N. Gajanan (1987). Culturing of earthworm, Eudrilus
eugeniae for cast production and assessment of ‘worm cast’ as bio fertilizer. J.
Soil. Biol. Ecol., 7 :98-104.
Bansal, S. and K.K. Kapoor (2000). Vermicomposting of crop residues and cattle dung
with Eisenia fetida. Biores. Technol., 73: 95 – 98.
Bellakki, M.A. and V.P. Badanur (1997). Long term effect of integrated nutrient
management on soil properties of vertisol and dryland agriculture. J. Indian Soc.
Soil Sci., 45 (3) : 437-442.
Benitez, E., R. Nogales, C. Elvira, G. Masciandaro and B. Ceccanti (1999). Enzyme
activities as indicators of the stabilization of sewage sludges composting with
Eisenia fetida. Biores. Technol., 67: 297 – 303.
Bhattacharjee, G. (2002). Earthworm resources and waste management through
vermicomposting in Tripura. Ph.D. Thesis, Tripura University, Tripura, India.
Bhattacharjee, G. and P.S. Chaudhuri (2002). Cocoon production, morphology,
hatching pattern and fecundity in seven tropical earthworm species – a laboratory
based investigation. J. Biosci., 27(3): 283 – 294.
Bhawalkar, U.V. and U.S. Bhawalkar (1992). Recycling of sugar residues by
vermiculture biotechnology. Proc. Nat. Sem. Org. Fmg., Coimbatore, 53 – 54 pp.
Bisht, R., H. Pandey, D. Bharti, S.P.S. Bisht and B.R. Kaushal (2007). Reproductive
potential of the earthworm Metaphire posthuma (Oligochaeta) in different food
substrates, Tropical Ecology, 48(1): 107 – 114.
Bisht, R., H. Pandey, S.P.S. Bisht, B. Kandpal and B.R. Kaushal (2006). Feeding and
casting activities of the earthworm (Octolasion tyrtaeum) and their effects on crop
growth under laboratory conditions. Tropical Ecology, 47 (2): 291 – 294.
Bouche, M.B. (1972). Lombriciens de France. Ecologie et Systematique (Paris: Institute
National de la Recherches Agriculturelles).
Bouwman, H. and A.J. Reinecke (1991). A defined medium for the study of growth and
reproduction of the earthworm Eisenia fetida (Oligochaeta). Biol. Fertil. Soils, 10:
285 – 289.
Brady, N.C. (1988). The Nature and Properties of Soil’ Eurasic Publishing House (P)
Ltd., New Delhi, 238-245 pp.
127
Broom, M. (1980). Earthworm castings: question horticulturists and the nursery industry
ask, and research needed to answer their questions. In: Proc. Workshop on the
Role of Earthworms in the Stabilization of Organic Residues. Kalamazoo, Mich.
126 – 134 pp.
Butt, K.R. (1993). Reproduction and growth of three deep – burrowing earthworms
(Lumbricidae) in laboratory culture in order to assess production for soil
restoration. Biol. Fertil. Soils, 16: 135 – 138.
Castillo, A.E., S.G. Benito and M.C. Iglesias (2005). Influence of earthworms on
organic waste composting and characterization of vermicompost end products.
Spanish J. Agric. Res., 3(1): 145 – 150.
Chandran, S. and R. Ramalingam (2007a). Utilization of waste sludge from paper mill
and press mud from sugar mill for the culture of a compost earthworm Perionyx
excavatus (Perrier). Indian J. Environ. Ecoplan., 14(1 – 2): 161 – 165.
Chandran, S. and R. Ramalingam (2007b). Influence of paper mill sludge – cow dung
mixture on the growth and reproduction of an Indian compost earthworm
Perionyx excavatus (Perrier). J. Exp. Zool. India., 10(1): 125 – 128.
Chaoui, H.I., L.M. Zibilske and T. Ohno (2003). Effects of earthworm casts and
compost on soil microbial activity and plant nutrient availability. Soil Biol.
Biochem., 35: 295 – 302.
Chaudhuri, P.S. (2005). Vermiculture and vermicomposting as biotechnology for
conversion of organic wastes into animal protein and organic fertilizer. Asian J.
Microbiol. Biotech. Environ. Sci., 7(3): 359 – 370.
Chaudhuri, P.S. and G. Bhattacharjee (1999). Earthworm resources of Tripura; Proc.
Nat. Acad. Sci., India. 69: 159 – 170.
Chaudhuri, P.S. and G.Bhattacharjee (2002). Capacity of various experimental diets to
support biomass and reproduction of Perionyx excavatus. Biores. Technol., 82:
147-150.
Chaudhuri, P.S., T.K. Pal, G. Bhattacharjee and S.K. Dey (2003). Rubber leaf
litters (Hevea brasiliensis, Var RRIM 600) as vermiculture substrate for epigeic
earthworms, Perionyx excavatus, Eudrilus eugeniae and Eisenia fetida.
Pedobiologia, 47: 796-800.
Chettri, M. and U. Thapa (2004). Integrated nutrient management with farm yard
manure on potato (Solanum tuberosum) under gangetic plains of West Bengal.
Environ. Ecol., 22 (Spl– 4): 766 – 769.
Chowdappa, P., C.C. Biddappa and S. Sujatha (1999). Efficient recycling of organic
wastes in arecanut (Areca catechu) and cocoa (Theobroma cacao) plantation
through vermicomposting. Indian J. Agri. Sci., 69(8): 563 – 566.
128
Christy, A.M.V. and R. Ramalingam (2005a). Influence of sago waste – press mud
mixture on the growth and reproduction of an Indian epigeic earhworm Perionyx
excavatus. Indian J. Environ. and Ecoplan., 10(2): 291 – 296.
Christy, A.M.V. and R. Ramalingam (2005b). Vermicomposting of sago – industrial
solid waste using an epigeic earthworm Eudrilus eugeniae and macronutrients
analysis of vermicompost. Asian J. Microbiol. Biotech. Environ. Sci., 7(3): 377 –
381.
Cluzeau, D., L. Fayolle and M. Hubert (1992). The adaptation of reproductive
strategy and mode in three epigeous species. Soil Biol. Biochem., 24:1309-1315.
Crawford, J.H. (1983). Review of composting. Process of Biochemistry., 8: 14-15.
Crawford, J.H. (1985). “Composting of agriculture waste”, In: Biotechnology:
Applications and Research, (eds. P.N. Cheremisinoff and R.P. Onellette),
Technomic Publishing, Lancaster, Pa, USA, Vol. 71.
Curry, J.P., D. Byrne and K.E. Boyle (1995). The earthworm population in winter
cereal field and its effects on soil and nitrogen turnover. Biol. Fertil. Soils,
19:166-172.
Daniel, O. and J.M. Anderson (1992). Microbial biomass and activity in contrasting
soil materials after passage through the gut of the earthworm Lumbricus rubellus
Hoffmeister. Soil Biol. Biochem., 24: 465-470.
Dash, M.C. and B.K. Senapati (1980). Cocoon morphology, hatching and emergence
pattern in tropical earthworms. Pedobiologia, 20: 317 – 324.
Dash, M.C. and B.K. Senapati (1986). Vermitechnology, an option for organic waste
management in India. In. Proc. Nat. Sem. Org. Waste Utiliz/Vermicomp. Part B:
Verms and Vermicomposting (eds. M.C. Dash., B.K. Senapati and P.C. Mishra),
Five star printing press, Burla, India, 157 – 172 pp.
