vermilogical research for environmental ma.....

VERMILOGICAL RESEARCH FOR ENVIRONMENTAL MA.. REFERENCES

1

Abbasi, S.A. and Ramasamy E.V., 1999. Anaerobic digestion of high solid waste.

In: Proceedings of 8th National Symposium on Environment IGCAR,

Kalpakkam, India, 220-224.

Abbasi, S.A. and Ramasamy, E.V., 2001. Solid waste management with

earthworms. New Delhi: Discovery Publishing House.

Abbasi, S.A., 1996. Solid wastes and their management, Cogent International,

India.

Abbasi, S.A., 1998. Weeds of despair, and hope. In: Wetlands of India. New Delhi:

Discovery Publishing House, 12-21.

Acharya, M.S., 1997. Integrated vermiculture for rural development. International

Journal of Rural Studies, 4 (1): 8-10.

Agarwal, S., 1999. Study of vermicomposting of domestic waste and the effects of

vermicompost on growth of some vegetable crops. Ph.D. Thesis, University

of Ra-jasthan, Jaipur Garg, V.K.

Aira, M.F., Monroy and Dominguez, J., 2006. C to N ratio strongly affects

population structure of Eisenia fetida in vermicomposting systems.

European Journal of Soil Biology, 42: 127-131.

Aire, M., Monroy, F., Dominguez, J. and Mato, S., 2002. How earthworm density

affects microbial biomass and activity in pig manure. European Journal of

Soil Biology, 38: 7-10.

Akiyama, T., Murai, T., Hirasawa, Y. and Nose, T., 1984. Supplementation of

various meals to fish meal diet for chum Salmon fry. Aquaculture, 37: 217-

222.


2

Alam, M.N., Jahan, M.S., Ali, M.K., Ashraf, M.A. and Islam, M.K., 2007. Effect

of Vermicompost and Chemical Fertilizers on Growth, Yield and Yield

Components of Potato in Barind Soils of Bangladesh. Journal of Applied

Sciences Research, 3(12): 1879-1888.

Albanell, E., Plaixats, J. and Cabrero, T., 1988. Chemical Changes During

Vermicomposting (E. fetida) of Sheep Manure Mixed with Cotton

Industries Waste. Biology and Fertility of Soil, 6(3): 266-269.

Allevi, L., Citteerio, B. and Ferrovi, A., 1987. Vermicomposting of rabbit manure;

modification of microflora, Proc Symp Compst; production, quality and use

(commission of European communities, Udine, Italy- 17-18 April), 115-

126.

Amorim, M.J.B.J., Rombke and A.M.V.M. Soares, 2005. Avoidance behaviour of

Enchytraeus albidus: effects of Benomyl, Carbendazim, phenmedipham

and different soil types. Chemosphere, 59(4): 501–510,

Anila Andlib, Roop Narayan Verma, Sonal Saxena and Amla Batra, 2011. High-

frequency induction of multiple shoots of Stevia rebaudiana bertoni

through in vitro Micropropagation techniques. Elixir Hor. and Sig, 34:

2465-2468.

Anitha, J. and Indira Jayraaj, 2012. Nutritional and Antioxidant evaluation of

earthworm powder (Eudrillus euginae). International journal of Pharmacy,

3(2): 13-17

Anonymous, 1992. Recycling of crop residue in the soil and its effect on the

performance of rabi sorgum. 29th Meeting of Research Review Committee.

Report Agri. Chem. & Soil. Sci., M.P.K.V., Rahuri, India.

Anonymous, 1998. Sustainable Agriculture. People and the Planet, 7(1): 2-8.

Anonymous, 2001. Vermicompost as Insect Repellent. Biocycle, 1: 1-19.


3

Ansari Abdullah, A., 2008. Effect of Vermicompost on the Productivity of Potato

(Solanum tuberosum). Spinach (Spinacia oleracea) and Turnip (Brassica

campestris). World Journal of Agricultural Sciences, 4(3): 333-336.

Ansari, A.A. and Sitaram, K., 2011. An Investigation into the Antimicrobial and

Anti-fungal Properties of Earthworm Powder Obtained from Eisenia fetida.

American Journal of Food Technolog, 6: 329-335.

AOAC Official Method 2000, Moisture content, Cereal Grains, and For ages

Randall/Soxtec/Hexanes Extraction-Submersion Method First Action 2000

Final Action 2000.

AOAC Official Method, 2003 (06). Crude Fat in Feeds, Ce real Grains, and For

ages Randall/Soxtec/Hexanes Extraction-Submersion Method First Action

2003 Final Action 2006.

Appelhof Mary, 1997. Worms Eat My Garbage; 2nd (Ed.). Flower Press,

Kalamazoo, Michigan, U.S.

Appelhof Mary, 2003. Notable Bits; In WormEzine, Vol: 2 (5). (Available at

(http://www.wormwoman.com).

Applehof Mary, 1981. Workshop on the Role of Earthworms in the Stabilisation of

Organic Residues. Vol.1, Proceedings. Beech Leaf Press: Kalamazoo,

Michigan.

Applehof Mary, 1988. Domestic vermicomposting systems. In Earthworms in

Waste and Environmental Management (eds, C.A. Edwards & E.F.

Neuhauser). Academic Publishing: The Hague, The Netherlands.

Arancon, N., 2004. An interview with Dr. Norman Ar-ancon. Casting Call, 9(2),

http://www.vermico. Edwards, C.A. and Arancon, N. (2004)

Vermicompost Supress Plant Pests and Disease Attacks. Rednova News,

http://www.rednova.com/display/.


4

Arancon, N.Q., Edwards, C.A., Babenko, A., Cannon, J., Galvis, P. and Metzger,

J.D., 2008. Influences of vermicomposts, produced by earthworms and

microorganisms from cattle manure, food waste and paper waste, on the

germination, growth and flowering of petunias in the greenhouse. Applied

Soil Ecology, 39: 91-99.

Arancon, N.Q., Edwards, C.A., Bierman, P., Metzger, S., Lee and Welch, C., 2003.

Effects of vermicomposts on growth and marketable fruits of field-grown

tomatoes, peppers and strawberries. Pedobiologia, 47: 731-735.

Arancon, N.Q., Edwards, C.I. and Bierman, P., 2006. Influences of vermicomposts

on field strawberries-2: Effects on soil microbiological and chemical

properties; Bioresource Technology, 97: 831-840.

Arancon, N.Q., Edwards, C.I., Bierman, P., Welch, C. and Metzger, T.D., 2004.

Influences of vermicomposts on field strawberries: 1. Effect on growth and

yields. Bioresour. Technol, 93: 145-153.

Arora, J.K. and Sharma, S.K., 2002. Impact of vermin processing on soil

characteristics. J Pollut Cont, 18: 87-92.

Asha Aalok, A.K., Tripathi and Soni, P., 2008. Vermicomposting: A Better Option

for Organic Solid Waste Management. J. Hum. Ecol, 24(1): 59-64.

Athanasopoulos, N., 1993. Use of earthworm biotechnology for the management

of anaerobically stabilized effluents of dried vine fruit industry.

Biotechnology Letters, 15(12): 1281-1286.

Athani, S.I., Hulamanai, N.C. and Shirol, A.M., 1999. Effect of vermicomposts on

the maturity and yield of banana. South Indi. Hort. 47 (1–6), 4–7.

Atiyeh, R.M., Arancon, N.Q, Edwards, C.A. and Medzger, 2002a. The influence of

earthworm processed pig manure on growth and productivity of marigolds.

Bioresources technology, 81: 103-108.


5

Atiyeh, R.M., Arancon, N.Q., Edwards, C.A. and Metzger, J.D., 2000c. Influence

of earthworm-processed pig manure on the growth and yield of green house

tomatoes. Bioresource Technology, 75: 175-180.

Atiyeh, R.M., Dominguez, J.,Sobler, S. and Edwards, C.A., 2000a. Changes in

biochemical properties of cow manure during processing by earthworms

(Eisenia andrei) and the effects on seedling growth; Pedobiologia, 44: 709-

724.

Atiyeh, R.M., Edwards, C.A., Subler, S. and Metzger, J.D., 2001. Pig manures

vermicompost as a component of a horticultural bedding plant medium:

effects on physiochemical properties and plant growth. Bioresource

Technology, 78: 11-20.

Atiyeh, R.M., Lee, S.S., Edwards, C.A., Arancon, N.Q. and Metzger, J.D., 2002b.

The influence of humic acid derived from earthworm-processed organic

wastes on plant growth. Bioresource Technology, 84: 7- 14.

Atiyeh, R.M., S. Subler, C.A. Edwards, G. Bachman, J.D. Metzger and W. Shuster,

2000b. Effects of vermicomposts and composts on plant growth in

horticultural container media and soil. Pedo biologia, 44: 579–590.

Atiyeh, R.M., Subler, S., Edwards, C.A. and Metzger, J.D., 1999. Growth of

Tomato Plants in Horticultural Potting Media Amended with

Vermicompost. Pedobiolo-gia, 43(4): 1-5.

Avel, M., 1959. Classe des annelids oligochaetes (Oligochaeta, Huxley, 1875).

Traite de Zool, 5: 224-271.

Aveyard Jim, 1988. Land degradation: Changing attitudes - why? Journal of Soil

Conservation. New South Wales, 44: 46–51.

Avnish Chauhan and Joshi, P.C., 2010. Composting of Some Dangerous and Toxic

Weeds Using Eisenia Fetida. Journal of American Science, 6(3): 13-23.


6

Avnish Chauhan, Sanjeev Kumar, Amit Pal Singh and Mohit Gupta, 2010.

Vermicomposting of Vegetable Wastes with Cowdung Using Three

Earthworm Species Eisenia foetida, Eudrilus eugeniae and Perionyx

excavatus. Nature and Science, 8(1): 33-43.

Azarmi, R., Mousa Torabi Giglou and Rahim Didar Taleshmikail, 2008. Influence

of vermicompost on soil chemical and physical properties in tomato

(Lycopersicum esculentum) field. African Journal of Biotechnology, 7(14):

2397-2401.

Babu Vijaya Sankar M., G. Adinarayana, K. Rama Subbaiah, D. Balaguravaiah

and T. Yellamanda Reddy, 2008. Vermicompost with different farm wastes

and problematic weeds. Indian J. Agric. Res., 42(1): 52-56.

Bahl, K.N., 1927. On the reproductive processes of earthworms. Part 1. The

process of copulation and exchange of sperms in Eutyphoeus waltoni mich.

Quarterly Journal of Microscopy, 71: 479.

Baker, G. and Barrett, V., 1994. Earthworm Identifier. CSIRO Publications: East

Melbourne.

Baker, G. and Kilpin, G., 1992. CSIRO's Double Helix Science Club Earthworm

Identifier. CSIRO Publications: East Melbourne.

Baker, G.H., Brown, G., Butt, K., Curry, J.P. and Scullion, J., 2006. Introduced

earthworms in agricultural and re-claimed land: Their ecology and

influences on soil prop-erties, plant production and other soil biota.

Biological Invasions, 8(6): 1301-1316.

Baker, G.H., Williams, P.M., Carter, P.J. and Long, N.R., 1997. Influence of

lumbricid earthworms on yield and quality of wheat and clover in

glasshouse trials. Journal of Soil Biology and Biochemistry, 29(3/4): 599-

602.


7

Bakthvathsalam, R. and Ramakrishnan, G., 2004. Culture of earthworm using

different organic wastes of agricultural importance. Environment &

Ecology, 22(2): 386-391.

Balasubramanian, P.R. and Bai Kasturi, 1995. Recycling of cattle dung, biogas

planteffluent and water hyacinth in vermiculture. Bioresource Technology,

52(1): 85-87.

Bano, K. and Kale, R.D., 1988. Reproductive potential and existence of

endogenous rhythm in production of earthworm Eudrilus eugeniae. Proc.

Zool.Soc., 32: 9-14.

Bano, K., Kale, R.D., Ganjan, G.N., 1987. Culturing of earthworm Eudrillus

eugineae for cast production and assessment of worm cast as biofertilizer.

Journal of Soil Biology and Ecology, 7(2): 98-104.

Bansal, S. and Kapoor, K.K., 2000. Vermicomposting of crop residues and cattle

dung with Eisenia foetida. Biores. Technol, 73: 95-98.

Barely, K.P., 1961. Abundance of earthworms in agricultural lands and their

possible significance in agriculture. Adv Agron, 13: 249-269.

Barker, D., Fitzpatrick, M.P. and Dierenfeld, E.S., 1998. Nutrient composition of

selected whole invertebrates. Zoo Biology, 17: 123-134.

Barley, K.P. and Jennings, 1959. Earthworms and Soil Fertility III; The Influence

of Earthworms on the Availability of Nitrogen. Australian Journal of

Agricultural Research, 10: 364-370.

Barley, K.P., 1959. The Influence of Earthworm on Soil Fertility II: Consumption

of Soil and Organic Matter by the Earthworms. Australian Journal of

Agricultural Research, 10: 179-185.

Beeson Jr, R.C., 1996. Composted yard waste as a component of container

substrates. Journal of Environmental Horticulture, 14: 115-121.


8

Belewu, M.A. and W.O. Banjo, 1999. Pre-treatment of sawdust and cotton waste

by white rot fungi (Pleurotus sajoreajus). Proceeding of the 14th Annual

Animal Science Association of Nigeria.

Benik, P. and Bejbaruah, R., 2004. Effect of vermicompost on rice (Oryza sativa)

yield and soil-fertility status of rainfed humid sub-tropics. Indian Journal of

Agriculture Sciences, 74(9): 488-491.

Benitez, E., Nogales, R., Elvira, C., Masciandaro, G. and Ceccanti, B., 1999.

Enzyme activities as indicators of the stabilization of sewage sludges

composting with Eisenia fetida. Bioresource Technology, 67: 297–303.

Bharti Singh Raipat, 2010. Assessment of impact of Parthenium hysterophorus On

Eisenia foetida through vermicomposting, The bioscan, 5(1): 149 – 152.

Bhat, J.V. and P. Khambata, 1994. Role of earthworms in agriculture; Indian

Council of Agriculture Research (ICAR), New Delhi, India, Series No. 22:

36.

Bhatanagar, P. and Mamta Sharma, 1993. Monitoring of organochlorine pesticide

residuesin wheat and drinking water samples from Jaipur (Raj.), AEB

Symp. on ‘Toxicity Evaluation in Biosystems, Indore, India, Nov. 7-9,

1993.

Bhatia Sonu, 2000. Earthworm and Sustainable Agriculture: Study of the Role of

Earthworm in Production of Wheat Crop. Ph.D Thesis Awarded by

University of Rajasthan, Jaipur, India. (Supervisor: Rajiv K. Sinha).

