Conference Presentation
& Treatise

2017

The effect of EM application on suppression of radioactive Cs transfer and taste in paddy rice cultivation (in Japanese)

The 6th Environmental Radioactive Decontamination Research presentation session, Fukushima, Japan. 19-21 Jul 2017

Okumoto, S., Shintani, M., Higa, T

EM for Agriculture. All-Russia Field Day

Agroindustrial Exhibition/Forum., Kazan, Russia. 5-7 Jul 2017

Suehiro, I.

Biological oscillation in cellular slime mold Dictyostelium discoideum.

25th Wilhelm Bernhard Workshop on the Cell Nucleus. Nizhny Novgorod,, Russia. . 19-22 Jun 2017

Kuwayama, H., Higashinakagawa, T.

2016

Innovative methods for solving environmental problems.

The 10th International Environmental Conference “Nature without border, Vladivostok, Russia.. 20-21 Oct 2016

Suehiro, I.

Tanah Sutera Development, an eco-city development project in Malaysia: two years on.

The 3rd International Conference of Universal Village, Nagoya, Japan.. 6-8 Oct 2016

Ching, H.H., Ying, L.K., Then, T.H., Chin, H.S., Fukugauchi, Y., Higa, T., Shum, S.

Microbial contribution as countermeasures against radioactive contamination.

The 3rd International Conference of Universal Village, Nagoya, Japan. 6-8 Oct 2016

Okumoto, S., Shintani, M., Higa, T

Establishment of human and environmentally friendly hospital with consideration for human and environmental microbiome.

The 3rd International Conference of Universal Village (UV2016), , Nagoya, Japan.. 6-8 Oct 2016

Saito, I., Shintani, M., Murakami, N., Aoki, Y., Higa, T.

Use of EM Technology for controlling foul odors and sanitation concerns caused by massive flood in Thailand in 2011.

The 3rd International Conference of Universal Village (UV2016), , Nagoya, Japan. . 6-8 Oct 2016

Voranuj, J., Koshoji, T., Pirmthongin, S.

Application of Effective Microorganisms (EM) contributes to produce safe agricultural products in radiation-contaminated farmland.

The 2do International Conference Environmental and Food Safety for Human Welfare,, Denpasar, Bali, Indonesia. 24-25 Jul 2016

Shintani, M., Okumoto, S., Nikitin, A., Cheshyk, I., Higa, T

Suppression of radioactive Cs transfer to crops using EM as soil conditioner and comparison with potassium fertilizer (in Japanese)

The 5th Environmental Radioactive Decontamination Research presentation session, Fukushima, Japan. 6-8 Jul 2016

Okumoto, S., Shintani, M., Higa, T

EM Technology in Europe

EM Technology in Europe. International Scientific Conference "Chernobyl: 30 years later”, Radiobiology of NAS of Belarus, Gomel, Republic of Belarus. 21-22 Apr 2016

Matsumoto, J., Rothenbühler, U., Murányi, A.

Possibility of Effective MicroorganismsTM (EM) technology for reducing radioactive cesium contamination in soil.

International Scientific Conference "Chernobyl: 30 years later", Institute of Radiobiology of NAS of Belarus, Gomel, Republic of Belarus.. 1 Jan-22 Apr 2016

Okumoto, S., Shintani, M., Higa, T.

2015

The impact of EM technology in wastewater management

VSUES, Vladivostok, Russia. 29-30 Oct 2015

Suehiro, I.

Influence on the suppression of transfer of radioactive cesium from soil to grass using cow manure compost and its effluent fermented by Effective Microorganisms

RADIOBIOLOGY: «MAYAK», CHERNOBYL, FUKUSHIMA, NATIONAL ACADEMY OF SCIENCES OF BELARUS INSTITUTE OF RADIOBIOLOGY. 24-25 Aug 2015

Okumoto, S., Shintani, M., Higa, T.

The effect of EM on the suppression of radioactive Cs transfer from soil to crops

The 4th Environmental Radioactive Decontamination Research presentation session, Tokyo, Japan. 8-9 Jul 2015

Okumoto, S., Shintani, M., Higa, T.

2014

Influenza virus inactivation by effective micro-organisms fermented liquid (EM・1)

The 62nd Annual Meeting of the Japanese Society for Virology, Yokohama, Japan. 10-12 Nov 2014

Sairenji, T., Fujii, H., Kunihiro, M., Tanaka, R., Tanaka, Y., Shintani, M., Okumoto, S., Higa, T.

