Anaerobic composting of pyrethrum waste with and without effective microorganisms.
African Journal of Environmental Science and Technology 6, 293-299.
Mwegoha, W.
Bioremediation of herbicide velpar K® in vitro in aqueous solution with application of EM-4 (effective microorganisms).
Brazilian Archives of Biology and Technology, 55, 145-149.
Ramos, M.A.G., and Yoshioka, S.A.
Bioremediation of pulp and paper industry secondary sludge spiked with cow dung and effective microorganisms using epigeic earthworm Eudrilus eugeniae (Kinberg).
Dynamic Soil, Dynamic Plant, n.a..
Priya, T.L., Uma, R.N., Sivakumar, S., Meenambal, T., and Son, H.-K.
Degrading drilling fluid filter cake using effective microorganisms.
Jurnal Teknologi 57, 1-22.
Ismail, I., Illias, R., Abd Mubin, A.S., and Machitin, M.
Effect of compost derived from decomposed fruit wastes by Effective Microorganism (EM) technology on plant growth parameters of Vigna mungo.
Journal of Bioremediation and Biodegradation 3, 167.
Raja Namasivayam, S. S. K., and Bharani R.S.A.
Effects of organic and microbial fertilization on wheat growth and yield.
Int Res J Agric Sci Soil Sci 2, 149-154.
Mohammed, S., Osman, A., Mohammed, A., Abdalla, A., Sherif, A., and Rugheim, A.
EM Biodegrading characteristics of petroleum hydrocarbon in artificial seawater.
Advanced Materials Research, 356, 1145-1151.
Zhang, Z., Ding, S.Q., Yang, Y.S., Zuo, X.J., and Xu, Y.
Functions of effective microorganisms in bioremediation of the contaminated harbor sediments.
Journal of Environmental Science and Health, Part A, 47, 44-53.
Ekpeghere, K.I., Kim, B.H., Son, H.S., Whang, K.S., Kim, H.S., and Koh, S.C.
Influnce of foliar application by EM" Effective Microorganisms", amino acids and yeast on growth, yield and quality of two cultivars of onion plants under newly reclamed soil.
Journal of Agricultural Science, 4(11), 26-39.
Fawzy, Z., Abou El-magd, M., Li, Y., Ouyang, Z., and Hoda, A.
Influnce of foliar application by EM" Effective Microorganisms", amino acids and yeast on growth, yield and quality of two cultivars of onion plants under newly reclamed soil.
Journal of Agricultural Science, 4(11), 26-39.
Fawzy, Z., Abou El-magd, M., Li, Y., Ouyang, Z., and Hoda, A.
Laboratory scale bioremediation of the Yamuna water with effective microbes (EM) technology and nanotechnology.
Journal of Bioremediation and Biodegradation, 3(8), 160.
Shrivastava, J.N., Raghav, N., and Singh A.J.N.
Microbial assisted phytoextraction of metals and growth of soybean (Glycine max L. merrill) on industrial waste water contaminated soil.
Pak J Bot, 44, 1593-1599.
Ali, I., Hadi, F., and Bano, A.
Performance of HUASB reactor for treating paper & pulp wastewater using Effective Microorganism (EM).
International Journal of Engineering Science & Technology, 4. 2453-2461.
Balasubramanian, N., and Muthukumar, M.
Responses of soil fauna structure and leaf litter decomposition to effective microorganism treatments in Da Hinggan Mountains, China.
Chinese Geographical Science, 22, 647-658.
Gao, M., Li, J., and Zhang, X
Solid waste management by use of effective microorganisms technology.
Asian J Exp Sci, 26, 11-18.
Katre, S., Gupta, A.K., and Pandey, H.
The effect of sulphuric acid and effective micro-organisms on the seed germination of Harpagophytum procumbens (devil's claw).
South African Journal of Botany, 83, 193-199.
Mowa, E., and Maass, E.
Use of EM enriched composts on rice (Oryza sativa) productivity.
Mysore Journal of Agricultural Sciences , 46, 790-793.
Devi, S., and Manimaran, S.