Deivanayaki, M. (2011). Studies on the culture practices of two indigenous earthworms
using selected organic wastes and their role in chilli plant cultivation.
Ph.D.Thesis, Bharathidasan University, India.
Dominguez, J., C.A. Edwards and J. Ashby (2001). The biology and population
dynamics of Eudrilus eugeniae (Kinberg) (Oligochaeta) in cattle waste solids.
Pedobiologia, 45: 341 – 353.
Dominguez, J., A. Velando and A. Ferreiro (2005). Are Eisenia fetida (Savigny, 1826)
and Eisenia andrei (Bouche, 1972) (Oligochaeta, Lumbricidae) different
biological species?. Pedobiologia, 49: 81- 87.
129
Edwards, C.A. (1983). Earthworm ecology in cultivated soils. In: Earthworm Ecology
from Darwin to Vermiculture (ed. J.E. Satchell), Chapman and Hall, London, 123
– 138 pp.
Edwards, C.A. (1988). Breakdown of animal, vegetable and industrial organic waste by
earthworms, In: Earthworms in Waste and Environmental Management (eds. C.A.
Edwards and E.F. Neuhauser), SPB Acadamic Publishing, The Hague, 21 – 31 pp.
Edwards, C.A. (1998). Earthworm Ecology. Soil and Water Conservation Society.
Ankeny. Iowa, St. Lucie Press, Boca Raton, Florida.
Edwards, C.A. and J.E. Bater (1992). The use of earthworms in environmental
management. Soil Biol. Biochem., 24(12): 1683 – 1689.
Edwards, C.A. and P.J. Bohlen (1996). Biology and ecology of earthworms, 3rd
Ed.
Chapman and Hall, London.
Edwards, C.A. and I. Burrows (1989). The potential of earthworm compost as plant
growth media, In: Earthworms in Waste and Environmental Management (eds.
C.A. Edwards and E.F. Neuhauser), SPB Academic Publishing, The Hague, 211 –
219 pp.
Edwards, C.A., I. Burrows, K.E. Flecher and B.A. Jones (1985). The use of
earthworms for composting farm wastes. In: Composting of Agricultural and
Other wastes (ed. J.K.R. Gasser), Barking U.K. Elsevier Applied Science
Publishers Ltd. 229 – 242 pp.
Edwards, C.A., J. Dominguez and E.F. Neuhauser (1998). Growth and reproduction
of Perionyx excavatus (Perr.) (Megascolecidae) as factors in organic waste
management, Biol. Fertil. Soils, 27: 155-161.
Edwards, C.A. and J.R. Lofty (1977). Biology of Earthworms. Chapman and Hall,
London.
Elvira, C., J. Dominguez and M.J.I. Briones (1996a). Growth and reproduction of
Eisenia andrei and Eisenia fetida (Oligochaeta, Lumbricidae) in different organic
residues; Pedobiologia, 40: 377 – 384.
Elvira, C., J. Dominguez and S. Mato (1996b). The growth and reproduction of
Lumbricus rubellus and Dendrobaena rubida in cow manure mixed cultures with
Eisenia fetida. Appl. Soil Ecol., 5:97-103.
Elvira, C., L. Sampedro, E. Benitez and R. Nogales (1998). Vermicomposting of
sludges from paper mill and dairy industries with Eisenia andrei: A pilot scale
study. Biores. Technol., 63: 205 – 211.
130
Elvira, C., L. Sampedro, J. Dominguez and S. Mato (1997). Vermicomposting of
waste water sludge from paper - pulp industry with nitrogen rich materials. Soil
Biol. Biochem., 29 (3/4): 759 – 762.
Evans, A.C. and W.J.Mc.L. Guild (1948). Studies on the relationships between
earthworms and soil fertility. IV. On the life cycles of some British Lumbricidae,
Ann. Appl. Biol., 35: 471 – 484.
Fares, F., A. Albalkhi, J. Dec, M.A. Bruns and J.M. Bollag (2005). Physicochemical
characteristics of animal and municipal wastes decomposed in arid soils,
J.Environ.Qual., 34(4): 1392-1403 pp.
Fauziah, S.H. and P. Agamuthu (2009). Sustainable household organic waste
management via vermicomposting. Malaysian J. Sci., 28(2): 135 – 142.
Fayolle, L., H. Michaud, D. Cluzeau and J. Stawiecki (1997). Influence of
temperature and food source of the life cycle of the earthworm Dendrobaena
veneta (Oligochaeta). Soil Biol. Biochem., 29: 747-750.
Frederickson, J., K.R. Butt, R.M. Morris and C. Daniel (1997). Combining
vermiculture with traditional green waste composting systems. Soil Biol.
Biochem., 29 (3/4): 725 – 730.
Gajalakshmi, S., E.V. Ramasamy and S.A. Abbasi (2001). Towards maximising
output from vermireactors fed with cow dung spiked paper waste. Biores.
Technol., 79: 67 – 72.
Gaplacer, N. (1987). Filtermud. In: Hand Book of Sugarcane Derivities ICIDCAUNDP.,
42 – 46 pp.
Garg, V.K. and N. Bhardwaj (2000). Effect of vermicompost of Lantana on two
cultivars of wheat. Indian J. Environ. Ecoplan., 3:539-548.
Garg, V.K., S. Chand, A. Chhillar and A. Yadav (2005a). Growth and reproduction of
Eisenia fetida in various animal wastes during vermicomposting. Appl. Ecol.
Environ. Res., 3(2): 51 – 59.
Garg, V.K., P.Kaushik and N. Dilbaghi (2005b). Vermiconversion of wastewater
sludge from textile mill mixed with anaerobically digested biogas plant slurry
employing Eisenia fetida. Online J. Ecoenv., 2005.03.002.
Garg, P., S. Sharma and S. Satya (2006a). Culturing of exotic (Eisenia fetida) and local
(Allolobophora parva) earthworm species in different substrates for rural waste
management. The 2nd
Joint International Conference on “ Sustainable Energy and
Environment”, Bangkok, Thailand.
Garg, V.K., Y.K. Yadav, A. Sheoran, S. Chand and P. Kaushik (2006b). Live stocks
excreta management through vermicomposting using an epigeic earthworm
Eisenia fetida. Environmentalist, 26: 269-276.
131
Gates, G.E. (1972). Burmese earthworms. An introduction to the systematics and
biology of megadrile Oligochaetes with special reference to Southeast Asia;
Trans. Am. Phil. Soc., NS.62: 1 – 326.
Ghosh, M., G.N. Chattopadhyay and K. Baral (1999). Transformation of phosphorus
during vermicomposting. Biores. Technol., 69: 149 – 154.
Gondek, K. (2008). Chromium bioaccumulation from composts and vermicomposts
based on tannery sludges. J. Cent. Eur. Agric., 9 (1): 129 – 140.
Gondek, K. and B. Filipek - Mazur (2003). Biomass yield of shoots and roots of plants
cultivated in soil amended by vermicomposts based on tannery sludge and content
of heavy metals in plant tissues. Plant Soil Environ., 49: 402 – 409.
Gopal, M., A. Gupta and G.V. Thomas (2004). Optimum weather conditions for
efficient vermicomposting of coconut leaves by Eudrilus sp. in coastal tract of
Kerala. J. Plantation Crops, 32(S): 486 – 490.