Bhatia Sonu, K., Rajiv Sinha and Reena Sharma, 2000. Seeking Alternatives to

Chemical Fertilisers for Sustainable Agriculture: A Study on the Impact of

Vermiculture on the Growth and Yield of Potted Wheat Crops (Triticum

aestivum Linn). International J. of Environmental Education &

Information, 19 (4): 295-304.

Bhatnagar, R.K. and Palta, R.K., 2002. Earthworm Vermiculture and

Vermicomposting, Kalyani Publishers, New Delhi.


9

Bhattacharjee, G. and Chaudhuri, P.S., 2002. Cocoon production, morphology,

hatching pattern and fecundity in seven tropical earthworm species – a

laboratory-based investigation. J. Biosci. 27: 283-294.

Bhattacharya, K.K., Mukhopadhyay, N.S., Mukharjee, D. and Das, S.K., 2002.

comparative efficiency of improved compost techniques, in proc conf waste

recycling and resource management in developing world, edited by B B

Jana (Kalyani University, Kolkata) 2002, 219-224.

Bhawalkar, U.S., 1995. Vermiculture Eco-technology. Publication of Bhawalkar

Earthworm Research Institute (BERI), Pune, India.

Bhawalkar, V.U. and Bhawalkar, U.S., 1992, Recycling of sugar residues by

vermiculture biotechnology. In: Paper presented at the National Seminar on

Organic Farming. Pune, 18-19, April 1992.

Bhawalkar, V.U. and U.S. Bhawalkar, 1993. Vermiculture: The Bionutrition

System; National Seminar on Indigenous Technology for Sustainable

Agriculture, I.A.R.I, New Delhi, March 23-24: 1-8.

Bhiday, M.H., 1995. Wealth from Waste: Vermiculturing; Publication of Tata

Energy Research Institute (TERI), New Delhi, India; ISBN 81-85419-11-6.

Bhiday, M.R., 1994. Earthworms in agriculture. Indian Farming, 43(12): 31–34.

Bhuwaneswari, R. and Sriramchandrasekharan, 2006. Influence of organic

manures in conjunction with sulphur on yield and nutrient uptake by rice.

Adv. in Plant Sci, 19(2): 543-545.

Binet, F., L. Fayolle and M. Pussard, 1998. Significance of earthworms in

stimulating soil microbial activity. Biology and Fertility of Soils, 27: 79-84.

Bintoro Gunadi and Clive, A., Edwards, 2003. The effects of multiple applications

of different organic wastes on the growth, fecundity and survival of Eisenia

fetida (Savigny) (Lumbricidae). Pedobiologia, 47, 321–329.


10

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.

Bogdanov, P., 2004. The single largest producer of ver-micompost in world. In:

Bogdanov, P. Ed., Casting Call, 9(3).

Bogdanov, Peter, 1996. Commercial Vermiculture: How to Build a Thriving

Business in Redworms; VermiCo Press, Oregon, 83.

Bombatkar, V., 1996. The miracle called compost. The Other India Press, Pune,

India

Bonkowski, M. and M. Schaefer, 1997. Interactions between earthworms and soil

protozoa: A trophic component in the soil food web. J. of Soil Biology and

Biochemistry, 291: 499-502.

Borah, P., Mahanta, S.K., Kakoty, U.K., Saha, A.D. and Sahasrabudhe, D., 2007.

study of quality parameters in vermicomposting, Indian journal of

biotechnology, 6: 410-413.

Bouche, M.B. and Ferriere, G., 1986. Soil organisms as components of ecosystem.

Eco. Bull. Stockholm. 25: 122–132.

Buckerfield, J.C. and Webster, K.A., 1998. Worm- worked waste boost grape yield:

Prospects for vermi-compost use in vineyards. The Australian and New

Zea-land Wine Industry Journal, 13(1): 73-76.

Buckerfield, J.C., 1994. Appropriate earthworms for agriculture and vermiculture.

Technical Report, 2/1994. CSIRO Australia, Division of Soils: Adelaide.

Bugbee, G.J. and Frink, C.R., 1989. Composted waste as a peat substitute in peat-

lite media. HortScience, 24: 625-627.

Butt, K.R., 1993. Utilization of solid paper mill sludge and spent brewery yeast as

a feed for soil-dwelling earthworms. Bioresource Technology, 44: 105-107.


11

Butt, K.R., Frederickson and R.M. Morris, 1992. The intensive production of

Lumbricus terrestris L. for soil amelioration. Soil Biology and

Biochemistry, 24: 1321-1325.

Canellas, L.P., F.L. Olivares, A.L. Okorokova and R.A. Facanha, 2000. Humic

Acids Isolated from Earthworm Compost Enhance Root Elongation, Lateral

Root Emergence and Plasma Membrane H+-ATPase Activity in Maize

Roots. J. of Plant Physiology, 130: 1951-1957.

Cegarra, J., Fernandez, F.M. Tercero, A. and Roig, A., 1994. Effects of

vermicomposting on some components of organic wastes: Preliminary

results. Mitteilungen aus dem Hamburgischen Zoologischen Museum und

Institut, 89 (2): 159-167.

Cerda, H., Martinez, R., Briceno, N., Pizzoferrato, L., Manzi, P., Tommaseo

Ponzetta, M., Marin, O. and Paoletti, M., 2001. Palm worm:

(Rhychophorus palmarum) traditional food in Amazonas, Venezuela—

nutritional composition, small scale production and tourist palatability.

Ecol. Food Nutr. 40: 13–32.

Chan, L.P.S. and Griffiths, D.A., 1988. The vermicomposting of pre-treated pig

manure. Biol. Wastes 24: 57–69.

Chaoui, H.I., L.M. Zibilske and T. Ohno, 2003. Effects of earthworms casts and

compost on soil microbial activity and plant nutrient availability. Soil

Biology and Biochemistry, 35(2): 295-302.

Charles Darwin, 1881. The Formation of Vegetable Moulds through the Action of

Worms. Murray Publications, London.

Chauhan Krunal, 2009. A Comprehensive Study of Vermiculture Technology:

Potential for its Application in Solid Waste and Wastewater Management,

Soil Remediation and Fertility Improvement for Increased Crop

Production; Report of 40 CP Honours Project for the Partial Fulfillment of


12

Master of Environmental Engineering Degree; Griffith University,

Australia (Supervisors: Dr. Rajiv K. Sinha and Dr. Sunil Heart).

Chudhary, P.S., Pal, T.K., Bhattachrjee, G. and Dey, S.K, 2000. Chemical

characterization of kitchen waste vermicompost processed by Perionyx

excavatus. Environment and Ecology, 18(4): 902-904.

Clarholm, M., 1981. Protozoan grazing of bacteria in soil: Impact and importance.

J. of Microbiology and Ecology, 7: 343-350.

Cluzeau, D., Fayolle, L., 1989. Croissance et fecondite comparees de Dendrobaena

rubida tennis (Eisen, 1874), Eisenia andrei (Bouche, 1972) et Lumbricus

rubellus rubellus (Hoffmeister 1843) (Oligochaeta, Lumbricidae) in

elevage controle. – Review. Ecolgia et de Biologia du Sole, 26: 111-121.

Collier, J., 1978. Use of earthworms in sludge lagoons. In: Utilization of Soil

Organisms in Sludge Management, (Ed.Hertenstein.R.). Nation.Tech.

Information Services Springfield, Virginia, 131-133.

Comfort, A., 1956. The biology of senescence. New York: Rhinehart. Strehler, B.

L. (1962). Time, cells and ageing. Academic Press. New York.

Coon, JT, Ernst, E., 2004. Andrographis paniculata in the treatment of upper

respiratory tract infections: a systematic review of safety and efficacy.

Planta Medica, 70:293-298.

Cooper Edwin, 2009. New Enzymes Isolated from Earthworms is Potent

Fibrinolytic; ACAM Integrative Medicine Blog; Oxford University Press

Journal (UK). (http://acam.typepad.com/blog/2009/04/index.html)

Cooper, E.L. 1968a. Transplantation immunity in annelids. J. Rejection of

xenografts exchanged between Lumbricus terrestris and Eisenia foetida.

Transplantation, 6: 322.

Cooper, E.L. and Baculi, B.S., 1968. Degenerative changes in the annelid,

Lumbricus terrestris. Journal of Gerontology, 23: 375.


13

Cooper, E.L. and Rubilotta, L.M., 1969. Allograft rejection in Eisenia foetida.

Transplantation, 8, 220.

Cooper, E.L., 1968b. Multinucleate giant cells, granulomata and "myoblastomas"

in annelid worms. Journal of Invertebrate pathology, 11: 123.

Cooper, E.L., 1969a. Neoplasia and transplantation immunity in annelids. National

Cancer Institute Monographs, 31: 655.

Cooper, E.L., 1969b. Chronic allograft rejection in Lumbricus terrestris. Journal of

Experimental Zoology, 171: 69.

Cooper, E.L., Acton, R.T., Weinheimer, P. and Evans, E.E., 1969. Lack of a

bactericidal response in the earthworm Lumbricus terrestris after

immunization with bacterial antigens. Journal of Invertebrate Pathology,

14: 402.

Cordero, C.H., 2005. Earthworms can help dissolve blood clots for stroke patients;

(http://www.thenewstoday.info/20051125/earthworms.can.help.dissolve.bl

ood.clots.for.stroke.patients.html).

Curry, J.P., Byrne, D. and Boyle, K.E., 1995. The earthworm of winter cereal field

and its effects on soil and nitrogen turnover. Biol. Fertil. Soil, 19: 166-172.

Damayanti, E., H. Julendra and A. Sofyan. 2008. Antibacteria activity of

earthworm meal (Lumbricus rubellus) with different methods to the

Escherichia coli. Proceedings. National Food Seminar, Yogyakarta,

January 17, 2008, 54–60.

Das Kuntal, Raman Dang, Thippenahalli Narayanappa Shivananda and Nazım

Sekeroglu, 2007. Influence of bio-fertilizers on the biomass yield

andnutrient content in Stevia rebaudiana Bert. grown in Indian subtropics.

Journal of Medicinal Plants Research, 1(1): 5-8.

Das, P., Samantaray, S. and Rout, G.R., 1997. Studies on cadmium toxicity in

plants: a review. Environ. Pollut, 98: 29–36.


14

Dash, M.C, Patra, V.C., 1977. Density, biomass and energy budget of a tropical

earthworm population from a grassland site in Orissa. Review in Ecology,

Biology and Soil, 16:79-83.

Dash, M.C. and Senapati, B.K., 1980. Cocoon morphology, hatching and

emergence pattern in tropical earthworms. Pedobiologia, 20: 317-324.

Dash, M.C., 1978. Role of Earthworms in the Decomposer System. In: Singh, J.S.

and B. Gopal (Eds.). Glimpses of Ecology; India International Scientific

Publication, New Delhi, 399-406.

Datar, M.T., M.N. Rao and S. Reddy, 1997. Vermicomposting: A Technological

Option for Solid Waste Management. J. of Solid Waste Technology and

Management, 24(2): 89-93.

De Brito Alvarez, M.A., S. Gagne and H. Antoun, 1995. Effect of compost on

rhizosphere microflora of the tomato and on the incidence of plant-growth

promoting rhizobacteria. J. of Applied and Environmental Microbiology,

61: 194-199.

De Silva, P.M.C.S., Pathiratne and C.A.M. van Gestel, 2009. Influence of

temperature and soil type on the toxicity of three pesticides to Eisenia

Andrei. Chemosphere, 76(10): 1410–1415.

De Silva, P.M.C.S., Pathiratne and Van Gestel, C.A.M., 2010. Toxicity of

chlorpyrifos, carbofuran, mancozeb and their formulations to the tropical

earthworm Perionyx excavatus. Applied Soil Ecology, 44(1): 56–60.

Dedeke, GA., Owa, SO., Olurin, K.B., 2010. Amino acid profile of four

earthworms species from Nigeria. Agric. Biol. J. N. Am, 1(2): 97- 102.

Delgado, M., M. Bigeriego, I. Walter and R. Calbo, 1995. Use of California red

worm sewage sludge transformation. Turrialba., 45: 33-41.

Devliegher, W. and W. Verstraete, 1997. The effect of Lumbricus terrestris on soil

in relation to plant growth: Effect of Nutrient Enrichment Process (NEP)


15

and gut-associated processes (GAP). J. of Soil Biology and Biochemistry,

29: 341-346.

Dhawan, S.R. and Dhawan, P. 1996. Regeneration in Parthenium hysterophorus L.

World Weeds, 3: 181-182.

Diaz-Burgos, M.A., Ceccanti, B. and Polo, A., 1992. Monitoring biochemical

activity during sewage sludge composting. Biol. Fertil. Soil, 16: 145-150.

Ding, A., Zhang, Z., Fu, J. and Cheng, L., 2001. Biological control of leachate

from municipal landfills. Chemosphere, 44: 1–8.

Dominguez, J. and Edwards, C.A., 1997. Effects of stocking rate and moisture

content on the growth and maturation of Eisenia andrei (Oligochaeta) in

pig manure. Soil Biology and Biochemistry, 29(3/4): 743-746.

Dominguez, J., 1997. Testing the impact of vermicomposting. BioCycle, 38(4): 58.

Dominguez, J., Briones, M.J.I. and Mato, S., 1997b. Effect of diet on growth and

reproduction of Eisenia andrei (Oligochaeta, Lumbricidae). Pedobiologia,

41: 566- 576.

Dominguez, J., C.A. Edwards and S. Subler, 1997a. A comparison of

vermicomposting and composting. BioCycle, 28: 57-59.

Dominguez, J., Edwards, C.A. and Webster, M., 2000. Vermicomposting of

sewage sludge: Effects of bulking materials on the growth and reproduction

of the earthworm Eisenia andrei. Pedobiologia, 44: 24–32.

Donald, D.G.M. and Visser, L.B., 1989. Vermicompost as a possible growth

medium for the production of commercial forest nursery stock. Applied

Plant Science, 3(2): 110- 113.

Doube, B.M. and Brown, G.G., 1998. Life in a complex community: functional

interactions between earthworms, organic matter, microorganisms, and


16

plants. In Earthworm Ecology (ed. C.A. Edwards). St. Lucie Press: Boca

Raton, Florida.

Dube, K.G., 2011. Effect of organic manures, biofertilizers and growth regulators

in alone and combination treatments on the growth of leaves in Stevia

rebaudiana. Bertoni Asiatic Journal of Biotechnology Resources, 2(04):

403-413.

Dynes, R.A., 2003. Earthworms – Technology information to enable the

development of earthworm production. Publication No.03/085, 23

September, RIRDC, 1-33.

Eastman, B.R., Kane, P.N., Edwards, C.A., Trytek, L., Gunadi, B., Stermer, A.L.

and Mobley, J.R., 2001. The effectiveness of vermiculture in human

pathogen reduction for USEPA biosolids stabilization. Compost Science

and Utilization, 9(1): 38–49.

Edward, C.A. and Lofty, J.R., 1977. Biology of Earthworms. 2nd edn Chapman

and Hall, London, 175–178.