The bioremediation in actual contaminated site with Effective Microorganisms EM・1® and organic matter in Okinawa Prefecture, Japan.

8th International Environmental Forum "Nature without borders", Vladivostok, Russia. 23-24 Oct 2014

Tomii, H., Irei, T., Uehara, K., Gesyo, S., Kyan T., Okumoto, S., Higa, T

Using of microbiological preparation EM-1 and mineral-sorbent trepel for growing lettuce on the soils, contaminated by radionuclides

International Scientific Conference "Radiobiology: man-made radiation", Institute of Radiobiology of NAS of Belarus, Gomel, Republic of Belarus. 25-26 Sep 2014

Shamal, N.V., Klementieva, E.A., Korol, R.A., Gaponenko, S.N., Spirov, R.K., Nikitin, A.N., Prusakova, O.I., Okumoto, S., Shintani, M

Application of Effective MicroorganismsTM (EM) technology contributes to the reconstruction of a recycle based dairy farm in Fukushima (A case study)

International Scientific Conference "Radiobiology: man-made radiation", Institute of Radiobiology of NAS of Belarus, Gomel, Republic of Belarus. 25-26 Sep 2014

Okumoto, S., Shintani, M., Nishibuchi, Y., Higa, T.

Contribution of biotechnology to the recovery from the damage caused by the accident of Fukushima Daiichi Nuclear Power Plant: An example at Takizawa dairy farm in Fukushima

16th Congress of Asian College of Psychosomatic Medicine (ACPM), Jakarta, Indonesia. 22-23 Aug 2014

Shintani, M., Okumoto, S., Nishibuchi, Y., Higa, T

Reconstruction of a cycle based dairy farm in Fukushima

The 3rd Environmental Radioactive Decontamination Research presentation session, Fukushima, Japan. 3-4 Jul 2014

Okumoto, S., Shintani, M., Nishibuchi, Y., Higa, T.

An eco city development project with special consideration for harmonious coexistence of human, nature and microbiome, in Malaysia

2nd International Conference on Universal Village (UV2014), Cambridge, MA, USA. 16-17 Jun 2014

Shintani, M., Ching, H.H., Fukugauchi, Y., Miyagi, M., Higa, T., Shum, S.

2013

Pilot scale bioremediation of oil contaminated soil with Effective MicroorganismsTM EM・1® and organic materials in Okinawa, Japan.

VII International Environmental Forum "NATURE WITHOUT BORDERS", Vladivostok, Russia. 10-11 Oct 2013

Daur, I.

2012

Global application of EM technology for Eco health -Prospects and Future-

15th Congress of Asian College of Psychosomatic medicine, Ulaanbaatar, Mongolia. 1 Jan 2012.

Higa T.

Safe food production in radioactively contaminated Fukushima area by utilizing Effective Microorganisms (EM)

15th Congress of Asian College of Psychosomatic medicine, Ulaanbaatar, Mongolia. 1 Jan 2012.

Shintani, M., Okumoto, S., Makuta, T., Higa, T.

Effect of EM・X GOLD on the thermal tolerance of lactic acid bacteria, Lactobacillus casei

15th Congress of Asian College of Psychosomatic medicine, Ulaanbaatar, Mongolia. 1 Jan 2012.

Tomii, H., Okumoto, S., Higa, T.

Inhibitory effect of a beverage EM・X GOLD on Epstein-Barr virus infection]

15th Congress of Asian College of Psychosomatic medicine, Ulaanbaatar, Mongolia. 1 Jan 2012.

Sairenji, T., Shintani, M., Okumoto, S., Tanaka, Y., Tanaka, R., Asato, K., Higa, T.

EM・X GOLD promotes the expression of heat-shock protein 70 (HSP70) in a mammalian cell line, Vero

15th Congress of Asian College of Psychosomatic medicine, Ulaanbaatar, Mongolia. 1 Jan 2012.

Kunihiro, M., Saito, I., Tomii, H., Sairenji, T., Shintani, M., Higashinakarawa, T., Higa, T.

Utilization of Effective Microorganisms (EM) for people and eco-friendly construction and community development

15th Congress of Asian College of Psychosomatic medicine, Ulaanbaatar, Mongolia. 1 Jan 2012.

Fukugauchi, Y., Miyagi, M., Suehiro, I., Shun, S., Higa, T.

The effect of EM Technology on controlling odors and sanitary problems caused by the worst flood in history in Thailand

15th Congress of Asian College of Psychosomatic medicine, Ulaanbaatar, Mongolia. 1 Jan 2012.

Koshoji, T., Kyan, T., Gen Prayuth,C., Gen Satian,P., Higa, T.