Gunadi, B., C. Blount and C.A. Edwards (1999). The growth and fecundity of Eisenia
fetida (Savigny) in cattle solids pre-composted for different periods.
Pedobiologia, 46 (1): 15-33.
Guoxue, L., F. Zhang, Y. Sun, J.W.C. Wong and M. Fang (2001). Chemical
evaluation of sewage composting as mature indicator for composting process.
Water Air Soil Sludge Pollution, 132: 333-345.
Haimi, J. (1990). Growth and reproduction of the compost living earthworms Eisenia
andrei and Eisenia fetida. Rev. Ecol. Biol. Sol., 27: 415 – 421.
Haimi, J. and V. Huhta (1986). Capacity of various organic residues to support
adequate earthworm biomass for vermicomposting. Biol. Fertil. Soils, 2: 23 – 27.
Haimi, J. and V. Huhta (1987). Comparison of composts produced from identical
wastes by ‘vermistabilization’ and conventional composting. Pedobiologia,
30:137-144.
Halder, K.R. (1999). Oligochaeta: Earthworm: In: State fauna series 4: Fauna of
Megalaya, Part 9, Zoological Survey of India, Culcutta, 393 – 439 pp.
Halder, K.R. (2000). Oligochaeta: Earthworm: In: State fauna series 7: Fauna of Tripura,
Part 4, Zoological Survey of India, Culcutta, 239 – 256 pp.
Hallatt, L., A.J. Reinecke and S.A. Viljoen (1990). Life cycle of the oriental compost
worm Perionyx excavatus (Oligochaeta), S. Afr. J. Zool., 25: 41 – 45.
Hallatt, L., S.A. Viljoen and A.J. Reinecke (1992). Moisture requirements in the life
cycle of Perionyx excavatus (Oligochaeta). Soil Biol. Biochem., 24: 1333 – 1340.
132
Hampton, M.O., P.J. Stoffella, T.A. Bewick, D.J. Cantliffe and T.A. Obreza (1999).
Effect of age of cocomposted MSW and biosolids on weed seed germination.
Comp. Sci. Utiliz., 7(1):51 – 57.
Hartenstein, R. (1984). Rate of production and loss of earthworm biomass in relation to
species and size. Soil Biol. Biochem., 16(6): 643 – 649.
Hartenstein, R. and F. Hartenstein (1981). Physico – chemical changes effected
inactivated sludge by the earthworm Eisenia fetida. J. Environ. Qual., 10:377-
382.
Hartenstein, R., E.F. Neuhauser and D.L. Kaplan (1979). Reproductive potential of
the earthworm Eisenia fetida. Oecologia (Berl.), 43: 329 – 340.
Hemalatha, B. and T. Meenambal (2006). Vermicomposting of different organic
wastes with paper mill sludge. Asian J. Microbiol. Biotech. Environ. Sci., 18(3):
661 – 665.
Hou, J.C., Y.Y. Qiao, G.Q. Liu and R.J. Dong (2005). The influence of temperature,
pH and C/N ratio on the growth and survival of earthworms in municipal solid
waste. Agric. Eng. Int: the GIGR Ejournal. Manuscript Fb 04014., 7: 1 – 6.
Hutha, V. (1981). Results of preliminary experiments culturing Eisenia fetida on
different types of sewage sludge, animal and human excreta mixed with low
nitrogen organic materials, In: Workshop on the Role of Earthworms in the
Stabilization of Organic Residues (ed. M. Happelhof). Beech Leaf Press,
Kalamazoo, Michigan, 220 – 228 pp.
Indirabai, W.P.S., P. Daisy and V. James (2006). Vermitech - An opportunity for all.
Asian J. Microbiol. Biotech. Environ. Sci., 8 (3): 527 – 530.
Ismail, S.A. (1992). Vermitech: The science of earthworm biotechnology, In:
Ecotechnology for pollution control and environmental management (eds. R.K.
Trivedy, Kumar and Arbind), Enviro Media, Karad, 109 – 113 pp.
Jackson, M.L. (1973). Soil chemical analysis. Prentice Hall of India Private Limited,
New Delhi. 496 p.
Jayaseelan, A. and R. Bakthavathsalam (2009a). Culture of epigeic earthworm,
Eudrilus eugeniae using green gram waste. Environ. Ecol., 27(3A): 1338 – 1344.
Jayaseelan, A. and R. Bakthavathsalam (2009b). Nutrient analysis and the effects of
green gram waste vermicompost and vermicasts on the growth parameters of
radish plant. Environ. Ecol., 27 (4A): 1840 – 1844.
Jeyabal, A. and G. Kuppuswamy (2001). Recycling of organic wastes for the
production of vermicompost and its response in rice – legume cropping system
and soil fertility. European J. Agron., 15: 153 – 170.
133
Jimenez, E.I. and V.P. Garcia (1989). Evaluation of city refuse compost maturity: A
review. Biol. Wastes. 27:115-145 pp.
Jimenez, J.J., A.G. Moreno and P. Lavelle (1999). Reproductive strategies of three
native earthworm species from the savannas of Carimagua (Colombia);
Pedobiologia, 43: 851 – 858.
Julka, J.M. (1993a). Distribution pattern in Indian earthworms. In: Earthworm resources
and vermiculture, Zoological Survey of India, Culcutta, 27 – 31 pp.
Julka, J.M. (1993b). Earthworm resources of India and their utilization in vermiculture.
In: Earthworm resources and vermiculture, Zoological Survery of India, Culcutta,
51 – 56 pp.
Julka, J.M. (2001). Earthworm diversity and its role in agro-ecosystem; VII Nat. Sym.
Soil Biol. Ecol., (Abstract Vol.), University of Agricultural Sciences, Bangalore,
13 – 17 pp.
Julka, J.M. and B.K. Senapati (1987). Records of the Zoological Survey of India:
Earthworm (Oligochaeta: Annelida of Orissa, India), Zoological Survey of India,
Culcutta, Miscellaneous publication, Occasional paper No.92.
Kalam, A.J., J. Tah and A.K. Mukherjee (2004). Pesticide effects on microbial
population and soil enzyme activities during vermicomposting of agricultural
waste. J. Environ. Biol., 25 (2): 201-208.
Kale, R.D. (1994). Consolidated technical report of the ADHOC scheme on promotion of
vermicomposting for production of organic fertilizer.U.A.S., G.K.V.K.,
Bangalore, India.
Kale, R.D. and K. Bano (1986). Field trials with vermicompost (Vee. Comp. E. 83
UAS) an organic fertilizer. In: Proc. Nat. Sem. Org. Waste. Utiliz. Vermicomp.
Part B: Verms and Vermicomposting (eds. M.C. Dash., B.K. Senapati and P.C.
Mishra), Burla, Orissa, 151- 156 pp.
Kale, R.D. and K. Bano (1991). Time and space relative population growth of Eudrilus
eugeniae. In: Advances in management and conservation of soil fauna (eds.
G.K.Veeresh D. Rajagobal and C.A. Virakamath), Oxford and IBH, New Delhi,
657 – 664 pp.
Kale, R.D., K. Bano and R.V. Krishnamoorthy (1982). Potential of Perionyx
excavatus for utilization of organic waste. Pedobiologia, 23: 419 – 425.