Edwards Clive A. and Norman Q. Arancon, no date. The science of vermiculture:

the use of earthworms in organic waste management. Soil Ecology

Laboratory, The Ohio State University, Columbus, Ohio, U.S.A.pp1-25.

Edwards, C.A. and Bater, J.E., 1992. The use of earthworms in environmental

management. Soil Biology and Biochemistry, 24(12): 1683-1689.

Edwards, C.A. and Bohlen, P.J., 1996. Biology and Ecology of Earthworms. 3rd

edn. Chapman and Hall: London.

Edwards, C.A. and I. Burrows, 1988. The potential of earthworm composts as

plant growth media in Neuhauser, C.A. (Ed.), Earthworms in

Environmental and Waste Management. SPB Academic Publishing, The

Hague, the Netherlands, 211-220.


17

Edwards, C.A. and K.E. Fletcher, 1988. Interaction Between Earthworms and

Microorganisms in Organic Matter Breakdown. Agriculture Ecosystems

and Environment, 24: 235-247.

Edwards, C.A. and Niederer, A. 1988. The production and processing of

earthworm protein. In: C.A. Edwards and E.F. Neuhauser (Eds.)

Earthworms in waste and environmental management. Academic

Publishing, The hague, The Netherlands, 169-180.

Edwards, C.A., 1985. Production of feed protein from animal waste by

earthworms. Philosophical Transactions of the Royal Society of London

Series, 310: 299-307.

Edwards, C.A., 1988. Breakdown of animal, vegetable and industrial organic

wastes by earthworms. In: Edwards, C. A., Neuhauser, E.F. (eds)

Earthworms in Waste and Environmental Management. SPB Academic

Publishing BV, The Hague, 21–31, 40: 377-384.

Edwards, C.A., 1995. Historical overview of vermicomposting. BioCycle, 36(6):

56-58.

Edwards, C.A., 1998. The Use of Earthworms in the Breakdown and Management

of Organic Wastes. In Edwards, C.A. (Ed.). Earthworm Ecology ; CRC

Press, Boca Raton, FL, USA, 327-354.

Edwards, C.A., Burrows, I., Fletcher, K.E. and James, B.A., 1985. The use of

earthworms for composting food wastes. In: Gasser, J.K.R. (ed)

Composting of Agricultural and Other Wastes. Elsevier Applied Science,

Amsterdam, 229–242.

Edwards, C.A., Dominguez, J. and Neuhauser, E.F., 1998. The earthworm

Perionyx excavatus and its potential use in waste management. Biology and

Fertility of Soils, 27: 155–161.

Edwards, C.A., J. Domínguez and N.Q. Arancon, 2004. The influence of

vermicomposts on plant growth and pest incidence. In Shakir, S.H. and


18

W.Z.A. Mikhail (Eds.). Soil Zoology for Sustainable Development in the

21st Century, Self-Publisher; Cairo, Egypt, 397-420.

Edwin Cooper, James Beller and Stephen Hayes, 1970. A Successful medium for

maintaining earthworms Laboratory Animals, 4: 25-28.

Elvira, C., Dominguez, J. and Mato, S., 1996b. The growth and reproduction of

Lumbicus rubellus and Dendrobaena rubida in cow manure mixed cultures

with Eisenia andrei. Applied Soil Ecology, 5:: 97-103.

Elvira, C., Domínguez, J. and Briones, M.J.I., 1996a. Comparison between Eisenia

fetida and Eisenia andrei. Interactions and life cycles. Pedobiologia, 40:

377-384.

Elvira, C., Goicoechea, M., Sampedro, L., Mato, S. and Nogales, R., 1996c.

Bioconversion of solid paper-pulp mill sludge by earthworms. Bioresource


Elvira, C., Sampedro, L., Dominguez, J. and Mato, S., 1997. Vermicomposting of

wastewater sludge from paper-pulp industry with nitrogen rich materials.

Soil-Biologyand- Biochemistry, 29(3/4): 759-762.

Elvira, C.A., L. Sampedro, E. Benitez and R. Nogales, 1998. Vermicomposting of

sludges from paper mill and dairy industries with Eisenia Andrei: Apiolet

scale study. Biores. Technol., 63: 205-211.

Evans, A.C. and W.J. Guild and L. Mc, 1948. Studies on the Relationship Between

Earthworms and Soil Fertility IV. On the Life Cycles of Some British

Lumbricidae. Annals of Applied Biology, 35(4): 471-484.

Farrell, M., 1997. Growing worms with food residuals. BioCycle, 38(7): 65-66.

Fayolle, L., michaud, H., Cluzeau, D. and Stawiecki, J., 1997. Influence of

temperature and food source on the life cycle of the earthworm

Dendrobaena veneta (Oligochaeta). Soil Biology and Biochemistry,

29(3/4): 747-750.


19

Federico, A., Gutierrez-Miceli, Santiago-Borraz, J., Molina, J.A.M., 2007.

Vermicompost as a soil supplement to improve growth, yield and fruit

quality of tomato. Bioresource Technology, 98:2781-2786.

Flyhammer, P., 1997. Estimation of heavy metal transformation in municipal solid

waste. Sci. Tot. Environ, 198: 123–133.

Follet, R., Danahue, R. and Murphy, L., 1981. Soil and Soil Amendments. Prentice-

Hall, Inc., New Jersey.

Fragoso, C., Barois, I., Gonzales, C. Artega, C. and Patron, J.C., 1993.

Relationship between earthworms and soil organic matter levels in natural

and managed ecosystems in the Mexican tropics. Proceedings of an

international symposium on Soil Organic matter dynamics and the

sustainability of tropical agriculture, Leuven, Belgium, 4-6 November.

Fraser-Quick, G., 2002. Vermiculture-A Sustainable Total Waste Management

Solution. What’s New in Waste Management, 4(6): 13-16.

Frederickson, J., Butt, K.R., Morris, R.M. and Daniel, C., 1997. Combining

vermiculture with traditional green waste composting systems. Soil Biology

and Biochemistry, 29(3/4): 725-730.

Gajalakshmi, S. and Abbasi, S.A., 2004. Neem leaves as source of fertilizer-cum-

pesticide vermicompost. Biores. Technol. 92: 291–296.

Gajalakshmi, S., Ramasamy, E.V. and Abbasi, S.A., 2000. Potential of two

different forms of two epigeic and two anecic earthworm species in

vermicomposting of water hyacinth. Biores. Tech. 76: 171-181.

Gajalakshmi, S., Ramasamy, E.V. and Abbasi, S.A., 2001a. Towards maximising

output from vermireactors fed with cow dung and spiked paper waste.

Bioresource Technology, 79: 67–72.

Gajalakshmi, S., Ramasamy, E.V. and Abbasi, S.A., 2001b. Assessment of

sustainable vermiconversion of water hyacinth at different reactor


20

efficiencies employing Eudrilus eugenia Kinderg. Bioresour. Technol., 80:

131-135.

Gajalakshmi, S., Ramasamy, E.V. and Abbasi, S.A., 2002a. High-rate composting-

vermicomposting of water hyacinth (Eichhornia crassipes Mart. Solms).

Bioresour. Technol., 83: 235-239.

Gajalakshmi, S., Ramasamy, E.V. and Abbasi, S.A., 2002b. Vermicomposting of

different forms of water hyacinth by the earthworm Eudrilus eugeniae

Kinberg. Bioresour. Technol., 82: 165-169.

Gajalakshmi, S., Ramasamy, E.V. and Abbasi, S.A., 2002c. Vermicomposting of

paper waste with the anecic earthworm Lampito mauritii Kingburg. Indian

J. Chem. Technol., 9: 306–311.

Gallardo-Lara, F., Nogales, R., 1987. Effects of the application of town refuse

compost on the soil-plant system: a review. Biological Wastes, 19: 35-62.

Galyean, M. L., 2010. Laboratory proceduresin animal nutrition research,

Department of Animal and Food Sciences Texas Tech University, Lubbock.

Gandhi, M, Sangwan, V, Kapoor, K.K. and Dilbaghi, N., 1997. Composting of

household wastes with and without earthworms. Environment and Ecology,

15(2): 432–434.

Ganesh, P.S., Ramasamy, E.V., Gajalakshmi, S. and Abbasi, S.A., 2005.

Extraction of volatile fatty acids (VFAs) from water hyacinth using

inexpensive contraptions and the use of the VFAs as feed supplement in

conventional biogas digesters with concomitant final disposal of water

hyacinth as vermicompost. Biochem. Eng. J., 27: 17-23.

Garcia, J.M. and Fragoso, C., 2002. Influence of different food substrates on

growth and reproduction of two tropical earthworm species (Pontoscolex

corethrurus and Amynthas corticis). Pedobiologia, 47: 754-763.


21

Garg, K. and N. Bhardwaj, 2000. Effect of Vermicompost of Parthenium on Two

Cultivars of Wheat. Indian. J. Ecology, 27: 177-180.

Garg, P., Gupta, A. and Satya, S., 2006a. Vermicomposting of different types of

waste using Eisenia foetida: A comparative study’. Bioresource


Garg, V.K. and Kaushik, P., 2005. Vermistabilization of textile mill sludge spiked

with poultry droppings by an epigeic earthworm Eisenia fetida.

Bioresource Technology, 96: 1063-1071.

Garg, V.K. and P. Kaushik, 2003. Vermicomposting of solid textile will sludge and

cow dung with the epigeic earthworm Eisenia foetida. Bioresource

Technol., 90: 311-316.

Garg, V.K. and P. Kaushik, 2004. Dynamics of biological and chemical parameter

during vermicomposting of solid textile mill sludge mixed with cow dung

and agricultural residues. Bioresource Technol., 94: 203-209

Garg, V.K., Chand, S., Chhillar, A. and Yadav, A., 2005. Growth and reproduction

of Eisenia foetida in various animal waste during vermicomposting.

Applied Ecology and Environmental Research, 3(2): 51-59.

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 foetida, Environmentalist, 26: 269-276.

Gaur, A.C. and G. Singh, 1995. Recycling of rural and urban wastes through

conventional composting and vermicomposting. In: Tandon, H.L.S. (Ed.).

Recycling of Crop, Animal, Human and Industrial Waste in Agriculture.

Fertilizer Development and Consultation Organisation, New Delhi, India,

31-49.

Gaur, A.C. and Sadasivam, K.V., 1993. Theory and practical considerations of

composting organic wastes. In: Thampan, P.K., (Ed.), Organics in soil

health and crop production, 1–20.


22

Ghabbour, S.I., 1996. Earthworm in Agriculture: A Modern Evaluation. Indian

Review of Ecological and Biological Society, 111(2): 259-271.

Ghosh, C., 2004. Integrated vermi- pisciculture- an alternative option for

recyclying of solid municipal waste in rural India. Bioresource Technology,

93:71-5.

Ghosh, M., Chattopadhyay, G.N. and Baral, K., 1999. Transformation of

phosphorus during vermicomposting. Bioresource Technology, 69(2): 149-

154.

Giller, K.E., Witter, E. and McGrath, S.P., 1998. Toxicity heavy metals to

microorganisms and microbial processes in agricultural soils. A review. Soil

Biol. Biochem, 30: 1389-1414.

Giraddi, K.P., Gundannavar, P.S., Ippannavar and N.D. Sunitha, 2008.

Reproductive Potential of Vermicomposting Earthworms, Eudrilus

eugeniae(Kinberg) and Perionyx excavatus (Perrier) as Influenced by

Seasonal Factors. Karnataka J. Agric. Sci., 21(1): 38-40.

Giraddi, R.S., 2000, Influence of vermicomposting methods and season on the

biodegradation of organic wastes. Ind. J. Agric.Scie., 70: 663-666.

Giraddi, R.S., 2008. Effect of Stocking Rate of Eudrilus eugeniae (Kinberg) on

Vermicompost Production. Karnataka J. Agric. Sci., 21(1): 49-51.

Giraddi, R.S., Tippannavar, P.S. and Kulkarni, K.A., 2002, Utilization of peregrine

earthworm, Eudrilus eugeniae (Kinberg) for bioconversion of agriculture,

animal and agro-industrial wastes in to organic manure. Proc.. 6th Int.

Symp.Earthworm Ecol, Cardiff University, Wales, United Kingdom, spl.

Vol: 248.

Gorakh Nath, Keshav Singh and D.K. Singh, 2009b. Chemical Analysis of

Vermicomposts / Vermiwash of Different Combinations of Animal, Agro

and Kitchen Wastes. Australian Journal of Basic and Applied Sciences,

3(4): 3672-3676.


23

Gorakh Nath, Keshav Singh and Singh, 2009a. Effect of Different Combinations of

Animal Dung and Agro/ Kitchen Wastes on Growth and Development of

Earthworm Eisenia Foetida. Australian Journal of Basic and Applied

Sciences, 3(4): 3553-3556.

Graff, O., 1970. Phosphorus Contents of Earthworms Casts (In German).

Landbauforchung Volkenrode, 20: 33-36.

Graff, O., 1974. Gewinnung von Biomasse aus Abfallstoffen durch Kultur des

Kompostregenwurms Eisenia fetida (Savigny, 1862). Landbauforschung

Völkenrode, 2:137–142.

Graff, O., 1981. Preliminary experiment of vermicomposting of different waste

materials using Eudrilus eugeniae Kingberg. Appelhof, M. (Ed.). Proc. of

the workshop on ‘Role of Earthworms in the Stabilization of Organic

Residues’; Malanazoo Pub. Michigan, USA, 179-191.

Greenscene, (no date). Report on the Patchetts Pies Vermicomposting Trial.

Unpublished report for the Southern Sydney Waste Board, NSW.

Greenscene Australia: Avalon, NSW.

Guererro, R.D., 1981. The culture and use of Perionxy excavatus as protein

resource in the Philippines Proceedings of the Drawins Centenary

Symposium, Sept. 1981. Grange-Oversands, Cumbria, Great Britian, 22.

Guerrero, R.D. and Guerrero, L.A., 2006. Response of eggplant (Solanum

melongena) grown in plastic contain-ers to vermicompost and chemical

fertilizer. Asia Life Sciences, 15(2): 199-204.

Guerrero, R.D., 1983. The culture and use of Perionxy excavatus as protein

resource in the Philippines. In: J.E. Satchell (Ed.), Earthworm Ecology,

Chapman and Hall, London: 309-319.

Gujral, G.S. and Vasudeven, P., 1983. J. Scientific Industrial Res, 42: 281-286.


24

Gunadi, B. and Edwards, C.A., 2003. The effect of multiple applications of

different organic wastes on the growth, fecundity and survival of Eisenia

foetida (Savigny) (Lumbricidae). Pedobiologia, 47(4): 321–330.

Gunathilagaraj, K. and Ravignanam, T., 1996. Vermicomposting of sericultural

wastes. Madras Agricultural Journal, 83(7): 455-457.