EM・X GOLD stimulates fruiting body formation in cellular slime mold Dictyostelium discodeum through modulation of cAMP synthesis

15th Congress of Asian College of Psychosomatic medicine, Ulaanbaatar, Mongolia. 1 Jan 2012.

Higashinakagawa, T., Kuwayama, H.

微生物土壌改良資材(EM)を活用した土壌改良による放射性物質の農作物への移行抑制

第1回環境放射能除染研究発表会, 福島市. 1 Jan 2012.

新谷正樹、奥本秀一、幕田武広、西渕泰、Natalia Shamal、Aleksander Nikitin、比嘉照夫

EBウイルス感染B細胞株での熱ショックと微生物発酵産物EM・X GOLD によるEBウイルス再活性化動態の変動

第9回EBV研究会, 米子市. 1 Jan 2012.

西連寺剛、齊藤沙、田中勇悦、田中礼子、比嘉照夫

Safe food production in Fukushima by applying technology of effective microorganisms (EM).

International Scientific Conference "Low Doses″, devoted to 25-anniversary of the Institute of Radiobiology of NAS of Belarus, Institute of Radiobiology of NAS of Belarus, Gomel, Republic of Belarus.. 1 Jan 2012.

Shintani,M., Okumoto,S., Nishibuchi,Y., Makuta, T., Higa, T.

2011

EM・X GOLD によるEBウイルス感染の抑制効果

第22回日本生体防御学会, 那覇市. 1 Jan 2011.

西連寺剛、新谷正樹、田中勇悦、足立哲也、田中礼子、奥本秀一、安里勝之、比嘉照夫

有用微生物群(Effective Micro-organisms:EM) の発酵生産物EM・X GOLDによるEBウイルス感染の抑制

第8回EBV研究会, 大阪市. 1 Jan 2011.

西連寺剛、新谷正樹、田中勇悦、足立哲也、田中礼子、奥本秀一、安里勝之、比嘉照夫

A trial to bioremediate radioactively contaminated farm lands in Fukushima by using Effective Microorganisms

International Scientific Conference "Radiation and Chernobyl: Science and Practice″, Institute of Radiobiology of NAS of Belarus, Gomel, Republic of Belarus. 1 Jan 2011.

Shintani, M., Okumoto, S.

2017

Bioaugmentaton in Technosols created in abandoned pyritic tailings can contribute to enhance soil C sequestration and plant colonization.

Science of the Total Environment., 593-594, 357-367. .

Zornoza, R., Gomez-Garrido, M., Martinez-Martinez, S., Gomez-Lopez. M.D., Faz, A. 

http://www.sciencedirect.com/science/article/pii/S0048969717306733

Application of effective microorganisms technology as a lake restoration tool - a case study of Muchawka Reservoir.

Journal of Elementology. , 22(2), 529-543.

Sitarek M., Napiorkowska-Krzebietke A., Mazur R., Czarnecki B., Pyka J.P., Stawecki K., Olech M., Soltysiak S., Kapusta A.

https://www.researchgate.net/profile/Agnieszka_Napiorkowska-Krzebietke/publication/314284564_Application_of_Effective_Microorganisms_Technology_as_a_lake_restoration_tool_-_A_case_study_of_Muchawka_Reservoir/links/58bfb09492851cd83aa13631/Application-of-Effective-Microorganisms-Technology-as-a-lake-restoration-tool-A-case-study-of-Muchawka-Reservoir.pdf

Effects of farmyard manure and activated effective microorganisms on rain-fed upland rice in Mwanza, Tanzania.

Organic Agriculture., 7(2), 83–93. .

Saidia, P.S., Mrema, J.P.

https://link.springer.com/article/10.1007/s13165-016-0154-6

Use of Effective Micro-organisms (EM) technology and self-compacting concrete (SCC) technology improved the response of cementitious systems.

Construction and Building Materials., 152, 642-650. .

Rizwan, S.A., Khan, H., Bier, T.A., Adnan, F.

http://www.sciencedirect.com/science/article/pii/S095006181730990X

Nutrient content of Liquid Organic Fertilizer (LOF) by various bio-activator and soaking time.

NUSANTARA BIOSCIENCE, 9(2), 209-213. .

Raden, I., Fathillah, S.S., FADLI, M., SUYADI.

https://smujo.id/nb/article/view/1758

Effect of temperature on removal of COD and TSS from artificial river water by mudballs made from EM4, rice bran and clay.

International Journal of GEOMATE. , 12(33), 91-95..