Kale, R.D. and R.V. Krishnamoorthy (1981). Litter preferences in the earthworm
Lampito mauritii. Proc. Indian Acad. Sci (Anim. Sci.)., 90(1): 123 – 128.
134
Kale, R.D., B.C. Mallesh, K. Bano and D.J. Bagyaraj (1992). Influence of
vermicompost application on the available macronutrients and selected microbial
population in a paddy field. Soil Biol. Biochem., 24: 1317-1320.
Kale, R.D., S.N. Seenappa and C.B. Jagannatha Rao (1994). Sugar factory refuse for
the production of vermicompost and worm biomass. 5th
International Symposium
on Earthworms, Ohio University, Columbus, U.S.A.
Kalyanasundaram, N. (1994). Record crushing by sugarmills in Tamil Nadu. In: The
Hindu, Science and Technology (Agriculture), November 24, 28 p.
Kamaladevi, S. and R. Bakthavathsalam (2010). Cultivation of Ooty rose under
different organic manures. Environ. Ecol., 28(1A):319 – 321.
Kannan, P., A. Saravanan, S. Krishnakumar and S.K. Natarajan (2005). Biological
properties of soil as influenced by different organic manures. Res. J. Agric. Biol.
Sci., 1(2): 181 – 183.
Kanwar, J.S. and N.S. Randhawa (1978). Micronutrient research in soil and plants in
India (A Review). Tech. Bull., 50, ICAR, New Delhi.
Kaplan, D.L., R. Hartenstein, C.A. Edwards, E. F. Neuhauser and M.R. Malecki
(1980). Physicochemical requirements in the environment of the earthworm
Eisenia fetida. Soil Biol. Biochem., 12: 347 – 352.
Kaushal, B.R. and S.P.S. Bisht (1992). Growth and cocoon production by the
earthworm Drawida nepalensis (Oligochaeta). Biol. Fertil. Soils, 29: 205-212.
Kaushal, B.R., S. Bora and B. Kandpal (1999). Growth and cocoon production by the
earthworm, Metaphire houletti (Oligochaeta) in different food sources. Biol.
Fertil. Soils. 29: 394 – 400.
Kaushal, B.R., S. Kalia and S.P.S. Bisht (1995). Growth and cocoon production by the
earthworm, Drawida nepalensis (Oligochaeta, Moniligastridae) in oak and pine
litter. Pedobiologia, 39: 417- 422.
Kaushik. P. and V.K. Garg (2003). Vermicomposting of mixed solid textile mill sludge
and cow dung with the epigeic earthworm Eisenia fetida. Biores. Technol., 90:
311 – 316.
Kavian, M.F., S.D. Ghatnekar and P.R. Kulkarni (1997). Biodegradation studies of
onion sludge at pilot and plant level using vermiculture biotechnology. Indian J.
Environ. Prot., 17(8): 605 – 609.
Kaviraj, P. and S. Sharma (2003). Municipal solid waste management through
vermicomposting employing exotic and local species of earthworms. Biores.
Technol., 90: 169 – 173.
135
Kavitha, V., G. Manimegala and R. Ramalingam (2008) Growth and reproduction of
the earthworm Lampito mauritii Kinberg, after exposure to sublethal
concentrations of an organophosphate pesticide- monocrotophos. The Ecoscan.
2(1): 47 – 50.
Kitturmath, M.S., R.S. Giraddi and B. Basavaraj (2007). Nutrient changes during
earthworm, Eudrilus eugeniae (Kinberg) mediated vermicomposting of agro –
industrial wastes. Karnataka, J. Agric. Sci., 20(3): 653 – 654.
Kladivko, E.J., A.D. Mackay and J.M. Bradford (1986). Earthworms as a factor in the
reduction of soil crusting. Soil Sci. Soc. Am. J., 50: 191 – 196.
Kladivko, E.J. and H.J. Timmenga (1990). Earthworms and agricultural management.
In: Rhizosphere Dynamics (eds. J.E. Box and L.C. Hammond), Westview Press.
Co.
Kostecka, J. and J. Kaniuczak (2008). Vermicomposting of duckweed (Lemna minor
L.) biomass by Eisenia fetida (Sav.) earthworm. J. Elementol., 13(4): 571 – 579.
Kulkarni, B.S., U.G. Nalawadi and R.S. Giraddi (1996). Effect of vermicompost and
vermiculture on growth and yield of china aster (Callistephus chinensis Nees.)
C.V.Ostrich Plume mixed South Indian Hort., 44:33-35.
Lakshmi, B.L. and G.S. Vijayalakshmi (2000). Vermicomposting of sugar factory filter
press mud using African earthworm species Eudrilus eugeniae, Pollution
Research, 19(3): 481 – 483.
Latifah, A.M., C.J. Mohd Lokman, Mohd Kamil Yusoff, Tengku Hanidza, Tengku
Ismail, Rosta Harun and Hafizan Juahir (2009). Influences of bedding
material in vermicomposting process. Int. J. Biol., 1(1): 81 – 91.
Lavelle, P. (1971). Recherches ecologiques dans la savane de (Ivoire): Production
annuelle d’ un ver de terre Millosonia anomala Omodeo; Terre Vie., 2: 240 – 254.
Lavelle, P. (1979). Relations entre types ecologiques et profiles demographiques chez les
vers de terre de la savane de (Ivoire); Rev. Ecol. Biol. Sol., 16: 85 – 101.
Lavelle, P. and A. Martin (1992). Small scale and large-scale effects of endogeic
earthworms on soil organic matter dynamics in soil of the humid tropics. Soil
Biol. Bochem., 24: 1491-1498.
Le Bayon, R.C. and F. Binet (2006). Earthworm changes the distribution and
availability of phosphorus in organic substrates. Soil Biol. Biochem., 38: 235-246.
Lee, K.E. (1985). Earthworms: Their ecology and relationship with soil and land use.
Academic Press, Orlando, Sydney, FL.423 pp.
136
Lee, K.E. (1992). Some trends opportunities in earthworm research or :
Darwin’schildren. The future of our discipline. Soil Biol. Biochem., 24: 1765-
1771.
Lehninger, L.A., L.D. Lelson and M.M. Cox (1996). Principles of Biochemistry. CBS.
Publ., New Delhi, India.
Libunao, G.D. (1986). Earthworm casts as soil amendment to Batanes onion - CLSU
(Central – Luzon – State University) – Scientific Journal (Philippines) (Nov. 1984
– Oct. 1985) 119 pp.
Lindsay, W.L. and W.A. Norvell (1978). Development of DTPA soil test for zinc, iron,
manganese and copper. Soil Sci. Soc. Am. J., 42: 421 – 428.
Line, M.A. (1994). Recycling of sea star (Asterias amurensis) waste by composting.
Biores. Technol., 49 (3) : 227-229.
Locsin, C.L. (1953). Filter cake as fertilizer. Sug. News, 29: 405 – 409.
Loehr, R.C., E.F. Neuhauser and M.R. Malecki (1985). Factors affecting the
vermistabilization process - temperature, moisture content and polyculture. Water
Res., 19: 1311 – 1317.
Lofs – Holmin, A. (1983). Earthworm population dynamics in different agricultural
rotations. In: Earthworm Ecology from Darwin to Vermiculture (ed. J.E.
Satchell), Chapman and Hall. London. 151 – 160 pp.
Logakanthi, S., J. Rajesh Banu and G.S. Vijayalakshmi (2000). Biodung -
Vermicomposting: A novel method for green waste recycling. Indian J. Environ.