Gupta, A.K., Pankaj, P.K. and Upadhyava, V., 2008. Effect of vermicompost, farm

yard manure, biofertilizer and chemical fertilizers (NPK) on growth, yield

and quality of lady’s finger (Abelmoschus esculentus). Pollution Re-search,

27(1): 65-68.

Gupta, P.K., 2004. A Handbook of soil, fertilizer and manure. Agribios, 3: 303.

Gupta, P.K., 2005. Vermicomposting for sustainable agriculture. Bharat Printing

Press, Jodhpur, 11-14.

Gupta, R. and V.K. Garg, 2008. Stabilization of primary sludge during

vermicomposting. J. Hazard Mater.

Gupta, R., 2007. Development of a water hyacinth based vermireactor using an

epigeic earthworm Eisenia fetida. Bioresour. Technol., 98: 2605-2610.

Gupta, R., Mutiyar, P.K., Rawat, N.K., Saini, M.S. and Garg, V.K., 2007.

Development of a water hyacinth based vermireactor using an epigeic

earthworm Eisenia foetida. Biores. Tech., 98: 2605-2610.

Gupta, S.K, Richa Srivastava, Dinesh Kumar, 2005. Bioremediation of municipal

sludge by Vermitechnology and toxicity assessment by Allium cepa. 0960-

8524/ 2005 Elsevier Ltd. All rights reserved.

doi:10.1016/j.biortech.2005.01.029.

Gurav, M.V. and Pathade, G.R., 2011. Production of Vermicompost from Temple

Waste (Nirmalya): A Case Study, Universal Journal of Environmental

Research and Technology, 1(2): 182-192.


25

Haimi, J. and Huhta, V., 1988. Comparison of composts produced from identical

wastes by "vermistabilisation" and conventional composting. Pedobiologia,

30: 137-144.

Haimi, J. and V. Hutha, 1986. Capacity of various organic residues to support

adequate earthworm biomass in vermicomposting. Biology Fertilized Soil,

2: 23-27.

Haimi, J., 1990. Growth and reproduction of the compost-living earthworms

Eisenia andrei E. fetida. Revue D'Ecologie et de Biologie du Sol, 27(4):

415-421.

Hallatt, L., Reinecke, A.J. and Viljoen, S.A., 1990. Life cycle of the oriental

compost worm Perionyx excavatus (Oligochaeta). South African Journal of

Zoology, 25(1): 41- 45.

Hallatt, L., Viljoen, S.A. and Reinecke, A.J., 1992. Moisture requirements in the

life cycle of Perionyx excavatus (Oligochaeta). Soil Biol. Biochem. 24:

1333–1340.

Hammermeister, A.M., P.R. Warman, E.A. Jeliakova and R.C. Martin, 2004.

Nutrient Supply and Lettuce Growth in Response to Vermicomposted and

Composted Cattle Manure. J. of Bioresource Technology, 2: 54-65.

Hancock, J.S., Phillips, I.R., Seignor, M., 1995. Fate of contaminants deriving

from Municipal Solid Wastes in saturated landfills. In: Proceedings

Sardinia 95. Fifth International landfill Symposium 3, 611–620.

Hand, P., Hayes, W.A., Frankland, J.C., Satchell, J.E., 1988. The

Vermicomposting of cow slurry. Pedobiologia, 31: 199-209.

Hardouin, J. and Stievenart, C. 1993 Invertebrates (minilivestock) farming. In Proc.

Seminar held at La Union, Philippines, November 1992. EEC-

DGXII/CTAIFS/DMM MSU/ITM, Philippines.


26

Hartenstein, R. and Bisesi, M.S., 1989. Use of earthworm biotechnology for the

management of effluents from intensively housed livestock. Outlook on

Agriculture, 18: 3-7.

Hartenstein, R. and Hartenstein, F., 1981. Physico-chemical changes affected in

activated sludge by the earthworm Eisenia foetida. J. Environ. Quality, 10:

377-382.

Hartenstein, R., 1981. Production of earthworms as a potentially economical

source of protein. Biotechnology and Bioengineering, 23: 1797-1803.

Hartenstein, R., 1983. Assimilation by the earthworm Eisenia fetida. – In: Satchell,

J.E. (ed.): Earthworm Ecology from Darwin to Vermiculture, Chapmann

and Hall, London, 297-308.

Hartenstein, R., Neuhauser, E.F. and Kaplan, D.L., 1979. Reproductive potential of

the earthworm Eisenia fetida. Oecologia, 43. 329-340.

Harwood, M., 1976. Recovery of protein from poultry waste by earthworms.

ProcIst Austr poult stockfeed Conv, Melbourne, 1976: 138-143.

Hasanuzzaman, S.Z., Hossian and M. Das, 2010. Nutritional potentiality of

earthworm (Perionyx excavatus) for substituting fishmeal used in local feed

company in Bangladesh, Mesopot. J. Mar. Sci., 25(2): 134-139.

Hasnah, Jais and Hasnuri Mat Hassan, 2008. Waste conversion to vermicast by

Eisenia foetida given four types of organic substrates in the natural

malaysian environmental conditions, Journal of Bioscience, 19(2): 63-72.

Hassenbein, G.A., 1951. Pregnancy test on earthworms. Arch. Gynakol, 181: 5-28.

Hendrickson, N.B., 1990. Leaf litter selection by detritivorous and geophagous

earthworms. Biology and Fertility of Soils, 10: 77-21.

Hennuy, G. and Gaspar, C., 1986. Treatment of wastes by worms. Bulletin des

Recherches Agronomiques de Gembloux, 21(3): 359-367.


27

Hess, W.N., 1925. Photoreceptors of Lumbricus terrestris, with special reference

to their distribution, structure, and function. Journal of Morphology, 41: 63.

Hess, W.N., 1937. In Culture methods for invertebrate animals (ed. J. Needham).

New York: Dover Publications.

Hesse, R., 1899. Untersuchungen tiber die Organe der Lichtempfindung bei

niederen Thieren. V. Die Augen der polychaten anneliden. Zeitschnft fur

wissenschaftliche Zoologie, 65: 446.

Hilton, J.W., 1983. Potential of freeze-dried worm meal as a replacement for

fishmeal in trout diet formulations. Aquaculture, 32: 227-283.

Hoitink, H.A.J. and P.C. Fahy, 1986. Basis for the control of soil-borne plant

pathogens with composts. Annual Review of Phytopathology, 24: 93-114.

Holmstrup, M., Ostergaard, K., Nielsen, A. and Hansen, B.T., 1991. The

relationship between temperature and cocoon incubation time for some

Lumbricid earthworm species. Pedobiologia, 35: 179-184.

Hopp, H. and C.S. Slater, 1949. The Effect of Earthworms on the Productivity of

Agricultural Soils. J. of Agricultural Research, 78: 325-339.

Hopp, H., 1946. Earthworms fight erosion too. J. of Soil Conservation, 11: 252-

254.

Hori, M, Kondon, K., Yoshida, T., Konsihi, E., Minami, S., 1974. Studies of anti-

pyretic components in Japanese earthwonn. Biochem Pharmacol, 23: 1582-

1590.

Hwang, C.M., Kim, Di. and Huh, S.H., 2002. In - vivo evaluation of lumbrokinase

extracted from earthworms Lumbricus rubellus in a prosthetic vascular

graft; Cardiovascular Surgery, 43: 891-894.


28

Inbar, Y., Chen, Y. and Hadar, Y., 1985. The use of composted slurry produced by

methanogenic fermentation of cow manure as growth media. Acta

Horticulturae, 172: 75-82.

Ismail, S., 1995. Earthworms in soil fertility management. Organic Agriculture

(ed. P.K. Thampan), 77-100. Peekay Tree Crops Development Foundation:

Cochin; India.

Ismail, S.A. and Sasiravanan, 1997. A Compendium on exnora (international,

Chennai) 1993, 42-64.

Ismail, S.A., 2005. The Earthworm Book. Other India Press, Apusa, Goa, 101.

Istiqomah, L., A. Sofyan, E. Damayanti and H. Julendra, 2009. Amino acid profile

of earthworm and earthworm meal (Lumbricus rubellus) FOR ANIMAL

FEEDSTUFF, J.Indonesian Trop.Anim.Agric. 34(4): 253-257.

Jain Pourvi, Sumita kachhwaha and S. Kothari, 2012. Optimization of

micronutrients for the improvement of in vitro plant regeneration of Stevia

rebaudiana (Bert.) Bertoni, indian journl of biotechnology, 11: 486-490.

Jain, K., Singh, J. and Gupta, S.K., 2003. Development of a modified vermireactor

for efficient vermicomposting: a laboratory scale study. Bioresource


Jambakar, H.A., 1992. Use of earthworms as potential source to decompose

organic wastes. In: Proc. of the National seminar on Organic Farming

M.P.K.V. Pune, 53-54.

Jauncey, K. and Ross, B., 1982. A guide to Tilapia feeds and feeding. Inst. of

Aquaculture, Univ. of Stirling, Scotland, Univ. Press. 111.

Jaya Nair, Vanja Sekiozoic, Martin Anda, 2006. Effect of pre-composting on

vermicomposting of kitchen waste, Bioresource Technology, 97: 2091–

2095.


29

Jefferies, I.R. and Audsley, E., 1988. A population model for the earthworm

Eisenia foetida. In Earthworms in Waste and Environmental Management

(eds, C.A. Edwards and E.F. Neuhauser). Academic Publishing: The

Hague, Netherlands.

Jensen, J., 1998. Worm Farm Take on New Challenge; Biocycle, 39(1): 56-57.

Jin, L., Jin, H., Zhang, G. and Xu, G., 2000. Changes in coagulation and tissue

plasminogen activator after the treatment of cerebral infarction with

lumbrokinsae (from earthworms). Clinical Hemorheol Microcirc, 23: 213-

218.

Johnston, A.M., Janzen, H.H., Smith, E.G., 1995. Long-term spring wheat

response to summerfallow frequency and organic amendment in southern

Alberta. Canadian Journal of Plant Science, 75(2): 347-354.

Jorge Dominguez, Clive, A., Edwards and John Ashby, 2001. The biology and

population dynamics of Eudrilus eugeniae (Kinberg) (Oligochaeta) in cattle

waste solids. Pedobiologia, 45: 341–353.

Joshi, N.V. and B.V. Kelkar, 1952. The role of earthworms in soil fertility. Indian

J. of Agricultural Science, 22: 189-196.

Joshi, P.C. and Chauhan, A., 2006. Composting of some organic materials using

Eisenia foetida and Conventional microbial methods: A comparative study.

Uttar Pardesh J. Zool, 26(1): 123-125.

Joshi, S., 1991. Biocontrol of Parthenium hysterophorus L. Crop Protection, 10:

429 - 431.

Julendra, H., 2003. Antibacterial activity test of earthworm meal as broiler

feedstuff to the bacteria growth of Salmonella pullorum with in-vitro

method. Proceedings. Study Report of Research and Development in

Technical Science and Knowledge (IPT) 2003.


30

Kale, R. D. and Bano, K., 1991. Time and space relative population growth of

Eudrilus eugeniae. In: Veeresh, G. K., Rajagopal, D., Virakamath, C.A.

(eds.): Advances in Management and Conservation of Soil Fauna, Oxford

and IBH, New Delhi, 657-664.

Kale, R.D. and Bano, K., 1985. Laboratory propagation of some indigenous

species of earthworms. J. Soil. Biol. Ecol., 5(1): 20–25.

Kale, R.D. and K. Bano, 1986. Field trials with vermicompost. an organic fertilizer;

in proc. of national seminar on ‘organic waste utilization by

vermicomposting. GKVK Agricultural University, Bangalore, India.

Kale, R.D. and N.S. Sunitha, 1995. Efficiency of earthworms (E. eugeniae) in

converting the solid waste from aromatic oil extraction industry into

vermicompost. Journal of IAEM, 22(1): 267-269.

Kale, R.D., 1998. Earthworms: Nature’s gift for utilization of organic wastes. In:

C.A. Edwards (ed.) Earthworm Ecology. CRC Press LLC, Florida. 355-

376.

Kale, R.D., Bano, K. and Krishnamoorthy, R.V., 1982. Potential of Perionyx

excavates for utilization of organic wastes. Pedobiologia, 23: 419-425.

Kale, R.D., Bano, K., Sreenivasa, M.N. and Bhagyaraj, D.J., 1987. Influence of

worm cast (Vee Comp. E. UAS, 1983) on the growth and mycorrhizal

colonization of two ornamental plants. South Ind. Hort., 35: 433-437.

Kale, R.D., Mallesh, B.C., Bano, K. and Bagyaraj, D.J., 1992. Influence of

vermicompost application on the available macronutrients and selected

microbial populations in a paddy field. Soil Biology and Biochemistry, 24

(12): 23-32.

Kale, R.D., S.N. Seenappa and J. Rao, 1993. Sugar factory refuse for the

production of vermicompost and worm biomass. V International

Symposium on Earthworms; Ohio University, USA.


31

Kangmin Li, 1998. Earthworm case; 4th ZERI World Congress; Windhoel,

Namibia.(Also in Vermiculture Industry in Circular Economy; Worm

Digest (2005) ( http://www.wormdigest.org/content/view/135/2/ ).

Kaplan, D. L., Hartenstein, R., Neuhauser, E.F. and Malecki, M.R., 1980.

Physiochemical requirements in the environment of the earthworm Eisenia

foetida. Soil Biology and Biochemistry, 12: 347-352.

Kater, J., 1998. The Continuous Flow Worm Bed for On-site Organic Waste

Management. Report of a project funded by the New South Wales

Government Waste Reduction Grants Program. New South Wales

Environment Protection Authority: Sydney.

Kaushal, B.R., Kalia, S. and Bisht, S.P.S., 1995. Growth and cocoon production by

the earthworm Drawida nepalensis (Oligochaeta: Moniligastridae) in oak

and pine litter. Pedobiologia, 39: 417–422.

Kaushik, P. and Garg, V.K., 2003. Vermicomposting of mixed solid textile mill

sludge and cow dung with the epigeic earthworm Eisenia fetida. Bioresour.

Technol., 90: 311-316.

Kavian, M.F. and Ghatnekar, S., 1996. Biometanisation of dairy fffluent using

culture of red worms (L. rubellus). Indian J Environ Prot, 11: 680-682.

Kaviraj Sharma, 2003. Municipal solid waste management through vermi-

composting employing exotic and local species of earthworms. J. of

Bioresource Technology, 90: 169-173.

Khwairakpam, M. and Bhargava, R., 2009. Vermitechnology for sewage sludge

recycling. Journal of Hazardous Materials, 161: 948-954.

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).

Kohli, R.K. and Rani, D., 1994. Bulletin (Sci.). Punjab University, 44: 105-149.