Nugroho, F.L., Rusmaya, D., Yustiani, Y.M., Fajar Ibnil Hafiz, F.I., Putri, R.B.T.

http://www.geomatejournal.com/sites/default/files/articles/91-95-2626-Fadjari-May%202017-33-g1.pdf

In-vessel co-composting of yard waste and food waste: an approach for sustainable waste management in Cameron Highlands, Malaysia.

International Journal of Recycling of Organic Waste in Agriculture, 6(2), 149–157..

Malakahmad, A., Idrus, N.B., Abualqumboz, M.S., Yavari, S., Kutty, S.R.M.

https://link.springer.com/article/10.1007/s40093-017-0163-9

The effect of feed supplementation with effective microorganisms (EM) on pro- and anti-inflammatory cytokine concentrations in pigs.

Research in Veterinary Science, 115, 244-249. .

Laskowska, E., Jarosz, L., Grądzki, Z

https://www.ncbi.nlm.nih.gov/pubmed/28549299

Evaluation of milk production performance of lactating Fogera cows fed with urea and effective micro-organisms treated rice straw as basal diet.

International Journal of Scientific and Research Publications. , 7(5), 45-50..

Gulilat, L., Walelign, E

http://www.ijsrp.org/research-paper-0617/ijsrp-p6621.pdf

In vitro evaluation of nutrient content of Asian Palmyra palm’s (Borassus flabellifer L.) husk fermented with EM-4 for beef cattle feed.

International Journal of Current Research in Biosciences and Plant Biology, 4(1), 13-19.

Dahlan, D. N. A, Khotimah, K.

http://www.ijcrbp.com/abstractview.php?ID=224&vol=4-1-2017&SNo=3

2016

Improvement of date palm (Phoenix dactylifera L.) plantlets during acclimatization stage by using EM (Effective Microorganisms) and potassein-N fertilizer.

Middle East Journal of Agriculture., 5(2), 272-278.

Abdel-Galeil, L.M., El-Baky, A.M.A., Metwaly, H.A.A., El-Din, S.I.M.

http://www.curresweb.com/mejar/mejar/2016/272-278.pdf

Impact of bio-fertilizer on growth and yield of two sunflower (Helianthus annuus L.) hybrids at Shambat, Sudan.

Scholars Journal of Agriculture and Veterinary Sciences, 3(4), 332-336.

Basheer, H.G., Idris, A.E., Ahmed, B.E.A.M.

http://distance.sustech.edu/index.php/college/publication/College_of_Agricultural_studies/Impact-of-Bio-Fertilizer-on-Growth-and-Yield-of-Two-Sunflower-Helianthus-annuus-L.-Hybrids-at-Shambat-Sudan/?&pubno=3420

Study of commercial effective microorganisms on composting and dynamics of plant essential metal micronutrients.

ournal of Environmental Biology, 37,937-941.

Daur, I.

http://search.proquest.com/openview/4c90ad5904d3f87939fe1cdb25cc1150/1?pq-origsite=gscholar&cbl=636374

Tomato yield and quality under various combinations of organic compost

Bioscience Journal, 32(5), 1147-1154. .

Franca, F.C.T., Silvia, E.C., Pedrosa, M.W., Carlos, L.A., Maciel, G.M.

http://www.seer.ufu.br/index.php/biosciencejournal/article/view/33057

Phenology, yield and nutrient uptake efficiency of wheat as affected by organic and inorganic nitrogen fertilizer alone and in combination with Effective Microorganism

Middle East Journal of Agriculture, 5(4), 431-438.

Khan, A.Z., Muhammad, H., Muhammad, A., Khalil, S.K., Shah, Z., Amin, R.

https://www.researchgate.net/publication/309203277_Phenology_Yield_and_Nutrient_uptake_Efficiency_of_Wheat_as_affected_by_Organic_and_Inorganic_Nitrogen_Fertilizer_alone_and_in-combination_with_Effective_Microorganism

Effect of mineral, biofertilizer (EM) and zeolite on growth, flowering, yield and composition of volatile oil of Viola odorata L. plants.

Journal of Horticultural Science & Ornamental plants, 8(3), 140-148.

Mohamed, Y.F.Y., Ghatas, Y.A.A.

https://www.researchgate.net/publication/306395644_Effect_of_Mineral_Biofertilizer_EM_and_Zeolite_on_Growth_Flowering_Yield_and_Composition_of_Volatile_Oil_of_Viola_odorata_L_Plants

Effect of bio-fertilizer on growth and yield of two maize (Zea mays L.) cultivars at Shambat, Sudan.