Prot., 20(11): 850 – 854.
Loh, T.C., Y.C. Lee, J.B. Liang and D. Tan (2005). Vermicomposting of cattle and
goat manures by Eisenia fetida and their growth and reproduction performance.
Biores. Technol., 96: 111 – 114 pp.
Mackay, A.D. and E.J. Kladivko (1985). Earthworms and rate of breakdown of soybean
and maize residues in soil. Soil Biol. Biochem., 17 (6): 851 – 857.
Macki Aleagha, M., M. Pedram and G. Omrani (2009). Bioaccumulation of heavy
metals by Iranian earthworm (Eisenia fetida) in the process of vermicomposting.
American – Eurasian J. Agric. Environ. Sci., 5 (4): 480 – 484.
Manivannan, S., P. Ramamoorthy, K. Parthasarathi and L.S. Ranganathan (2004).
Effect of sugar industrial wastes on the growth and reproduction of earthworms.
J. Exp. Zool. India., 7:29-37.
137
Manna, M.C., S. Jha, P.K. Ghosh and C.L. Acharya (2003). Comparative efficacy of
three epigeic earthworms under different deciduous forest litters decomposition.
Biores. Technol., 88: 197 – 206.
Martin, N.A. (1982). The effect of herbicides used on asparagus on the growth rate of
the earthworm, Allobophora caliginosa. Proceedings of the 35th
New Zealand
Weed and Pest Control Conference, 328 – 331 pp.
Martin, A. and P. Lavelle (1992). Effect of soil organic matter quality on its
assimilation by Millsonia anomala, a tropical geophagous earthworm. Soil Biol.
Biochem., 24(12): 1535 – 1538.
Madhukeshwara, S.S., K.N. Anil, Andani Gowda, M.T. Laxminarayana,
Mariswamy Gowda and T.A. Sreeramasetty (1996). Establishment of tomato
Lycoperison esculentum seedlings in different organic substrates. In: Nat. Sem.
Org. Fmg. And Sust. Agri. (eds. G.K. Veeresh and K. Shivashankar), Bangalore,
41 p.
Masciandaro, G., B. Ceccanti and C. Garcia (1997). Soil agro – ecological
management: Fertirrigation and vermicompost treatments. Biores. Technol.,
39:199-206.
Masciandaro, G., B. Ceccanti and C. Garcia (2000a). “In situ” vermicomposting of
biological sludges and impacts on soil quality. Soil Biol. Biochem., 32: 1015 –
1024.
Masciandaro, G., B. Ceccanti, V. Ronchi and C. Bauer (2000b). Kinetic parameters
of dehydrogenase and inorganic fertilizers. Biol. Fertil. Soils, 32 (6): 579 – 587.
Mathialagan, R. and R. Bakthavathsalam (2010). Utilization of Eichhornia crassipes
in the reclamation process of acidic soil using white radish as test plant. Environ.
Ecol., 28 (2A): 1053 – 1058.
Meena, K. and B. Renu (2007). Feasibility studies on consortium of earthworms for
vermicomposting. Proc.Int. Conf. Sust. Sol. Wast. Manag., Chennai, India, 282 –
288 pp.
Meyer, W.J. and H. Bouwman (1995). Suitable characters for selective breeding in
Eisenia fetida (Oligochaeta). Biol. Fertil. Soils, 20: 53 – 56.
Mitchell, M.J., R.M. Mulligan, R. Hartenstein and E.F. Neuhauser (1977).
Conversion of sludges into “top soils” by earthworms. Comp. Sci., 18: 28 – 32.
Mohanty, S., A. Rajarajan and N.K. Lenka (2007). Effect of organic manures on
micronutrient uptake and residual soil fertility in ground nut (Arachis hypogea L.)
– corn (Zea mays L.) Sequence. Environ. Ecol., 25S (4): 1180 – 1184.
Monroy, F., M. Aira, J.A. Gago and J.Dominguez (2007). Life cycle of the earthworm
Octodrilus complanatus (Oligochaeta, Lumbricidae). C.R. Biologies, 330: 389 –
391.
138
Mulongy, K. and A. Bedoret (1989). Properties of worm casts and surface soils under
various plant covers in the humid tropics. Soil Biol. Biochem., 18:395-398.
Muruganandham, M. and R. Bakthavathsalam (2009). Toxicity, macro and
micronutrients analysis and the effect of cabbage waste on the growth and yield of
chilly plant. Environ. Ecol., 27(3A): 1345 – 1349.
Muthukumaravel, K., A. Amsath and M. Sukumaran (2008). Vermicomposting of
vegetable wastes using cow dung. E-J. Chem., 5(4): 810 – 813.
Nair, G.A. and S.A. Bennour (1998). Cocoons and hatchling of Aporrectodea
caliginosa (Savigny, 1826) (Oligochaeta: Lumbricidae) in Benghazi, Libya. J.
Arid Environ., 40: 459 – 466.
Namita, J. and D. Madhuri (2008). Life cycle of earthworms Drawida nepalensis,
Metaphire houlleti and Perionyx excavatus under laboratory controlled
conditions. Life Sci. J., 5(4): 83 – 86.
Ndegwa, P.M., S.A. Thompson and K.C. Das (2000). Effects of stocking density and
feeding rate on vermicomposting of biosolids. Biores. Technol., 71: 5 – 12.
Orozco, F.H., J. Cegarra, L.M. Trujillo and A. Roig (1996). Vermicomposting of
coffee pulp using the earthworm Eisenia fetida: Effects on C and N contents and
the availability of nutrients. Biol. Fertil. Soils, 22: 162-166.
Owen, W.L. (1954). Dewaxed, retreated refinery filter press mud as a plant food and
plant growth stimulant, Sugar, 49 (3): 40 – 42.
Padmaja, P., P. Prabha Kumari, T. Jiji and K. Usha Kumari (1996).
Vermitechnology for composting biowastes. In: Nat. Sem. Org. Fmg and Sust.
Agric. (eds. G.K. Veeresh and K. Shivashankar), Bangalore, 36 p.
Padmanabhan, P., P. Rakkiyappan and K.C. Alexander (1993). Enrichment of press
mud by microorganisms, Sugarcane Breeding Institute Extension, Publication
No.39.
Padmavathiamma, P.K., Y. Loretta Li and R. Usha Kumari (2008). An experimental
study of vermibiowaste composting for agricultural soil improvement. Biores.
Technol.,99: 1672-1681 pp.
Pandey, B.N. (1966). By – products of sugarcane industry and their utilization. Indian
Sugar, 16: 205 – 210.
Partha, N. and M.R.V. Krishnan (2000). Press mud for chemicals/ fine chemicals,
Kisan World. 27: 11 –35.
139
Parthasarathi, K. (2007). Influence of moisture on the activity of Perionyx excavatus
(Perrier) and microbiol-nutrient dynamics of press mud vermicompost. Iran J.
Environ. Health. Sci. Eng., 4(3): 147 – 156.
Parthasarathi, K., M. Balamurugan and L.S. Ranganathan (2008). Influence of
vermicompost on the physico – chemical and biological properties in different
types of soil along with yield and quality of the pulse crop - black gram. Iran J.
Environ. Health. Sci. Eng., 5(1): 51 – 58.