32

Kostecka, J. and Pączka, G., 2006. Possible use of earthworm Eisenia fetida (Sav.)

biomass for breeding aquarium fish. European Journal of Soil Biology, 42:

231-233.

Kretschmar, A., 1998. Earthworm interactions with soil organisation. In

Earthworm Ecology (ed. C.A. Edwards). St. Lucie Press: Boca Raton,

Florida.

Krishnamoorthy, R.V. and Vajranabhaian, S.N., 1986. Biological activity of

earthworm casts. An assessment of plant growth promotes or levels in the

casts. Proceedings of Indian Academy of Sciences (Animal Science), 95(3):

341-351.

Kuntal Das and Raman Dang, 2010. Influence of biofertilizers on stevioside

content in Stevia rebaudiana grown in acidic soil condition. Archives of

Applied Science Research, 2(4): 44-49.

Kunwar, D., Yadav, A., Vinod Tare, B.M. and Mansoor Ahammed, 2010.

Vermicomposting of source-separated human faeces for nutrient recycling.

Waste Management, 30: 50-56.

Kurien, J. and Ramasamy, E.V., 2006. Vermicomposting of Taro (Colocasia

esculenta) with two epigeic earthworm species. Biores. Tech., 97: 1324-

1328.

Lab. Manual 10, manual of methods of analysis of foods, (spices and condiments),

directorate, general of health services, ministry of health and family welfare,

government of india, new delhi, 2005.

Lakshmi, B.L. and G.S. Vizaylakshmi, 2000. Vermicomposting of sugar factory

filter pressmud using african earthworms species (Eudrillus eugeniae).

Journal of Pollution Research, 19(3): 481-483.

Langdon, F. E., 1900. The sense-organs of Nereis virens, sars. Journal of

Comparative Neurology, 10: 11.


33

Lara Zirbes, Quentin Renard, Joseph Dufey, Pham Khanh Tu, Hoang Nghia Duyet,

Philippe Lebailly, Frederic Francis and Haubruge, 2011. Valorisation of a

water hyacinth in vermicomposting using an epigeic earthworm Perionyx

excavatus in Central Vietnam Biotechnol. Agron. Soc. Environ., 15(1): 85-

93.

Lavelle, P. and A. Martin, 1992. Small-scale and large-scale effects of endogeic

earthworms on soil organic matter dynamics in soils of the humid-tropics.

J. of Soil Biology and Biochemistry, 12: 1490-1498.

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.

Laverack, M.S., 1963. The physiology of earthworms, London: Pergamon Press.

18-19.

Le Ray, W. and Ford, N., 1937. In Culture methods for invertebrate animals (ed. J.

Needham). New York: Dover Publications.

Lee, K.E., 1985. Earthworms, their Ecology and Relationships with Soil and Land

Use. Academic Press, Sydney, 411.

Lee, K.E., 1992. Some trends opportunities earthworm research or Darwin children.

The future of our discipline. Soil Biol. Biochem., 24: 1765-1771.

Li, S.L., 1995. Research on di long’s (earthworms) effect in lowering blood

pressure. J. of Information; 12(3): 22-24.

Lieberman, S. 2002. Worms, beautiful worms. International worm digest, 11: 23.

Lina Cardoso Vigueros and Esperanza Ramez camperos, 2002. Vermicompossting

of sewage sludge: a new technology in Mexico. Water Science and

Technology, 46(10): 153-158.


34

Loehr, R.C., E.F. Neuhaur and M.R. Malecki, 1985. Factors affecting the

vermistabilization process, temperature, moisture content and polyculture.

Water Research and Technology 19: 1311-1317.

Loehr, R.C., J.H. Martin, E.F. Neuhauser and M.R. Malecki, 1984. Waste

Management Using Earthworms- Engineering and Scientific Relationships.

Project Report ISP-8016764, National Science Foundation, Washington

DC.

Lofs-Holmines, A., 1986. Occurrence of eleven earthworm species (Lumbricidae)

in permanent pastures in relation to soil-pH. Swedish Journal of Agriculture

Research, 16: 161-165.

Logsdon, G., 1994. World wide progress in vermicomposting. Biocycle, 35(10):

63-65.

Loh, T.C, Lee, Y.C., Liang, J.B. and Tan, D., 2003. Vermicomposting of cattle and

goat manures by Eisenia foetida and their growth and reproduction

performance. Biores. Tecnol. 96: 111-114.

Lopez, A. and Alis, R., 2005. Indigenous use of native earthworms and its fatty

acids profile; Paper Presented at the Int. Symposium on

‘Vermitechnologies for Developing Countries’; Laguna, Philippines

([email protected]) (Also in Utilization of Earthworms for Health

Remedies

(http://www.wormsphilippines.com/docs/IKs%20on%20Earthworms.htm).

Lotzof, M., 1998. Successful biosolids benefication with Vermitech's large-scale

commercial vermiculture facility. Biores. Tecnol, 34:98.

Lotzof, M., 2000. Vermiculture: An Australian Technology Success Story. Waste

Management Magazine, February 2000, Australia.

Lourdumary, A.J., Bhorgin and K. Uma, 2013. Nutritional evaluation of

earthworm powder (Lampito mauritii). Journal of Applied Pharmaceutical

Science, 3(03): 082-084.


35

Lowe, C.N. and Butt, K.R., 2002. Growth of hatchling earthworms in the presence

of the adults: Interaction in laboratory culture. Biology and Fertility of

Soils, 35: 204-209.

Lunt, H.A. and H.G. Jacobson, 1994. The chemical composition of earthworm

casts. Soil Science, 58: 367-375.

Maboeta, M.S. and Rensbugr, L. van, 2003. Vermicomposting of industrially

produced woodchips and sewage sludge utilizing Eisenia fetida.

Ecotoxicology and Environmental Safety, 56: 265-270.

Maboeta, M.S., A.J. Reinecke and S.A. Reinecke, 1999. Effects of low levels of

lead on growth and reproduction of the Asian earthworm Perionyx

excavatus (Oligochaeta). Ecotoxicology and Environmental Safety, 44(3):

236–240.

Madan, M., Sharma, S., Bisaria, R. and Bhamidimarri, R., 1988. Recycling of

organic wastes through vermicomposting and mushroom cultivation.

Alternative Waste Treatment Systems, 132–141.

Mahmoud, E.K., 2009. Effects of different organic and inorganic fertilizers on

cucumber yield and some soil properties. World Journal of Agricultural

Sciences, 5(4): 408-414.

Manna, M.C., Jha, S., Ghosh, P.K. and Acharya, C.L., 2003. Comparative

efficiency of three epigeic earthworms under different deciduous forest

litters decomposition. Bioresource Tech, 88(3): 197-206.

Manna, M.C., Singh, M., Kundu, S., Tripathi, A.K. and Takkar, P.N., 1996.

Growth and reproduction of the vermicomposting earthworm Perionyx

excavatus as influenced by food materials. Journal Biology and Fertility of

Soils, 24(1): 129-132.

Mansell, G.P., J.K. Syers and P.E. H. Gregg, 1981. Plant availability of

phosphorus in dead herbage ingested by surface casting earth worm. Soil

Biol. Biochem., 13: 163 -167.


36

Martin, J.P., 1976. Darwin on Earthworms: The Formation of Vegetable Moulds;

Bookworm Publishing, ISBN 0-916302-06-7.

Masciandaro, G., Ceccanti, B., Garcia, C., 1997. Soil agro-ecological management:

fertirrigation and vermicompost treatments. Biores. Technol., 59: 199-206.

Mascolo, A., Bovalo, F., Gionfriddo, F. and Nardi, S., 1999. Earthworm humic

matter produces auxin like effects on Daucus carota cell growth and

nitrogen metabolism. Soil Biology and Biochemistry, 31: 1303-1313.

Mason, L.J., Johnson, S.J. and Woodring, J.P., 1990. Influence of age and season

on whole body lipid content of Plathypena scabra (Lepidoptera:

Noctuidae). Environmental Entomology, 19: 1259-1262.

Mason, W.T., Rottmann, R.W. and Dequine, J.F., 1992. Culture of earthworms for

bait or fish food. Florida Cooperative Extension Service, Institute of Food

and Agricultural Sciences, University of Florida 1053, 1-4.

Mathur, B.S., Sarkar, A.K. and Mishra, B., 1980. Release of N and P from compost

charged with rock phosphate. J. Indian Soc. Soil. Sci. 28: 206–207.

Mattson, D.J., French, M.G. and French, S.P., 2002. Consumption of earthworm

by yellow stone grizzly bears. Ursus, 73: 105-110.

Mba, C., 1989. Biomass and vermicompost production by the earthworm Eudrilus

eugeniae (Kinberg). Revista de Biologica Tropical, 37(1): 11-14.

Mba, C.C., 1983. Utilization of Eudrilus eugeniae for disposal of cassava peel. In:

Satchell, J.E. (Ed.), Earthworm Ecology: From Darwin to Vermiculture.

Chapman and Hall, London, 315–321.

Mba, C.C., 1984. Earthworm utilization of Cassava peels (Maninot esculenta). In:

Satchell, J. E. (ed) Earthworm Ecology. Chapman and Hall, London and

New York, 315–321.


37

Mba, C.C., 1996. Treated-cassava peel vermicomposts enhanced earthworm

activities and cowpea growth in field plots. Resources, Conservation and

Recycling, 17: 219–226.

McBride, M.B., 1995. Toxic metal accumulation from agricultural use of sludge

are USEPA regulation protective. J. Environ Qual., 5-18.

McLaughlin, M.J., Parker, D.R. and Clarke, J.M., 1999. Metals and

micronutrients-food safety issues. Field Crop Res, 60: 143–163.

Medina, A.L., Cova, J.A., Vidna, R.A., Pujic, P., Carlos, M.P. and Toress, V.,

2003. Immunology and chemical analysis of proteins from Eisenia foetida,

earthworm. Food and Agricultural Immunology, 15(3-4): 251-263

Michon, J., 1957. Contribution experimentale a etude de la biologie des

Lumbricidae. Anncc. Biol., 33: 367-376.

Mihara, H., Maruyama, M. and Sumi, M., 1992. Novel thrombolytic therapy

discovered in oriental medicine using the earthworms; SE Asian Journal of

Tropical Medicine and Health, 131-140.

Mihara, H., Sumi, M., Mizumoto, H., Yoneta, T., Ikeda, R. and Maruyama, M.,

1990. Oral administration of earthworm powder as possible thrombolytic

therapy; Recent Advances in Thrombosis and Fibrinolysis; Academic Press,

NY. 287-298.

Miharah, Sumi, H., Yoneta, T., Mizumoto, H., Ikeda, R., Seiki, M and Maruyama,

M., 1991. A novel fibrinolytic enzyme extracted from the earthworm

Lumricus rubellus. Jpn J Physiol; 41: 461-472.

Mitchell, A., 1997. Production of Eisenia foetida and vermicompost from feedlot

cattle manure. Soil Biol. Biochem, 29: 763–766.

Mitchell, M.J., Hornor, S.G. and Abrams, B.I., 1980. Decomposition of sewage

sludge in drying beds and the potential role of the earthworm, Eisenia

foetida. Journal of Environmental Quality, 9: 373–378.


38

Monroy, F., Aira, M., Dominguez, J. and Velando, A., 2006. Seasonal population

dynamics of Eisenia fetida (Savigny, 1826) (Oligochaeta, Lumbricidae) in

the field. Comptes Rendus Biologies, 329(11): 912–915.

Morgan, M. and I. Burrows, 1982. Earthworms/Microorganisms interactions.

Rothamsted Exp. Stn. Rep. Singleton, D.R., B.F. Hendrix, D.C. Coleman

and W.B. Whitemann, 2003. Identification of uncultured bacteria tightly

associated with the intestine of the earthworms Lumricus rubellus. Soil

Biology and Biochemistry; 35: 1547-1555.

Moss Ralph, 2004. Of enzymes, worms and cancer : the war on cancer

(lumbrokinsae enzyme from earthworms). Worm Digest;

( http://www.wormdigest.org/content view/161/2/).

Motsara, M.R. and R.N. Roy, 2008. Aboratory establishment for plant nutrient

analysis, FAO fertilizer and plant nutrition bulletin, food and agriculture

organization of the United Nations, Rome, 2008.

Munnole, P.M., 2007. Management of industrial organic solid waste through

vermiculture biotechnology with special reference to micro organisms.

Ph.D thesis goa university, India, 1-334.

Munnoli, P.M. and Bhosle, 2009. Effect of soil cowdung proportion of

vermicomposting. journal of scientific and industrial research, 68: 57-60.

Munroe, G., 2007. Manual of On-farm Vermicomposting and Vermiculture.

Publication of Organic Agriculture Centre of Canada, Nova Scotia.

Murarkar, S.R., Tayade, A.S., Bodhade, S.N. and Ulemale, R.B., 1998. Effect of

vermicompost on mulberry leaf yield. Journal of Soils and Crops, 8(1): 85-

87.

Murphy, D., 1993. Earthworms in Australia: a blueprint for a better environment.

Hyland House: South Melbourne.


39

Nagavallemma, K.P., Wani, S.P., Stephane Lacroix, Padmaja, V.V., Vineela, C.,

Babu Rao, M. and Sahrawat, K.L., 2004. Vermicomposting: Recycling

wastes into valuable organic fertilizer. Global Theme on Agrecosystems

Report no. 8. Patancheru 502 324, Andhra Pradesh, India: International

Crops Research Institute for the Semi-Arid Tropics. 20.

Narayan, J., 2000. Vermicomposting of biodegradable waste collected from

Kuvempu university campus, using local and exotic species of earthworm

in proceding of conference on national industry and environment. 28th to

30th December 1999, Karad, India, 417-419.

Navie, S.C., Panetta, F.D., McFadyen, R.E. and Adkins, S.W., 1998. Behaviour of

buried and surface sown seeds of Parthenium hysterophorus L. Weed

Research. 38: 335-341.

Ndegwa, P.M. and S.A. Thompson, 2000. Effect of stocking density and feeding

rate Vermicomposting of Biosolids, Biores. Technol., 71: 5-12.

Ndegwa, P.M. and Thompson, S.A., 2001. Integrating composting and

vermicomposting in the treatment and bioconversion of biosolids.

Bioresource Technology, 76:107-112.

Neilson, R.L., 1951. Earthworms and Soil Fertility; In Proc. Of 13th Conf. Of

Grassland Assoc., New Plymouth, US, 158-167.

Nethra, N.N., Jayaprasad, K.V. and Kale, R.D., 1999. China aster (Callistephus

chinensis (L.) Ness) cultivation using vermicompost as organic

amendment. Crop Research, 17(2): 209-215.

Neuhauser, E.F. and C.A. Callahan, 1990. Growth and reproduction of the

earthworm Eisenia fetida exposed to sublethal concentrations of organic

chemicals. Soil Biology and Biochemistry, 22(2): 175-179.