Scholars Journal of Agriculture and Veterinary Sciences., 3(4), 313-317.

Obid, M.A., Idris, A.E., Ahmed, B.E.A.M.

http://saspjournals.com/wp-content/uploads/2016/07/SJAVS-34313-317.pdf

A sustainable approach to the municipal solid waste management in Neyyatinkara Municipality, Kerala, India.

Applied Ecology and Environmental Sciences, 4(4), 89-95.

Prakasam, V.R., Das, S.Y.

http://pubs.sciepub.com/aees/4/4/2/

Treatment of textile mill dye sludge by vermicomposting using Perionyx excavatus species.

International Journal of Bioassays, 5(11), 4999-5003.

Vasanth Pandiyan, C., Ravichandran, S., Elanchezhiyan, C., Balaji, K.

http://ijbio.com/index.php/ijb/article/view/1128/pdf

Agricultural wastes based-organic fertilizer (Bokashi) improve the growth and yield of soybean (Glycine max (L.) Merrill).

International Journal of Agricultural Science, 1, 27-32.

Wijayanto, T., Zulfikar, Tufaila, M., Sarman, A.M., Zamrun, M.F.

http://www.iaras.org/iaras/journals/ijas

Utilization of Effective Microorganisms based water hyacinth compost as biosorbent for the removal of basic dyes

Desalination and Water Treatment. DOI:10.1080/19443994.2016.1143405.

Bhagavathi Pushapa, T., Vijayaraghavan, J., Vijayaraghavan, K., Jegan, J.

http://www.tandfonline.com/doi/abs/10.1080/19443994.2016.1143405

Organic alfalfa production using different EM.1 composts

Turkish Journal of Field Crops., 21(1), 139-147.

Daur, I.

http://www.field-crops.org/assets/pdf/product5733311facbf4.pdf

Influence of organic fertilizers on physiological quality and rooting snapdragons (Antirrhinum majus)

International Journal of Agriculture and Biology, 18, 515-520.

Demirkaya, M., Stumpf, W., Jezik, K.

https://www.researchgate.net/publication/286478304_Influence_of_Organic_Fertilizers_on_Physiological_Quality_and_Rooting_of_Snapdragons_Antirrhinum_majus

Effective microorganisms impact on photosynthetic activity of Arabidopsis plant grown under salinity stress conditions

Annals of Warsaw University of Life Sciences-SGGW, Land Reclamation. , 48(2), 153-163.

Kalaji, H.M., Cetner, M.D., Samborska, I.A., Lukasik, I., Oukarroum, A., Rusinowski, S., Pietkiewicz, S., Swiatek, M., Dabrowski, P.

https://www.degruyter.com/view/j/sggw.2016.48.issue-2/sggw-2016-0012/sggw-2016-0012.xml

Field evaluation of cattle manure along with effective microorganisms on growth and yield of capsicum (Capsicum annum L.)

International Journal of Advanced Research and review (IJARR). , 1(4), 10-18.

Karunarathna, B., Seran, T.H.

http://ijarr.in/Admin/pdf/48.pdf

Microbial inoculant influences the germination and growth of Albizia lebbeck seedlings in the nursery

Banko Janakari., 26(1), 82-89.

Khan, B.M., Kabir, M.A., Hossain, M.K., Mridha, M.A.U.

http://www.nepjol.info/index.php/BANKO/article/view/15507

Solid waste management using Effective Microorganism (EM) technology

International Journal of Current Microbiology and Applied Sciences., 5(7), 804-815..

Mathews, S., Gowrilekshmi, R.

http://www.ijcmas.com/5-7-2016/Smitha%20Mathews%20and%20R.%20Gowrilekshmi.pdf

Recent approaches for controlling downy mildew of cucumber under greenhouse conditions

Plant Protection Science., 52(1), 1-9.

Mohamed, A., Hamza, A., Derbalah, A.

https://www.researchgate.net/publication/288808222_Recent_Approaches_for_Controlling_Downy_Mildew_of_Cucumber_under_Greenhouse_Conditions

Microbial inoculant for seed germination and seedling growth of Acacia mangium Willd

Journal of Applied Environmental and Biological Sciences., 6(5), 116-124.

Mridha, M.A.U, Khan, B.M., Hossain, M.K.

https://www.textroad.com/pdf/JAEBS/J.%20Appl.%20Environ.%20Biol.%20Sci.,%206(5)116-124,%202016.pdf

Application of Effective Microorganisms (EM) in food waste composting: A review

Asia Pacific Environmental and Occupational Health Journal. , 2(2), 37-47.