Parthasarathi, K. and L.S. Ranganathan (1998). Press mud vermicasts are the ‘hot
spots’of fungi and bacteria. Ecol. Environ. Conser., 4: 81-86.
Parthasarathi, K. and L.S. Ranganathan (1999). Longevity of microbial and enzyme
activity and their influence on NPK contents in press mud vermicasts. Eur. J. Soil.
Biol., 35(3): 107 – 113.
Parthasarathi, K. and L.S. Ranganathan (2002). Supplementation of press mud
vermicasts with NPK enhances growth and yield in leguminous crops (Vigna
mungo and Arachis hypogaea). J. Curr. Sci., 2(1): 35 – 41.
Parthasarathi, K., L.S. Ranganathan, M. Thirumalai and P. Parameshwaran (1999).
Mono and polyculture vermicomposting press mud enhance macronutrients,
Asian J. Microbiol. Biotech. Env. Sci., Global Science Publication, India, 1: 63-
65.
Pemberton, H. (1945). Estimation of total phosphorus. J. Am. Chem. Soc., 15:382 – 395.
Peyvast, Gh., J.A. Olfati, S. Madeni and A. Forghani (2008). Effect of vermicompost
on the growth and yield of spinach (Spinacia oleracea L.). J. Food. Agric.
Environ., 6 (1): 132 – 135.
Phillipson, J. and P.J. Bolton (1977). Growth and cocoon production by Allolobophora
rosea (Oligoochaeta: Lumbricidae). Pedobiologia, 17: 71 – 82.
Pramanik, P., G.K. Ghosh, P.K. Ghosal and P. Banik (2007). Changes in organic – C,
N, P and K and enzyme activities in vermicompost of biodegradable organic
wastes under liming and microbial inoculants. Biores. Technol., 98: 2485 – 2494.
Prasad, B. and R.P. Singh (1981). Accumulation and decline of available nutrients with
long term use of fertilizers manure and lime on multiple cropped lands. Indian J.
Agric. Sci., 51: 108 – 111.
Purushothaman, M. (2011). A comparative study on the culture practices of two epigeic
earthworms using selected organic wastes and their role in ladies finger
cultivation. Ph.D. Thesis, Bharathidasan University, India.
140
Raja, R.P. and R. Ramalingam (2007a). Influence of cashew leaf litter on the growth
and reproduction of a compost earthworm Eudrilus eugeniae (Kinberg). Indian J.
Environ. Ecoplan., 14(1 - 2): 35 – 40.
Raja, R.P. and R. Ramalingam (2007b). Utilization of cashew leaf litter and sugar mill
waste press mud for the culture of a compost earthworm Eudrilus eugeniae
(Kinberg). The Bioscan, 2(1): 37 – 40.
Ramalingam, R. (1997). Studies on the life cycle, growth and population dynamics of
Lampito mauritii (Kinberg) and Eudrilus eugeniae (Kinberg) (Annelida –
Oligochaeta) cultured in different organic wastes and analysis of nutrients and
microbes of vermicompost. Ph.D. Thesis, Annamalai University, Annamalai
Nagar, India.
Ramalingam, R. (2001). Vermicomposting of crop residue sugarcane trash using an
Indian epigeic earthworm, Perionyx excavatus. J. Exp. Zool., 4(2): 267 – 272.
Ramalingam, R. (2004). Sugar factory refuse press mud boosts earthworm, Eudrilus
eugeniae growth and vermiprotein. J. Exp. Zool., 7(1): 121 – 124.
Ramalingam, R. and A.M.V. Christy (2006). Conversion of sago factory solid waste by
an epigeic earthworm Perionyx excavatus (Perrier) and macronutrient
composition of vermicompost produced. J. Annamalai University (Sci.), XLII:
111 – 118.
Ramalingam, R. and V. Kavitha (2006). Toxicity and sublethal effect of nimbecidine
(neem pesticide) on the growth and reproduction of an Indian earthworm Lampito
mauritii (Kinberg). J. Annamalai University (Sci.), 43: 99 – 106.
Ramalingam, R. and L.S. Ranganathan (2001). Vernicomposting of press mud boosts
nutrient quality of compost. Ecol. Env. Cons., 7(3): 297 – 299.
Ramalingam, R. and M. Thilagar (2000). Bio – conversion of agro – waste sugarcane
trash using an Indian epigeic earthworm, Perionyx excavatus (Perrier). Indian J.
Environ. Ecoplan., 3(3): 447 – 452.
Ranganathan, L.S. and K. Parthasarathi (1999). Precocious development of
Lampito mauritii and Eudrilus eugeniae reared in press mud. Pedobiologia, 45:
904 - 908.
Ramesh, P.T. and K. Guna Thilagaraj (1996). Degradation of coir waste and Tapioca
peel by earthworms. J. Madras Agric., 83 (1): 26-28.
Rangaraj, T., E. Somasundaram, M. Mohamed Amanullah, V. Thirumurugan,
S. Ramesh and S. Ravi (2007). Effect of agro – industrial wastes on soil
properties and yield of irrigated finger millet (Eleusine coracana L. Gaertn) in
coastal soil. Res. J. Agric. Biol. Sci., 3(3): 153 – 156.
141
Rao, S., A.S. Rao and P.N. Takkar (1996). “Changes in different forms of K under
earthworm activity”, In: Proc. Nat. Sem. Org. Farm. and Sustain. Agric.
Ghaziabad, India, 9-11pp.
Reinecke, A.J. and L. Hallatt (1989). Growth and cocoon production of Perionyx
excavatus (Oligochaeta). Biol. Fertil. Soils, 8: 303 – 306.
Reinecke, A.J. and J.R. Kriel (1981). Influence of temperature on the reproduction of
the earthworm Eisenia fetida (Oligochaeta). S. Afr. J. Zool., 16: 96 – 100.
Reincke, A.J. and J.M. Venter (1985). The influence of moisture on the growth and
reproduction of the compost worm Eisenia fetida (Oligochaeta). Rev. Ecol. Biol.
Sol., 22(4): 473 – 481.
Reinecke, A.J. and J.M. Venter (1987). Moisture preferences, growth and reproduction
of the compost worm Eisenia fetida (Oligochaeta). Biol. Fertil. Soils, 3: 135 –
141.
Reinecke, A.J. and S.A. Viljoen (1990). The influence of feeding patterns on growth
and reproduction of the vermicomposting earthworm Eisenia fetida
(Oligochaeta). Biol. Fertil. Soils, 10: 184 – 187.
Reinecke, A.J. and S.A. Viljoen (1991). A comparison of the biology of Eisenia fetida
and Eisenia andrei (Oligochaeta). Biol. Fertil. Soils, 11:295-300.
Reinecke, A.J., S.A. Viljoen and R.J. Saayman (1992). The suitability of Eudrilus
eugeniae, Perionyx excavatus and Eisenia fetida (Oligochaeta) for
vermicomposting in Southern Africa in terms of their temperature requirements.
Soil Biol. Biochem., 24 (12): 1295 – 1307.
Reynolds, J.W. (1973). Earthworm (Annelida: Oligochaeta) ecology and systamatics; In:
Proceedings of 1st Soil Microcommunities Conference, Syracuse, NY, October
1971 (ed. D.L. Dindal), US Atomic Enery Commission, Office of Inforamtion
Services, Washington, 95 – 120 pp.