Neuhauser, E.F., Hartenstein, R. and Kaplan, D.L., 1980a. Growth of the

earthworm Eisenia foetida in relation to population density and food

rationing. Oikos, 35: 93–98.


40

Neuhauser, E.F., Kaplan, D.L., Malecki, M.R., Hartenstein, R., 1980b. Material

supporting weight gain by the earthworm Eisenia fetida in waste

conversion systems. Agricultural Wastes, 2: 43–60

Neuhauser, E.F., Loehr, R.C. and Malecki, M.R., 1988b. The potential of

earthworms for managing sewage sludge. In Earthworms in Waste and

Environmental Management (eds, C.A. Edwards and E.F. Neuhauser).

Academic Publishing: The Hague, The Netherlands. Mitchell, A. (1997)

Production of Eisenia fetida and vermicompost from feed-lot cattle manure.

Soil Biology and Biochemistry, 29 (3/4): 763-766.

Neuhauser, E.F., Loehr, R.C., Malecki, M.R., 1988a. The potential of earthworms

for managing sewage sludge. In: Edwards, C. A., Neuhauser, E.F. (eds)

Earthworms in Waste and Environmental Management. SPB Academic

Publishing BV, The Hague, 9–20.

Nguyen Ngoc Tuan, Ulfert Focken, Nguyen Ngoc Tuan and Ulfert Focken, 2009.

Earthworm powder as potential protein source in diets for common carp

(Cyprinus carpio L.) Biophysical and socio-economic frame conditions for

the sustainable management of natural resources, Tropentag, October 6-8,

2009, Hamburg.

Nielson, R.L., 1985. Presence of plant growth substances in earthworm

demonstrated by paper chromatography and the Went Pea Test. Nature,

208(5015): 1113-1114.

Nighawan, S.D. and J.S. Kanwar, 1952. Physico-chemical properties of earthworm

castings. Indian J. of Agricultural Sciences, 22: 357-375.

Nogales, R., Elvira, C., Benitez, E., Thompson, R. and Gomez, M., 1999.

Feasibility of vermicomposting dairy biosolids using a modified system to

avoid earthworm mortality. Journal of Environmental Science and Health -

Part B: Pesticides, Food Contaminants, and Agricultural Wastes, 34(1):

151-169.


41

Nogales, R., Thompson, R., Calmet, A., Benitez, E., Gomez, M. and Elvira, C.,

1998. Feasibility of vermicomposting residues from olive oil production

obtained using two stages centrifugation. Journal of Environmental Science

and Health Part AToxic/ Hazardous Substances and Environmental

Engineering, 33(7): 1491-1506.

Nowak, E., 1975. Population density of earthworms and some elements of their

production in several grassland environments. Ecol. Pollut., 23: 459- 491.

Nyirenda, J., Mwabumba, M. and Sales, J., 2000. Effects of Substituting Animal

Protein Sources with soybean meal in diets of -Oreochromis Karogae.

Naga. The iclarm, 4: 13- 15.

Omorinkoba, W.S., Bankole, N.O. and Ita, E.O., 1985. A preliminary report on

earthworm culture for sport fishing in Kainji Lake Research Institute

(KLRI) reservoirs. KLRI Annual Report 1986, 62-65.

Orozco, F. H., Cegarra, J., Trujillo, L. M. and Roig, A., 1996. Vermicomposting of

coffee pulp using the earthworm Eisenia fetida: effects on C and N contents

and the availability of nutrients. Biology and Fertility of Soils, 22: 162–166.

Palanisamy, S., 1996. Earthworm and Plant Interactions; Paper presented in ICAR

Training Program; Tamil Nadu Agricultural University, Coimbatore.

Palungkun, R., 1999. Success on Lumbricus rubellus farming. Penebar Swadaya.

Jakarta.

Paoletti, M. G., Dufour, D. L., Cerda, H., Torres, F., Pizzoferrato, L. and Pimentel,

D., 2000. The importance of leaf- and litter-feeding invertebrates as sources

of animal protein for the Amazonian Amerindians. Proc. R. Soc. Lond. B

267, 2247–2252. (DOI 10.1098/rspb.2000.1275.)

Paoletti, M.G. and Bukkens, S.G.F., 1997. Minilivestock. Ecol. Food Nut, 36 : 95–

346.


42

Paoletti, M.G., Buscardo, D.J., VanderJagt, A., Pastuszyn, L., Pizzoferrato, Y.S.,

Huang, L.T., Chuang, M., Millson, H., Cerda, F., Torres Glew, R.H., 2011.

Proceedings: The Royal Society of Biological Sciences.London, 249-257.

Parthasarathi, K. and Ranganathan, L.S., 2000. Chemical characteristics of mono

and polycultured soil worms casts by tropical earthworms. Environ. Ecol,

18: 742-746.

Parthasarathi, K., 2007. Life cycle of Lampito mauritii (Kinberg) in comparison

with Eudrilus eugeniae (Kinberg) cultured on different substrates. Journal

of Environmental Biology, 28(4): 803-812.

Pathrnasothy, S., 1983. A Review of Feed, their processing and feeding technique

in Malaysian Aquaculture system. In proceeding of the International

Conference on Management of Tropical Living Aquatic Resources Ed.

Chan et al., 126- 131.

Patil, N.M., 2010. Biofertilizer effect on growth, protein and carbohydrate content

in stevia rebaudiana var bertoni. Recent Research in Science and

Technology, 2(10): 42-44.

Pennino, M., Dierenfeld, E.S. and Behler, J.L., 1991. Retinol, α-tocopherol, and

proximate nutrient composition of invertebrates used as feed. International

Zoo Yearbook, 30: 143-149.

Phillipson, J. and Bolton, P.J., 1977. Growth and cocoon production by

Allolobophora rosea (Oligochaeta: Lumbricidae). Pedobiologia, 17: 17–82.

Prabha K., Padmavathiamma, Loretta, Y., Li and Kumari Usha, R., 2008. An

experimental study of vermi-biowaste composting for agricultural soil

improvement. Bioresource Technology, 99: 1672-1681

Preetha, D., P.K. Sushama and K.C. Marykutty, 2005. Vermicompost+inorganic

fertilizers promote yield and nutrient uptake of amaranth (Amaranthus

tricolor L.). Journal of Tropical Agriculture, 43(1-2): 87-89.


43

Pretty, N. Jukes, 1996. Sustainable Agriculture: Impact on Food Production and

Challenges for Food Security. International Institute of Environment and

Development, IIED, London.

Probodhini, J., 1994. Recycle kitchen waste into vermicompost. India Fmg,

43(12): 34.

Puh, P.C., 1941. Beneficial influence of earthworms on some chemical properties

of the soil. Publication of Science Society of China (Division of Zoology),

15: 147-155.

Purakeyastha, T.J. and Bhatnagar, R.K., 1997. Vermicompost: a promising source

of plants nutrients. India Fmg, 46(2): 35-37.

Puri, D., 2004. Effects of feeding human faeces on the survival, growth and

reproduction of Eisenia fetida. M.Sc. Thesis, Department of Civil

Engineering, Institute of Engineering, Kathmandu, Nepal.

Qingsui, C. 2003. A new medicine for heart diseases containing enzyme activator

extracted from earthworms; (In Lopez and Alis ‘The Utilization of

Earthworms for Health Remedies). [email protected]

Rajiv K. Sinha, Sunita Agarwal, Krunal Chauhan and Dalsukh Valani. The

wonders of earthworms and its vermicompost in farm production: Charles

Darwin’s ‘friends of farmers’, with potential to replace destructive

chemical fertilizers from agriculture. Agricultural Sciences, 1(2): 76-94

Raju Panday, 2012. Analysis of Toxic Metals (Cd, Pb, Zn, Cu, Fe) in Earthworm

Species (Eisenia fetida, Perionyx excavatus and Lampito mauritii) and

Their Vermi culture, A final report, submitted to ministry of science and

technology Singha Durbar, Kathhmandu, Nepal, Central department of

biotechnology kirtipur nepal, June 29, 2012.

Ramalingam, A., Gangatharan, M., Kasturi Bai, R., 2004. Solid state bio-treatment

of coirpith and paddy straw. Asian Journal of Microbiology, Biotechnology

and Environmental Science, 6: 141-142.


44

Ramalingam, R. and Thilagar, 2000. Bioconversion of agro-waste sugarcane trash

using an Indian epigeic earthworm, Perionyx excavatus (Perrier). Indian J.

Environ. Ecoplan, 3: 447-452.

Ramasamy, E.V., 1997. Biowaste treatment with anaerobic reactors. PhD Thesis:

Pondicherry University (India).

Ramesh, P.T., Alfred, Sagaya and K. Gunathilagraj, 1997. Population density of

earthworms under different crop ecosystem. In Proceeding of Training

Program on Vermiculture at ICAR, New Delhi.

Rani, R. and Srivastava, O.P., 1997. Vermicompost: a potential supplement to

nitrogenous fertilizer in rice nutrition. International Rice Research Notes,

22(3): 30-31.

Rao, B. and Narsimha, 1993. Pollution problems caused by pesticides. Symposium

on Toxicity Evaluation in Biosystem; Academy of Environmental Biology

(AEB), Indore, Nov. 7-9, 1993.

Rao, S., Subba Rao, A. and Takkar, P.N., 1996. Changes in different forms of K

under earthworm activity. National Seminar on Organic Farming and

Sustainable Agriculture, India, October 9–11.

Reeh, U., 1992. Influence of population densities on growth and reproduction of

the earthworm Eisenia andrei on pig manure. Soil Biology and

Biochemistry, 24(12): 1327-1331.

Reganold, J.P., Papendick, R.I.P. and James, F., 1990. Sustainable Agriculture.

Scientific American, 262(6): 112-120.

Reinecke, A.J. and Hallatt, L., 1989. Growth and cocoon production of Perionyx

excavatus (Oligochaeta). Biol. Fertil. Soils, 8: 303–306.

Reinecke, A.J. and Kriel, J.R., 1981. Influence of temperature on the reproduction

of the earthworm Eisenia foetida (Oligochaeta). South African Journal of

Zoology, 16: 96-100.


45

Reinecke, A.J. and Venter, J.M., 1987. Moisture preference, growth and

reproduction of the composting worm Eisenia foetida (Oligochaeta).

Biology and Fertility of Soils, 3: 135-141.

Reinecke, A.J. and Viljoen, S.A., 1990. The influence of feeding patterns on

growth and reproduction of the vermicomposting earthworm Eisenia fetida

(Oligochaeta). Biology and Fertility of Soils, 10: 184–187.

Reinecke, A.J., Viljoen, S.A. and Saayman, R.J., 1992. The suitability of Eudrilus

eugeniae, Perionyx excavatus and Eisenia fetida (Oligocaeta) for

vermicomposting in Southern Africa in terms of their temperature

requirements. Soil. Biol. Biochem, 24: 1295-1307.

Rene Borstel, 2011. Columns and Applications Department, KNAUER, Food

analysis Application Note, Fast online SPE purification of Stevia plant

extracts, VFD0093N , November 2011.

Resnawati, 2004. Technology in animal husbandry and veterinary as motor of

change in animal agribusiness. Puslitbang Peternakan, 2: 473-478.

Reynolds, J.W. and Reynolds, W.M., 1972. Earthworms in medicine. Am. J. Nurs,

1(72): 12-73.

Reynolds, J.W. and Wetzel, M.J., 2004. Nomenclatura Oligochaetologica.

Supplementum Quartum. A catalogue of names, descriptions and type

specimens of the Oligochaeta. Illinois Natural History Survey Special

Publication.

Reynolds, J.W., 1973. Earthworm (Annelida: Oligochaeta) ecology and

systematics; in Proceedings 1st Soil Microcommunities Conference,

Syracuse, NY, October 1971 (ed.) D L Dindal (US Atomic Energy

Commission, Office of Information Services, Washington), 95–120.

Roberts, P, Jones, G.E. and Jones, D.L., 2007. Yield responses of wheat (Triticum

aestivum) to vermicompost. Journal of Compost Science and Utilization,

15(1): 6-15.


46

Robidoux, P.Y., C. Svendsen and J. Caumartin, 2000. Chronic toxicity of energetic

compounds in soil determined using the earthworm (Eisenia andrei)

reproduction test. Environmental Toxicology and Chemistry, 19(7): 1764–

1773.

Robidoux, P.Y., J. Hawari, S. Thiboutot, G. Ampleman and G.I. Sunahara, 1999.

Acute toxicity of 2,4,6-trinitrotoluene in earthworm (Eisenia andrei).

Ecotoxicology and Environmental Safety, 44(3): 311–321.

Rodriguez, J.A., Zavaleta, E., Sanchez, P. and Gonzalez, H., 2000. The effect of

vermicompost on plant nutrition, yield and incidence of root and crown rot

of Gerbera (Gerbera jamesonii H Bolus). Fitopathologia, 35(2): 66-79.

Russell, E.J., 1910. The Effect of Earthworms on Soil Productiveness. J. of

Agriculture Science, 3: 246-257.

Sabine, J., 1983. Earthworms as a source of food and drugs. In J.E. Satchell

Earthworm ecology: from Darwin to vermiculture.

Sabine, J.R. 1978. The nutritive value of earthworm meal. In: Hartenstein, R. (ed)

Utilization of Soil Organisms in Sludge Management. National Technical

Information Services. PB286932, Springfield, VA, 285–296.

Sabine, J.R., 1986. Earthworms as a source of food and drugs, in: Earthworm

ecology from Darwin to Vermiculture, Chappman and Hall, London, New

York, 285-296.

Sadasivam, S. and A. Manickam, 1996. Biochemical methods second edition new

age international publishers and Tamil Nadu agricultural university,

Coimbatore. 79.

Sadhale, Nailini, 1996. Recommendation to Incorporate Earthworms in Soil of

Pomogranate to obtain high quality fruits. In Surpala’s Vrikshayurveda,

Verse 131. The Science of Plant Life by Surpala, 10th Century A.D. Asian

Agri-History Bulletin; No. 1. Secunderabad, India.


47

Sahu, S.K. and Senapati, B.K., 1991. Selection pressure study on megascolecid

earthworms from India; SUJ Sci. Tech. (Silver Jubilee Volume), 10: 46–52.

Saleh, J., 2008. Yield and chemical composition of Piarom date palm as affected

by levels and methods of iron fertilization. International Journal of Plant

Production, 2(3): 207-214.

Satchel, J.E. and K. Martin, 1984. Phosphatase Activity in Earthworm Feces. J. of

Soil Biology and Biochemistry, 3: 65-74.

Satchell, J.E., 1967, Lumbricidae; in Soil biology (eds) A Burges and F Raw

(London: Academic Press), 259–322.

Satchell, J.E., 1983. Earthworm Ecology-From Darwin to Vermiculture; Chapman

and Hall Ltd., London, 1-5.