Muttalib, S.A.A., Ismail, S.N.S., Praveena, S.M.

http://www.academia.edu/25625176/Application_of_Effective_Microorganism_EM_in_Food_Waste_Composting_A_review

Investigation on preparation, characterization and application of Effective Microorganisms (EM) based composts –An ecofriendly solution

Nature Environment and Pollution Technology. , 15(1), 153-158..

Pushpa, T.B., Sekaran, V., Basha, S.J.S., Jegan, J.

https://www.researchgate.net/publication/299391763_Investigation_on_preparation_characterization_and_application_of_effective_microorganisms_EM_based_composts-an_ecofriendly_solution

Combined effect of Effective Microorganisms and seaweed concentrate KelpaK® on growth and yield of cabbage

Transylvanian Review. , 24(8), 1511-1519.

Satekge, T.K., Mafeo, T.P., Kena, M.A.

https://www.researchgate.net/publication/305392653_Combined_effect_of_Effective_Microorganisms_and_Seaweed_Concentrate_KelpakR_on_growth_and_yield_of_cabbage

Application of manure, nitrogen fertilizer , and EM4 to improve growth and yield of red chili (Capsicum annuum L) on an Alfisol.

Journal of Degraded and Mining Lands Management., 3(2), 535-542.

Setiawan, J.A., Magfoer, M.D., Nihayati, E.

http://www.jdmlm.ub.ac.id/index.php/jdmlm/article/view/167

Accelerated stabilization of landfill in a high-latitude area by EM and a risk assessment to human health

International Journal of Clinical and Experimental Medicine, 9(2), 5218-5227.

Song, Y. and Liu, H.

http://www.ijcem.com/files/ijcem0015800.pdf

Modifying nitrogen fertilizer practice can reduce greenhouse gas emissions from a Chinese double rice cropping system

Agriculture, Ecosystems and Environment., 215, 100-109.

Wang, B., Li, Y., Wan, Y., Qin, X., Gao, Q., Liu, S., Li, J.

http://www.sciencedirect.com/science/article/pii/S0167880915300748

The influence of effective microorganisms (EM) and yeast on the degradation of strobilurins and carboxamides in leafy vegetables monitored by LC-MS/MS and health risk assessment

Environmental Monitoring and Assessment., 188,64. DOI: 10.1007/s10661-015-5022-4.

Wolejko, E., Lozowicka, B., Kaczynski, P., Jankowska, M. and Piekut, J.

https://www.ncbi.nlm.nih.gov/pubmed/26718945

Effect of poultry manure treated and untreated with effective microorganisms on growth performance and insect pest infestation on Amaranthus hybridus

African Journal of Plant Science, 10(1), 10-15.

Joseph, A., Ademiluyi, B. O., Aluko, P.A., Alabeni, T. M.

http://www.academicjournals.org/journal/AJPS/article-full-text-pdf/FE16D2556299

Producing fertilizer from food waste recycling Berkely and Bokshi method.

Ponte Academic Journal, 72(4),75-83.

Daud, N.M., Khalid, S.A., Nawawi, W.N.W., Ramli, N.

2015

Effect of some growth stimulants on production and quality of strawberry transplants.

Annals of Agricultural Science, Moshtohor, 53(4), 693-708.

Mohamed, M.H.M.

Could bio and organic fertilizers switch over chemical fertilization of faba bean plants.

Egyptian Journal of Applied Science, 30(6), 319-334.

Hassan, A.Z.A., Abdelwahab, M., Mahmoud, M., Darwish, E.

http://www.academia.edu/21257759/COULD_BIO_AND_ORGANIC_FERTILIZERS_SWITCH_OVER_CHEMICAL_FERTILIZATION_OF_FABA_BEAN_PLANTS

Effect of rock phosphate and farmyard manure applied with effective microorganisms on the yield and nutrient uptake of wheat and sunflower crops.

Pakistan Journal of Botany, 47(S1), 219-226.

Sharif, M., Khan, M., Khan, M.A., Wahid, F., Marwat, K.B., Khattak, A.M. and Naseer, M.

http://www.pakbs.org/pjbot/PDFs/47(SI)/28.pdf

Influence of the EMTM series probiotic agents on the results of rearing of Polish Holstein-Friesian calves.

Acta Sci. Pol., Zootechnica, 14(4), 141‒150.

Szewczuk, M., Nowik, P., Olejnik, K., Jędrych, L., Kruszyński, W.

http://asp.zut.edu.pl/?plik=article&id=342

The influence of a microbial inoculum on the enzymatic activity of peat and morphological features of the French marigold.