Ruz, J.E., P.R. Ball and R.W. Tillman (1988). The role of earthworm in nitrogen
release from herbage residues. In: Nitrogen Efficiency in Agriculture soils (eds.
D.S. Jeckinson and K.A. Smith). (Publishers unknown). 355-370 pp.
Samuels, G. and P. Landrau (1957). Filter – press cake as a fertilizer. The Sugar
Journal, 19 (2): 18 – 19.
Sarojini, S., S. Ananthakrishnasamy, G. Manimegala, M. Prakash and
G. Gunasekaran (2009). Effect of lignite fly ash on the growth and
reproduction of earthworm Eisenia fetida. E.J. Chem., 6(2): 511 – 517.
Satchell, J.E. (1967). Lumbricidae; In: Soil biology (eds. A. Burges and F. Raw),
London: Academic press, 259 – 322 pp.
142
Satchell, J.E. and K. Martin (1984). Phosphate activity in earthworm faeces, Soil Biol.
Biochem., 16: 191-194.
Scheu, S. (1987). Microbial activity and nutrient dynamics in earthworm casts
(Lumbricidae). Biol. Fertil. Soils, 5: 230-234.
Sen, P.C. and K.L. Basu (1940). A preliminary study on the manurial value of the filter
– press cake. Proc. Sug. Technol. Assoc. of India, 9 (1): 261 -265.
Senapati, B.K. (1993). Vermitechnology in integrated waste biomass management:
concepts, prospects and problems. In: Biogas Slurry Utilization, Consartium on
Rural Technology (CORT), New Delhi, 57-74 pp.
Senapati, B.K., P. Lavelle, S. Giri, B. Pashanasi, J. Alegre, T. Decaens, J.J. Jimenez,
A. Albrecht, E. Blanchart, M. Mahieux, L. Rousseaux, R. Thomas, P.K.
Panigrahi and M. Venkatachalam (1999). In – soil earthworm technologies for
tropical agroecosystem. In: Earthworm Management in Tropical Agroecosystem
(eds. P. Lavelle, L. Brussaard and P. Hendrix), CABI Publishing, U.K., 199 – 238
pp.
Senesi, N. (1989). Composted materials as organic fertilizers. The Sci. Total Environ.,
81/82: 521-524.
Sequi, P. (1986). Humic substances: General influence on soil fertility. In:
Humic Substances. Effect on Soil and Plants, Reda, 29-34.
Sevugaperumal, R., K. Jaisankar and K. Jayaraj (1998). Comparative analysis of the
effect of vermicompost and Azospirillum on Sorghum, Sorghum vulgare Linn.
ANJAC J., 15:18-21.
Shahmansouri, M.R., H. Pourmoghadas, A.R. Parvaresh and H. Alidadi (2005).
Heavy metals bioaccumulation by Iranian and Australian earthworms (Eisenia
fetida) in the sewage sludge vermicomposting. Iranian J. Env. Health Sci. Eng.,
2(1): 28 – 32.
Sharma, K. (2003). Biofertilizers for sustainable agriculture, 1st edition, Agrobios, India.
Sheppard, P.S. (1988). Specific differences in cocoon and hatchling production in
Eisenia fetida and Eisenia andrei. In: Earthworms in Waste and Environmental
Management. (eds. C.A. Edwards and E.F. Neuhauser), SPB, The Hague, 83-92
pp.
Shipitalo, M.J., R. Protz and A.D. Tomlin (1988). Effect of diet on the feeding and
casting activity of Lumbricus terrestris and Lumbricus rubellus in laboratory
culture. Soil Biol. Biochem., 20(2): 233 – 237.
Singh, G.B. and P.K. Bajpai (1994). Sugarcane production – oriented policy. The Hindu
Survey of Indian Agriculture, 65 – 67 pp.
143
Singh, N.B., A.K. Khare, D.S. Bhargava and S. Bhattacharya (2005). Effect of initial
substrate pH on vermicomposting using Perionyx excavatus (Perrier, 1872).
Appl. Ecol. Environ. Res., 4: 85 – 97.
Singh, A.P., R. Sakal and R.B. Sinha (1989). Effect of changing cropping pattern and
fertility levels on crop yields and micronutrients status of soil after five cycles of
crop rotation. Ann. Agric. Res., 10(4): 361 – 367.
Singh, A. and S. Sharma (2002). Composting of a crop residue through treatment with
microorganisms and subsequent vermicomposting. Biores. Technol., 85: 107 –
111.
Sinha, P.S., R. Nagina, B.D. Singh, U.P. Griyaghey, B. Saratchandra and B.R.R.P.
Sinha (2005). Studies on the vermiculture technique and efficacy of
vermicompost substituting NPK and FYM requirements of Morus alba L. Indian
J. Agric. Res., 39(4): 235 – 241.
Sogbesan, O.A. and A.A.A. Ugwumba (2006). Effect of different substrates on growth
and productivity of Nigeria semi – arid zone earthworm (Hyperiodrilus euryaulos,
Clausen 1842) (Oligochaeta: Eudrilinae). World J. Zool., 1(2): 103 – 112.
Spurgeon, D.J. and S.P. Hopkins (1996). Effects of metal - contaminated soils on the
growth, sexual development and early cocoon production of the earthworm
Eisenia fetida, with particular reference to zinc, Ecotox. Environ. Safety, 35: 86-
95.
Stanford, S. and L. English (1949). Use of flame photometer in rapid soil tests of K and
Ca. Agron. J., 41: 446 – 447.
Subramaniyan, A. and R. Bakthavathsalam (2009). Utilization of paddy straw waste
in the culture practices of earthworm and cultivation of radish plant. Environ.
Ecol., 27(4A): 1664 – 1671.
Sudha, V. and R. Bakthavathsalam (2010). Bacterial and fungal studies in the gut
contents and vermicasts of Eudrilus eugeniae fed with elephant dung and an
analysis of nutrients in elephant dung. Environ. Ecol., 28 (2A): 1066 – 1070.
Suthar, S. (2006). Potential utilization of guar gun industrial waste in vermicompost
production. Biores. Technol., 97 (18): 2474 – 2477.
Suthar, S. (2007a). Influence of different food sources on growth and reproduction
performance of composting epigeics: Eudrilus eugeniae, Perionyx excavatus and
Perionyx sansibaricus. Appl. Ecol. Environ. Res., 5(2): 79 – 92.
Suthar, S. (2007b). Vermicomposting potential of Perionyx sansibaricus (Perrier) in
different waste materials, Biores. Technol., 98: 1231 – 1237.
144
Suthar, S. (2007c). Nutrient changes and biodynamics of epigeic earthworms Perionyx
excavatus (Perrier) during recycling of some agricultural wastes. Biores.
Technol., 98: 1608 – 1614.
Suthar, S. (2008a). Bioremidiation of aerobically treated distillery sludge mixed with
cow dung by using an epigeic earthworm Eisenia fetida. Environ., 28: 76-84.
Suthar, S. (2008b). Bioconversion of post harvest crop residues and cattle shed manure
into value added products using earthworm Eudrilus eugeniae (Kinberg). Ecol.
Engineer., 32: 206-214.
Suthar, S. and S. Singh (2008). Vermicomposting of domestic waste by using two
epigeic earthworms (Perionyx excavatus) and (Perionyx sansibaricus). Int. J.
Environ. Sci. Technol., 5(1): 99 – 106.