Saxena, M., A. Chauhan and P. Asokan, 1998. Flyash Vemicompost from Non-

friendly Organic Wastes. Pollution Research, 17(1): 5-11.

Scarborough, J., 1999. BioGreen Castings: scientifically assessing the merits of

vermicomposting biosolid and green waste mixes. Unpublished report for

The Wast Challenge, EPA, NSW. Bathurst City Council, NSW.

Scheu, S., 1987. Microbial Activity and Nutrient Dynamics in Earthworms Casts.

J. of Biological Fertility Soils, 5: 230-234.

Scheuerell, S. and W. Mahaffee, 2002. Compost Tea: Principles and Prospects for

Plant Disease Control. Compost Science and Utilization, 10: 313-338.

Schlenker, H., 1974. Makiritare (Venezuela, Orinoco-Quellgebiet) Sammeln,

Zubereiten und Essen von Wu¨ rmern. In Encyclopae- Proc. R. Soc. Lond.

B (2003) dia cinematographica (ed. G. Wolf), 1–11. Gottingen, Germany:

Institut fur den Wissenschaftlichen Film.


48

Schulz, E. and Graff, O., 1977. Zur Bewertung von Regenwurmmehl aus Eisenia

fetida (Savigny, 1826) Eiweissfuttermittel. Landbauforschung Volkenrode,

27: 216–218.

Seenappa, S.N. and R. Kale, 1993. Efficiency of earthworm Eudrillus eugeniae in

converting the solid wastes from the aromatic oil extraction units into

vermicompost. Journal of IAEM, 22: 267-269.

Seenappa, S.N., J. Rao and R. Kale, 1995. Conversion of distillery wastes into

organic manure by earthworm Eudrillus euginae. Journal of IAEM, 22(1):

244-246.

Segun, O.A., 1978. Eudrilid Earthworms from Ile-Ife, Western Nigeria. J. Natural

History, 12: 15-31.

Senapathi, B.K., 1988. Vermitechnology – an option for recycling of cellulosic

wastes of India. New Trends Biotechnol, 347–358.

Senapathi, B.K., 1994. Science for village and agro based industry through

vermiculture. National Meeting on Waste Recycling Centre of Science for

Villages, Wardha, 1994.

Senapathi, B.K., Dash, M.C., Rana, A.K., Panda, B.K., 1980. Observation on the

effect of earthworms in the decomposition processes in soil under

laboratory conditions. Comp. Physiol. Ecol, 5(3): 140–142.

Senapati, B.K., 1992. Vermitechnology: An option for Recycling Cellulosic Waste

in India. In: New Trends in Biotechnology. Oxford and IBH Publications

Pvt. Co. Ltd. Calcutta, 347-358.

Senesi, N., 1989. Composted Materials as Organic Fertilizers. The Science of Total

Environment, 81/82: 521-542.

Sevenson, J.E., 1957. The distribution of Lumbricidae in an area of pennine

mmoveland. J Anim Ecol, 26: 409.


49

Shanmuga priya and M. Lakshmi Prabha, 2011. Vermicomposting of leaf litter by

Lampito mauritti with a note on its physico-chemical features.

International Journal of ChemTech Research, 3(4): 1956-1961.

Shanthi, N.R., Bhoyar, R.V. and Bhide, A.D., 1993. Vermicomposting of

vegetable waste. Compost Science and Utilization, 1(4): 27-30.

Sharma Reena, 2001. Vermiculture for Sustainable Agriculture: Study of the

Agronomic Impact of Earthworms and their Vermicompost on Growth and

Production of Wheat Crops. Ph.D. Thesis, submitted to the University of

Rajasthan, Jaipur, India (Supervisor: Dr. Rajiv K. Sinha).

Sharma, S., Mathur, R.C. and Vasudevan, P., 1999. Composting silkworm culture

waste. Compost Science and Utilization, 7(2): 74-81.

Sharpley, A.N. and J.K. Syers, 1976. Potential Role of Earthworms Casts for

Phosphorus Enrichment of Run-Off Waters. Soil Biology and Biochemistry,

8: 341-346.

Sharpley, A.N. and Syres, J.K., 1977. Seasonal variations in casting activity and in

the amounts and release to solution of phosphorous forms in earthworm

casts. Soil Biol. Biochem, 9: 227–231.

Sheppard, P.S., 1988. Specific differences in coccoon and hatchling production in

E. fetida and E. andrei. In Earthworms in Waste and Environmental

Management (eds, C.A. Edwards and E.F. Neuhauser). Academic

Publishing: The Hague, The Netherlands.

Shiralipour, A., D.B. McConnell and W.H. Smith, 1992. Uses and Benefits of

MSW Compost: A Review and Assessment. J. of Biomass and Bioenergy,

3: 267-279.

Shi-wei, Z., Fu-zhen, H., 1991. The nitrogen uptake efficiency from 15N labeled

chemical fertilizer in the presence of earthworm manure (cast). In: Veeresh,

G. K., Rajagopal, D., Viraktamath, C. A. (eds) Advances in Management


50

and Conservation of Soil Fauna. Oxford and IBH publishing Co., New

Delhi, Bombay, 539–542.

Shrikhande, J.G. and A.N. Pathak, 1948. Earthworms and insects in relation to soil

fertility. Current Science, 17: 327-328.

Shuxin, L., Xiong, D., Debing, W., 1991. Studies on the effect of earthworms on

the fertility of red arid soil. In. Advances in management and conservation

of soil fauna, 543–545.

Shweta and Mamata, 2001. Qualitative variation of vermicompost prepared from

different substrates and by different earthworms, in 7th nat symp soil

biology and ecology (GKVK Banglore) 7-9 Nov 2001.

Singh, A. and Sharma, S., 2002. Composting of a crop residue through treatment

with microorganisms and subsequent vermicomposting. Biores. Technol.

85, 107–111.

Singh, J. and Pillai, K.S., 1973. The world beneath us. Science Reporter, 318–321.

Singh, N.B., Khare, A.K., Bhargava, D.S. and Bhattacharya, S., 2005. Effect of

initial pH on vermicomposting using Perionyx excavatus (Perrier 1872).

Appl. Eco. Env. Sci, 4(1): 85–97.

Singh, R.D., 1993. Harnessing the Earthworms for Sustainable Agriculture.

Institute of National Organic Agriculture, Pune, India, 1-16.

Singleton, D.R., B.F. Hendrix, D.C. Coleman and W.B. Whitemann, 2003.

Identification of uncultured bacteria tightly associated with the intestine of

the earthworms Lumricus rubellus. Soil Biology, 2: 65-69.

Sinha Rajiv, K., 1998. Embarking on the second green revolution for sustainable

agriculture in India: A judicious mix of traditional wisdom and modern

knowledge in ecological farming. Journal of Agricultural and

Environmental Ethics, 10: 183-197.


51

Sinha Rajiv, K., 2008. Organic Farming: An Economic Solution for Food Safety

and Environmental Security; Green Farming. International J. of

Agricultural Sciences, 1(10-11): 42-49.

Sinha, R.K., Herat, S., Valani, D. and Chauhan, K., 2009. Vermiculture and

sustainable agriculture. American- Eurasian Journal of Agricultural and

Environmental Sci-ences; IDOSI Publication, 1-55.

Sinha, R.K., S. Heart, S. Agarwal, R. Asadi and E. Carretero, 2002. Vermiculture

and waste management: study of action of earthworms Eisenia foetida,

Eudrilus euginae and Perionyx excavatus on biodegradation of some

community wastes in India and Australia. The Environmentalist, 22: 261-

268.

Sinha, Rajiv K. and Gokul Bharambe, 2007. Studies on Agronomic Impacts of

Vermicompost Vis-à-vis Conventional Compost and Chemical Fertilizers

on Corn Crops. CESR Sponsored Project; Griffith University, Brisbane,

Australia.

Sivakumar, S., H. Kasthuri, D. Prabha, P. Senthilkumar, C.V. Subbhuraam, and

Y.C. Song, 2009. Efficiency of composting parthenium plantandneem

leaves inthe presence andabsence of an oligochaete, Eisenia fetida, Iran. J.

Environ. Health. Sci. Eng., 6(3): 201-208.

Slocum, K., 1998. Myriad worms: choosing the right one for the job. Worm Digest,

19(1): 19-21.

Slocum, K., 1999. The worms themselves. Worm Digest, 21: 10-11.

Smitha and K. Umesha, 2012. Vegetative propagation of stevia [Stevia rebaudiana

(Bertoni) Hemsl.] through stem cuttings. Journal of Tropical Agriculture,

50(1-2): 72-75.

Sogbesan, A.O. and C.T. Madu. 2008. Evaluation of earthworm (Hyperiodillus

euryaulos, clausen, 1914; oligocheata: eudrilidae) meal as protein feedtuffs


52

in diet for Heterobranchus longifilis valenciennes, 1840 (teleostei, clariidae)

fingerlings under laboratory condition. J. Environmental Sci. 2(1): 23-31.

Sogbesan, A.O. and Ugwumba, A.A.A., 2008. Nutritional Evaluation of Termite

(Macrotermes subhyalinus) Meal as Animal Protein Supplements in the

Diets of Heterobranchus longifilis (Valenciennes, 1840) Fingerlings.

Turkish J. Fisheries. Aquatic Sci. 8: 149-157.

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

Journal of Zoology, 1(2): 103-112.

Sowande, O.S., B.C. Akinleye, B.A. Ogundipe and O.M.O. Idowu, 2002. Nutritive

potential of saw dust from mixed wood species. Proceeding of the 27

Annual Conference of Nigeria Society for Animal Production, 999.

Srinivasarao, Ch., Wani, S.P., Sahrawat, K.L., Rego and T.J., Pardhasaradhi, G.,

2008. Zinc, boron and sulphur deficiencies are holding back the potential of

rainfed crops in semi-arid India: Experiences from participatory watershed

management. International Journal of Plant Production, 2(1): 89-99.

Stafford, E.A. and Tacon, A.G.J., 1984. Nutritive value of the earthworm,

Dendrodrilus subrubicundus, grown on domestic sewage, in trout diet.

Agricultural Wastes, 9(4): 249-266.

Stafford, E.A. and Tacon, A.G.J., 1985. The nutritional evaluation of dried

earthworm meal included at low level in production diets for rainbrow trout,

Salmo gairdneri, Richardson. Aquaculture and Fisheries Management, 16:

213-222.

Subler Scott, Edwards Clive and Metzger James, 1998. Comparing Vermicomposts

and Composts. Biocycle, 39: 63-66.


53

Suchita Shrestha and Ananda Shova Tamrakar, 2010. Production of Vermicompost

from Eichhornia crassipes an Alien Invasive Species of Nepal. Lifescience

Jouno-Magazine, 2(1): 8-13.

Sudha, B. and K.K. Kapoor, 2000. Vermicomposting of Crop Residues and Cattle

Dung with Eisinia fetida. J. of Bioresource Technology, 73: 45.

Suhane, R.K., 2007. Vermicompost. Publication of Ra-jendra Agriculture

University, Pusa, Bihar, India, 88.

Suhane, Ravindra K., K. Sinha, Rajiv and K. Singh and Pancham, 2008.

Vermicompost, Cattle-dung Compost and Chemical Fertilizers: Impacts on

Yield of Wheat Crops; Communication of Rajendra Agriculture University,

Pusa, Bihar, India.

Sundaravadivel, S. and Ismail, S.A., 1995. Efficacy of a biological filter unit in the

treatment of distillery effluents. J. Ecotoxicol. Environ. Monitor, 5(2): 125–

129.

Suresh, S. and Dineshkumar, S., 2005. Effect of long term application of fertilizers

and manures on yield of cotton (Gossypium hirsutum), Sorghum (Sorghum

bicolor) in rotation on vertisol under dry farming and soil properties.

Advn.in Plant Sci, 18(1): 229-234.

Surindra Suthar, 2009. Impact of vermicompost and composted farmyard manure

on growth and yield of garlic (Allium stivum L.) field crop, International

Journal of Plant Production, 3(1): 27-38.

Suthar, S. and Singh, 2008. Vermicomposting of domestic waste by using two

epigeic earthworms (Perionyx excavatus and Perionyx sansibaricus). Int. J.

Environ. Sci. Tech., 5(1): 99-106.

Suthar, S., 2005. Effect of vermicompost and inorganic fertilizer on wheat

(Triticum aestivum) production. Nature Environment Pollution Technology,

5(2): 197-201.


54

Suthar, S., 2006b. Potential utilization of guargum industrial waste in

vermicompost production. Bioresource Tech., 97: 2474-2477.

Suthar, S., 2006a. Nutrient changes and biodynamics of epigeic earthworm

Perionyx excavatus (Perrier) during recycling of some agriculture wastes.

Biores. Technol. 98: 1608–1614.

Suthar, S., 2007b. Vermicomposting potential of Perionyx sansibaricus (Perrier) in

different waste materials. Biores. Technol., 98(6): 1231–1237.

Suthar, S., 2007a. Influence of different food sources on growth and reproduction

performance of composting epigeics: Eudrilus eugeniae, Perionyx

excavatus and Perionyx sansibaricus, Applied Ecology And Environmental

Research, 5(2): 79-92.

Suthar, S., 2008a. Bioconversion of post harvest crop residues and cattle shed

manure into value added products using earthworm Eudrilus eugeniae

(King berg). Ecological Engineering, 32: 206-214.

Suthar, S., 2008b, Microbial and decomposition efficiencies of monoculture and

poly culture vermireactors based on epigic and anecic earthworms. World

journal of microbial technology, 24: 1471-1479.

Suthar, S., 2010. Vermicompost: An environmentally safe, economically viable

and socially acceptable nutri-tive fertilizer for sustainable farming; In:

Sinha, R.K. et al., Eds. Special Issue on ‘Vermiculture Technology,

Journal of Environmental Engineering; Inderscience Pub. (Accepted).

Suthar, S., Singh, S., Dhawan, S., 2008. Earthworm as bioindicators of metals (Zn,

Fe, Mn, Cu, Pb and Cd) in soils: Is metal bioaccumulation affected by their

ecological categories. Ecol Eng, 32:99–107.

Suthar, S.S., Watts, J. Sandhu, M. Rana, S. Kanwal, Gupta and Meena, M.S., 2005.

Vermicomposting of kitchen waste by using Eisenia fetida (Savigny).

Asian Journal of Microbiology Biotechnology and Environmental Science,

7: 541- 544.


55

Syres, J.K. and Springett, J.A., 1984. Earthworms and soil fertility. Plant Soil, 76:

93–104.

Syres, J.K., Sharpley, A.N. and Keeney, D.R., 1979. Cycling of nitrogen by

surface casting earthworms in a pasture ecosystem. Soil Biol. Biochem., 11:

181–185.

Tacon, A.G.J., .Stafford, E.A. and Edwards, C.A., 1983. A Preliminary

investigation of the nutritive value of three terrestrial worms for rainbow

trout. Aquaculture, 35: 187-199.