Nauka Przyroda Technologie, 9(4), 47. DOI:10.17306/J.NPT.2015.4.47.

Wolna-Maruwka, A., Mocek-Plociniak, A., Schroeter-Zakrzewska, A. Niewiadomska, A., Piechota, T., Swedrzynska, D., Kosicka, D., Pilarska, A. A.

http://www.npt.up-poznan.net/pub/art_9_47.pdf

The silent heroes: Effective Microorganisms.

Ormancilik Dergisi, 10(2), 24-28.

Allahverdiev, S.R., Minkova, N.O., Yarigin, D.V., Gunduz, G.

https://www.researchgate.net/publication/276061087_The_Silent_Heroes_Effective_Microorganisms

Exploitation of EM・1 treated blend of organic resources and humic acid for organic (Trifolium alexandrinum L.) production.

Turkish Journal of Field Crops, 20(2), 125-130.

Daur, I., Abusuwar, A.O., Alghabari, F.

https://www.researchgate.net/publication/280878370_Exploitation_of_EM1-treated_blend_of_organic_resources_and_humic_acid_for_organic_berseem_Trifolium_alexandrinum_L_production

Improving fruit quality and storability of strawberry fruits by using pre and postharvest treatments.

Journal of American Science, 11(1), 44-60.

Hassan, A.H., Emam, M.S.

http://www.jofamericanscience.org/journals/am-sci/am1101s15/007_28659am1101s15_44_50.pdf

Effect of nitrogen fertilizer levels in the form of organic, inorganic and bio fertilizer applications on growth, yield and quality of strawberry

Middle East Journal of Applied Sciences, 5(2), 604-617.

Hassan, H.A

http://www.curresweb.com/mejas/mejas/2015/604-617.pdf

Effect of soil amendments on growth, seed yield and NPK content of bottle gourd (Lagenaria siceraria) grown in Clayer soil.

International Journal of Soil Science, 10(4), 186-194.

Ibrahim, E.A., EL-Kader, A.E.

https://www.researchgate.net/publication/283322624_Effect_of_Soil_Amendments_on_Growth_Seed_Yield_and_NPK_Content_of_Bottle_Gourd_Lagenaria_siceraria_Grown_in_Clayey_Soil

Monitoring and remediation technologies of organochlorine pesticides in drainage water.

Polish Journal of Chemical Technology, 17(1), 115-122.

Ismail, A., Derbalah, A., Shaheen, S.

https://www.degruyter.com/downloadpdf/j/pjct.2015.17.issue-1/pjct-2015-0017/pjct-2015-0017.xml

Physicochemical profile of microbial-assisted composting on empty fruit bunches of oil palm trees.

Environmental Science and Pollution Research, doi:10.1007/s11356-015-5156-5.

Lim, L. Y., Bong, C. P. C., Chua, L. S., & Lee, C. T.

https://www.researchgate.net/publication/281173063_Physicochemical_profile_of_microbial-assisted_composting_on_empty_fruit_bunches_of_oil_palm_trees

Effects of microbial additive on the physiochemical and biological properties of oil palm empty fruit bunches compost.

Journal of Engineering Science and Technology, Special issue 5, 10-18.

Lim, L.Y., Chua, L.S., Lee, C. T.

http://jestec.taylors.edu.my/Special%20Issue%205_SOMCHE_2014/SOMCHE%202014_5_2015_010_018.pdf

Improvement of cocoyam productivity with Effective Microorganisms (EM) and indigenous microorganisms (IMO) manures.

American Journal of Biochemistry, 5(2), 42-47.

Mbouobda, H.D., Fotso, Tita, M.A., Muyang R.F., Omokolo, N.D.

http://article.sapub.org/10.5923.j.ajb.20150502.04.html

Potential of Effective moicro-organisms and Eisenia fetida in enhancing vermi-degradation and nutrient release of fly ash incorporated into cow dung-paper waste mixture.

Waste Management, doi:10.1016/j.wasman.2015.10.001.

Mupambwa, H. A., Ravindran, B., Mnkeni, P.N.S.

https://www.ncbi.nlm.nih.gov/pubmed/26459189

Improvement of immune function by EM・X GOLD, a health drink containing extract from culture of  Effective Microorganisms (ECEM).

診療と新薬, . 52(10), 78-84(1032-1038).

Najima, M., Shintani, M., Shimabukuro, S., Munakata, M.

https://www.shinryo-to-shinyaku.com/sin_0052_10.html

The influence of Effective Microorganisms on the growth and nitrate content of vegetable transplants.