Syres, J.K., A.N. Sharpley and D.R. Keeney (1979). Cycling of nitrogen by surface
casting earthworms in a pasture ecosystem. Soil Biol. Biochem., 11: 181-185.
Talashilkar, S.C., P.P. Bhangarath and V.B. Mehta (1999). Changes in chemical
properties during composting of organic residues as influenced by earthworm
activity. J. Indian Soc. Soil Sci., 47: 50-53 pp.
Tian, G., L. Brussaard and B.T. Kang (1995). Breakdown of plant residues with
contrasting chemical compositions under humid tropical conditions: Effects of
earthworms and millipedes. Soil Biol. Biochem., 27(3): 277 – 280.
Tognetti, C., F. Laos, M.J. Mazzarino and M.T. Hernandez (2005). Composting
vs.Vermicomposting: a comparison of end product quality. Comp. Sci. Utiliz.,
13(1): 6-13 pp.
Tomati, U. and E. Galli (1995). Earthworms soil fertility and plant productivity. In:
Acta. Zool. Fennica, (eds. J. Haimi and V. Huhta), No.196, 11- 14 pp.
Tomati, U., A. Grappelli and E. Galli (1987). The presence of growth regulators in
earthworm - worked wastes. In: On Earthworms (eds. A.M. Bonvicini pagliai and
P. Omodeo), Selected symposia and monographs, U.Z.I., 2 Mucchi, Modena, 423
– 435 pp.
Tomati, U., A. Grappelli and E. Galli (1988). The hormone – like effect of earthworm
casts, Biol. Fertil. Soils, 5: 288 – 294.
Tripathi, G. and P. Bhardwaj (2004). “Comparative studies on biomass production, life
cycles and composting efficiency of Eisenia fetida (Savigny) and Lampito
mauritii (Kinberg)”, Biores. Technol., 92(3): 275-283 pp.
Tsukumoto, J. and H. Watanabe (1977). Influence of temperature on hatching and
growth of Eisenia fetida (Oligochaeta, Lumbricidae). Pedobiologia, 17: 338 –
342.
145
Ulrik Reeh (1992). Influence of population densities on growth and reproduction of the
earthworm Eisenia fetida on pig manure. Soil Biol. Biochem., 24 (12): 1327 –
1331.
Umamaheswari, P. and R. Bakthavathsalam (2010). Role of Eudrilus eugeniae on the
process of alkaline soil reclamation using Polyalthia longifolia (Sonn) tested
through white radish cultivation. Environ. Ecol., 28 (2A): 1059 – 1065.
Umesh Mogle, P. and V. Bharati Jadha (2007). Interactive effect of weed
vermicompost on yield and physiological and mycological investigations of
maize. Asian J. Microbiol. Biotech. Environ. Sci., 9 (1): 63 – 66.
Uthayakumar, S. and R. Bakthavathsalam (2009). Analysis of vermicompost of
vegetable market waste and its effect on the growth and yield of black gram.
Environ. Ecol., 27(3A): 1332 1337.
Vadiraj, B.A., K. Siddagangaiah and V. Krishnakumar (1996). Response of coriander
cultivars to the graded levels of vermicompost. In: Nat. Sem, Org. Fing. and
Sust.Agric., (eds. G.K. Veeresh and K. Shivashankar), Bangalore, 47-48 pp.
van Gestel, C.A.M., E.M.B. Dirven van and R. Baerselman (1992). Influence of
environmental conditions on the growth and reproduction of the earthworm
Eisenia andrei in an artificial soil substrate. Pedobiologia, 36:109-120.
Vaughan, D. and R.E. Malcolm (1979). Effect of humic acid on invertase synthesis in
roots of higher plants. Soil Biol. Biochem., 11: 247-252.
Velando, A., J. Dominguez and A. Ferreiro (2006). Inbreeding and outbreeding
reduces cocoon production in the earthworm Eisenia andrei. European J. Soil
Biol., 42 S: 354 – 357.
Venkatesh, R.M. and T. Eevera (2008). Mass reduction and recovery of nutrients
through vermicomposting of fly ash. Appl. Ecol. Environ. Res., 6(1): 77 – 84.
Venter, J.M. and A.J. Reinecke (1988). The life – cycle of the compost worm Eisenia
fetida (Oligochaeta). S. Afr. J. Zool., 23: 161 – 165.
Vikram Reddy, M. (1989). The effect of casts of Pheretima alexandri (Beddard) on the
growth of Vinca rosea and Oryza sativa L. In: Earthworms in Waste and
Environmental Management (eds. C.A. Edwards and E.F. Neuhauser), SPB
Academic Publishing, The Hague, 241 – 248 pp.
Vikram Reddy, M., P. Balashouri, V.P.K. Kumar, A.L. Cogle, K.P.C. Rao and
K.V. Rao (1994). Sorghum plant growth in relation to earthworm casting
activity in a semi-arid tropical Alfisol. In: Soil Biota Management in Sustainable
Farming Systems. (eds. C.E. Pankhurst., D.M. Doube, V.V.S.R. Gupta and P.R.
Grace), C.S.I.R.O., Australia, 127 – 128 pp.
146
Vikram Reddy, M. and K. Ohkura (2004). Vermicomposting of rice – straw and its
effects on sorghum growth. Tropical Ecology, 45 (2): 327 – 331.
Viljoen, S.A. and A.J.Reinecke (1989). The life-cycle of the African night crawlar
Eudrilus eugeniae (Oligochaeta). S.Afr.J.Zool., 24: 27-32.
Viljoen, S.A. and A.J. Reinecke (1992). The temperature requirement of the epigeic
earthworm species Eudrilus eugeniae (Oligochaeta) – A laboratory study. Soil
Biol. Biochem., 24: 1345 – 1350.
Viljoen, S.A. and A.J. Reinecke (1994). The life-cycle and reproduction of Eudrilus
eugeniae under controlled environmental conditions. Mitt. Hamb. Zool. Mus.
Inst., 89 (2) :149-157.
Walkley, A. and C.A. Black (1934). An examination of the Degtijareff method for
determining soil organic matter and proposed modification of the chromic acid
titration method. Soil Sci., 37: 233 – 243.
Watanabe, H. and J. Tsukamoto (1976). Seasonal change in size and stage structure of
Lumbricid Eisenia fetida population in a field compost and its practical
application as the decomposer of organic waste matter. Rev. Ecol. Biol. Sol., 13:
141 – 146.
Wong, J.W.C., S.W.Y. Li and M.H.Wong (1995). Coal fly ash as a composting
material for sewage sludge: Effects on microbial activity. Environ. Technol., 16:
527 – 537.
Yadav, D.V. (1995). Recycling of sugar factory press mud in agriculture. In: Recycling
of crop, animal, human and industrial wastes in agriculture (ed. H.L.S. Tandon),
Fertilizer Development and Consultation Organization, New Delhi, 91 – 108 pp.
Zachmann, J.E. and D.R. Linden (1989). Earthworm effects on corn residue
breakdown and infiltration. Soil Sci. Soc. Am., 53 (6): 1846 – 1849.
Zhaw Shi-Wei and Houng Fe-Zhen (1992). The nitrogen uptake efficiency from N15
labelled chemical fertilizer in the presence of earthworm manure (cast). In:
Advances in Management and Conservation of Soil Fauna (eds. G.K. Veeresh., D.
Rajagopal and C.A. Viraktamath). Oxford and IBH, New Delhi.