Tacon, A.G.J., 1994. Feed ingredients for carnivorous fish species. Alternatives to

fishmeal and other fishery resources. FAO of United Nations, Fisheries

Circular No.881. FIRI/C881, Rome, 35.

Tacon, A.G.J., Haaster, J.V., Feathstone, P.B., Ker, K. and Jackson, A.J., 1982.

Studies on the utilisation of full-fat soybean and solvent extracted soybean

meal in a complete diet for rainbow trout 32.

Tajbakhsh J., M.A. Abdoli, E. Mohammadi Goltapeh, I. Alahdadi and M.J.

Malakouti, 2008a. Trend of physico-chemical properties change in

recycling spent mushroom compost through vermicomposting by epigeic

earthworms Eisenia foetida and E.andrei. Journal of Agricultural

Technology, 4(2): 185-198.

Tajbakhsh, J., Abdoli, M.A., Goltapeh, E.M., Alahdadi, I. and Malakouti, M.J.,

2008b. Recycling of spent mushroom compost using earthworms E. fetida

and E. Andrei. Environmentalist, 28: 476–482.

Talashilkar, S.C., Bhangarath, P.P. and Mehta, V.B., 1999. Changes in chemical

properties during composting of organic residues as influences by

earthworm activity. J. Indian Soc. Soil Sci., 47: 50–53.

Tamado, T.L., Owader and Milbery, P., 2002. Interference by the weed Parthenium

hysterophorus L. with grain sorghum influence of weed density and

duration of competition. International. J. Pest Management. 48: 183-188.


56

Tamayo, V.A., Jaramillo, N.J. and Mazo, Q.J., 1997. Quality assessment of 16

vermicomposted vegetable residues. Actualidades-Corpoica, 11(109): 7-12.

Tchobanoglous, G. and Burton, F.L., 1999. Wastewater engineering-treatment,

disposal and reuse. New Delhi: T. McGraw-Hill.

Thangavel, P., Balagurunathan, R., Divakaran, J. and Prabhakaran, I., 2003, Effect

of vermiwash and vermicast extract on soil nutrient status, growth and yield

of paddy. Adv. Pl. Sci., 16: 187-190.

Thankamani, C.K., Sreekala, K. and Anandaraj, M., 2005. Effect of Pseudomonas

fluorescens (IISR-6) and Trichoderma harzianum (P-26) on growth of

black pepper (Piper nigrum L.) in the nursery. J. Spices Arom. Crops, 14(2):

112–116.

Tharmaraj, K., Ganesh, P. and Kolanjinathan, K., Suresh Kumar, R. and Anandan,

A., 2011. Influence of vermicompost and vermiwash on physic chemical

properties of rice cultivated soil. Curr. Bot. 2(3): 18-21.

Thompson, R.B. and Nogales, R., 1999. Nitrogen and carbon mineralization in soil

of vermicomposted and unprocessed dry olive cake (‘Orujo seco’)

produced from two stage centrifugation for olive oil extraction. Journal of

Environmental Science and Health, Part B, Pesticides, Food Contaminants

and Agricultural Wastes, 34(5): 917–928.

Tiunov, A.V., S. Scheu, 2004. Carbon availability controls the growth of

detritivores (Lumbricidae) and their effect on nitrogen mineralization,

Oecologia, 138: 83–90.

Tiwari, S.C., Tiwari, B.K. and Mishra, R.R., 1989. Microbial populations, enzyme

activities and nitrogen, phosphorus, potassium enrichment in earthworm

casts and in surrounding soil of a pineapple plantation. Journal of

Biological Fertility of Soils, 8(1): 178-182.


57

Tobey, James A. and Henri Smets, 1996. The Polluter Pay Principle in the Context

of Agriculture and the Environment. The World Economy, Blackwell

Publishers, 19 (1): 3-12.

Tognetti, C., Laos, F., Mazzarino, M.J. and Hernandez, M.T., 2005. Composting

vs. vermicomposting: A com-parison of end product quality. Journal of

Compost Sci-ence and Utilization, 13(1): 6-13.

Tomar, V.K., R.K. Bhatnagar and R.K. Palta, 1998. Effect of Vermicompost on

Production of Brinjal and Carrot. Bhartiya Krishi Anusandhan Patrika.

Indian Agricultural Research Bulletin, 13(3-4): 153-156.

Tomati, V. and E. Galli, 1995. Earthworms, Soil Fertility and Plant Productivity.

Acta Zoologica Fennica, 196: 11-14.

Tomati, V., A. Grappelli and E. Galli, 1983a. Fertility Factors in Earthworm

Humus. In Proc. of International Symposium on ‘Agriculture and

Environment: Prospects in Earthworm Farming; Rome, 49-56.

Tomati, V., A. Grappelli and E. Galli, 1987. The Presence of Growth Regulators in

Earthworm-Worked Wastes. In Proceeding of International Symposium on

Earthworms, Italy; 31 March-5 April, 423-436.

Tomati, V., A. Grappelli and E. Galli, 1988. The Hormone like Effect of

Earthworm Casts on Plant Growth. Biology and Fertility of Soils, 5: 288-

294.

Tomati, V., Grappel, A., Galli, E. and Rossi, W., 1983b. Fertilizers from

vermiculture - an option for organic wastes recovery. Agrochemica, 27:

244-251.

Tomati, V., Grappelli, A. and Galli, E., 1995. The Hor-mone like Effect of

Earthworm Casts on Plant Growth. Biology and Fertility of Soils, 5(4):

288-294.


58

Tram, N.D.Q, L.D. Ngoan and B. Ogle., 2005. Culturing earthworms on pig

manure and the effect of replacing trash fish by earthworms on the growth

performance of Catfish -Clarias macrocephalus x Clarias gariepinus

(accessed: July 9, 2009).

Tripathi, G., Bhardwaj, P., 2004. Comparative studies on biomass production, life

cycles and composting efficiency of Eisenia foetida (Savigny) and Lampito

mauritii (Kinberg). Biores. Technol, 92: 275– 283.

Tyler, H.H., Warren, S.L., Bilderback, T.E. and Fonteno, W.C., 1993. Composted

turkey litter: I. E ect on chemical and physical properties of a pine bark

substrate. Journal of Environmental Horticulture, 11: 131-136.

UNEP/GEMS, 1992. The Contamination of Food. UNEP/GEMS Environment

Library No. 5, Nairobi, Kenya.

UNSW, ROU, 2002. Vermiculture in Organics Management-The Truth Revealed,

(Seminar in March 2002) University of New South Wales Recycling

Organics Unit, Sydney, NSW, Australia.

Vadiraj, B.A., Siddagangaiah and Potty, S.N., 1998. Response of coriander

(Coriandrum sativum L.) cultivars to graded levels of vermicomposts. J.

Spices Aromatic Crops, 7: 141–143.

Valani Dalsukh, 2009. Study of Aerobic, Anaerobic and Vermicomposting

Systems for Food and Garden Wastes and the Agronomic Impacts of

Composts on Corn and Wheat Crops; Report of 40 CP Honours Project for

the Partial Fulfillment of Master of Environmental Engineering Degree,

Griffith University, Australia (Supervisors: Dr. Rajiv K. Sinha and Dr.

Sunil Herat).

Van Gestel, C.A.M. and W.A. Van Dis, 1988. The influence of soil characteristics

on the toxicity of four chemicals to the earthworm Eisenia fetida and E.

andrei (Oligochaeta). Biology and Fertility of Soils, 6(3) 262–265.


59

Van Gestel, C.A.M., E.M. Dirven-Van Breemen and R. Baerselman, 1992.

Comparison of sublethal and lethal criteria for nine different chemicals in

standardized toxicity tests using the earthworm Eisenia andrei,”

Ecotoxicology and Environmental Safety, 23(2) 206–220.

Venkatesh, Patil, P.B., Patil, C.V. and Giraddi, R.S., 1998. Effect of in situ

vermiculture and vermicomposts on availability and plant concentration of

major nutrients in grapes. Karnataka J. Agric. Sci. 11: 117–121.

Venter, J.M. and A.J. Reinecke, 1985. Dieldrin and growth and development of the

earthworm, Eisenia foetida (oligochaeta). Bulletin of Environmental

Contamination and Toxicology, 35(5): 652-659.

Venter, J.M. and Reinecke, A.J., 1988. The life-cycle of the compost worm Eisenia

fetida (Oligochaeta). South African Journal of Zoology, 23: 161-165.

Vermi Co. 2001. Vermicomposting technology for waste management and

agriculture: an executive summary.

(http://www.vermico.com/summary.htm) PO Box 2334, Grants Pass, OR

97528, USA: Vermi Co.

Viel, M., D. Sayang and L. Andre, 1987. Optimization of Agricultural, Industrial

Wastes Management through In –vessel Composting, in: M. de Bertoldi,

(ed.) Compost: Production, Quality and Use. Elseiver Appl. Sci. Essex.,

230-237.

Vielma-Rondon, R., Ovalles-Duran, J.F., Leon-Leal, A. and Medina, A., 2003.

Nutritional value of earthworm flour (Eisenia foetida) as a source of amino

acids and its quantitative estimation through reversed phase

Chromatography (HPLC) and pre-column derivation with o-phthalaldehyde

(OPA). Ars Pharmaceutica. 44(1): 43-58.

Vijaya, D., Padmadevi, S.N., Vasandha, S., Meerabhai, R.S. and Chellapandi, P.,

2008. Effect of vermicomposted coirpith on the growth of Andrographis

paniculata. Journal of Organic Systems, 3(2): 20-28.


60

Viljoen, S.A. and Reinecke, A.J., 1989a. Life-cycle of the African nightcrawler,

Eudrilus eugeniae (Oligochaeta). South African Journal of Zoology, 24(1):

27-32.

Viljoen, S.A. and Reinecke, A.J., 1989b. Moisture, growth, maturation and cocoon

production of Eudrilus eugeniae (Oligochaeta). Rev. Ecol. Biol. Soil, 26:

291-303.

Viljoen, S.A. and Reinecke, A.J., 1992. The temperature requirements of the

epigeic earthworm species Eudrilus eugeniae (Oligochaeta) - a laboratory

study. Soil Biology and Biochemistry, 24(12): 1345-1350.

Viljoen, S.A., Reinecke, A.J. and Hartman, L., 1991. Life-cycle of the European

compost worm Dendrobaena veneta (Oligochaeta). South African Journal

of Zoology, 1: 9-17.

Vinceslas-Akpa, M. and Loquet, M., 1997. Organic matter transformation in

lignocellulosic waste products composted or vermicomposted (Eisenia

fetida andrei): chemical analysis and 13C CPMAS NMR spectroscopy. Soil

Biology and Biochemistry, 29: 751-758.

Vivek Sharma, J.K. Pandher and Kamla Kanwar, 2008. Biomanagement of lantana

(Lantana camara L.) and congress grass (Parthenium hysterophorus L.)

through vermicomposting and its response on soil fertility. Indian J. Agric.

Res., 42(4): 283-287.

Wahid, A., Siddiqui, H.H., 1961. A survey of Drugs -2111 edition. Institute of

History of Medicine and Medical Research, New Delhi, 16-17.

Waikhom Roshan Singh, Ayan Das and Ajay Kalamdhad, 2012. Composting of

Water Hyacinth using a Pilot Scale Rotary Drum Composter, Environ. Eng.

Res., 17(2): 69-75.

Wallace, A. R., 1853. On the insects used for food in the Indians of the Amazon. R.

Entomol. Soc. Lond., 2: 241-244.


61

Wallace, A.R., 1889. A narrative of travels on the Amazon and Rio Negro. New

York: Dover Publications Inc.

Wang, Z.W., 2000. Research advances in earthworms bioengineering technology.

Medica, 31(5): 386-389.

Wani, S.P,, Rupela, O.P. and Lee, K.K., 1995. Sustainable agriculture in the semi-

arid tropics through biological nitrogen fixation in grain legumes. Plant and

Soil, 174: 29-49.

Wani, S.P. and Lee, K.K., 1992. Biofertilizers role in upland crops production.

Pages 91–112 in Fertilizers, organic manures, recyclable wastes and

biofertilisers (Tandon HLS, ed.). New Delhi, India: Fertilizer Development

and Consultation Organisation.

Wani, S.P., 2002. Improving the livelihoods: New partnerships for win-win

solutions for natural resource management. Paper submitted in the 2nd

International Agronomy Congress held at New Delhi, India during 26–30

November 2002.

Watanabe, H. and Tsukamoto, J., 1976. Seasonal changes in size class and stage

structure of the lumbricid Eisenia fetida population in a field compost and

its practical application as the decomposer of organic waste matter. Revue

d’Ecologie et Biologie du Sol, 13: 141–146.

Webster, K.A., 2005. Vermicompost increases yield of cherries for three years

after a single application. EcoRe-search, 3:98-104.

Weltzien, H.C., 1989. Some effects of composted organic materials on plant

health. Agriculture Ecosystems and Environment, 27: 439-446

Wengling, C. and S. Jhenjun, 2000. Pharmaceutical value and uses of earthworms:

Vermillenium Abstracts; Flowerfield Enterprizes, Kalamazoo, MI (USA).

Werner, M., 1997. Earthworms team up with yard trimmings in orchard. BioCycle,

38(6): 64-65.


62

Whiston, R.A. and Seal, K.J., 1988, The occurrence of cellulases in the earthworm

Eisenia foetida. Biological Wastes, 3: 54-59.

Wilson, D.P. and W.R. Carlile, 1989. Plant growth in potting media containing

worm worked duck waste. Acta Horticulture, 238: 205-220.

Winding, A., R. Ronn and N.B. Hendriksen, 1997. Bacteria and protozoa in soil

microhabitats as affected by earthworms. Biological Fertility of Soils, 24:

133-140.

Wong, J.M.C., Li. Fang, G.X. and M.H. Wong, 1997. Feasibility of using ash

residues composting materials for sewage sludge. Environ. Technol, 18:

563-568.

Wong, S.H. and Griffiths, D.A., 1991. Vermicomposting in the management of

pig-waste in Hong Kong. World Journal of Microbiology and

Biotechnology, 7: 593-597.

Yaqub, H., 1991. Earthworm and maggot meals as a potential fish meal

replacement. Thesis. Institute of Renewable Natural Resources U.S.T.,

Kumasi, Ghana.

Yash, P. Kalra, 1998. Handbook of Methods for Plant Analysis, Soil and Plant

Analysis Council, Inc. CRC Press Boca Raton Boston London New York

Washington, D.C. Published in 1998 by CRC Press Taylor and Francis

Group 6000 Broken Sound Parkway NW, Suite 300.

Zajonc, I. and Sidor, V., 1990. Use of some wastes for vermicompost preparation

and their influence on growth and reproduction of the earthworm Eisenia

fetida. Pol’nohospodars-tvo (CSFR), 36(8): 742-752.

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