Journal of Advanced Agricultural Technologies, 2(1), 25-28.

Olle, M., Williams, I.

https://www.researchgate.net/publication/283182002_The_Influence_of_Effective_Microorganisms_on_the_Growth_and_Nitrate_Content_of_Vegetable_Transplants

Comparison between the efficiency of two nano-paticles and Effective Microorganisms on some biological and biochemical aspects of Spodoptera littorals.

International Journal of Agriculture Innovations and Research, 3(6), 1620-1626.

Osman, H.H., Abdel-Hafez, H.F., Khidr, A.A.

http://ijair.org/administrator/components/com_jresearch/files/publications/IJAIR_1385_Final.pdf

An improved effective microorganisms (EM) soil ball-making method for water quality restoration.

Environmental Science and Pollution Research, doi:10.1007/s11356-015-5617-x.

Park, G-S., Khan A. R., Kwak, Y., Hong, S-J., Jung, B., Ullah, I., Kim, J-G., Shin, J-H.

https://www.researchgate.net/publication/283262801_An_improved_effective_microorganism_EM_soil_ball-making_method_for_water_quality_restoration

Comparative study of treatment of Sago wastewater using HUASB reactor in the presence and absence of Effective Microorganisms.

Procedia Earth and Planetary Science, 11, 483-490.

Priya, M., Meenambal, T., Balasubramanian, N., Perumal, B.

https://www.researchgate.net/publication/279804915_Comparative_Study_of_Treatment_of_Sago_Wastewater_using_HUASB_Reactor_in_the_Presence_and_Absence_of_Effective_Microorganisms

Investigation on removal of malachite green using EM based compost as adsorbent.

Ecotoxicology and Environmental Safety, 118, 177-182.

Pushpa, T.B., Vijayaraghavan, J., Basha, S.J.S., Sekaran, V., Vijayaraghavan, K., Jegan, J.

http://www.sciencedirect.com/science/article/pii/S0147651315001906

Effect of EM ball on DO, BOD and COD of wastewater treatment plant in Bangkokthonburi University, Thiland.

Journal of Chemical, Environmetal & Biological Sciences (IJCEBS), 3(4), 307-311.

Seng, H., Dokkraoom, S., Pijarn, N.

http://www.isaet.org/images/extraimages/P615284.pdf

Anti-Inflammatory and immunostimulatory effects of extract from culture of Effective Microorganisms (ECEM) revealed by functional genomics and metabolome analyses.

Food and Nutrition Sciences, 6, 1115-1125.

Shintani, M., Mitsunaga, F., Shimabukuro, S., Nakamura, S.

http://file.scirp.org/pdf/FNS_2015091709284383.pdf

Effective microorganisms improve growth performance and modulate the ROS-scavenging system in common bean (Phaseolus vulgaris L.) plants exposed to salinity stress.

Journal of Plant Growth Regulation, 34(1), 35-46.

Talaat, N.B.

http://link.springer.com/article/10.1007/s00344-014-9440-2

Effective microorganisms modify protein and polyamine pools in common bean (Phaseolus vulgaris L.) plants grown under saline conditions.

Scientia Horticulturae, 190, 1-10.

Talaat, N.B.

https://www.researchgate.net/publication/276155259_Effective_microorganisms_modify_protein_and_polyamine_pools_in_common_bean_Phaseolus_vulgaris_L_plants_grown_under_saline_conditions

Improvement of antioxidant and defense properties of tomato (var. Pusa Rohini) by application of bioaugmented compost.

Saudi Journal of Biological Science, 22, 256-264.

Verma, S., Sharma, A., Kumar, R., Kaur, C., Arora, A., Shah, R., Nain, L.

https://www.researchgate.net/publication/268749883_Improvement_of_antioxidant_and_defense_properties_of_Tomato_var_Pusa_Rohini_by_application_of_bioaugmented_compost

Response of Kadotta fig trees to using some organic manures enriched with EM1 as a partial substitution of mineral N fertilizers.

World Rural Observations, 7(2), 22-29.

Waseel, A.H.M., Abdelaal, A.M.K., Gowda, A.M., Aziz, M.H.A.

http://www.sciencepub.net/rural/rural070215/004_28350rural070215_22_29.pdf

Effective microorganisms improve growth performance, alter nutrients acquisition and induce compatible solutes accumulation in common bean (Phaseolus vulgaris L.) plant subjected to salinity stress.

Plant Growth Regulation, 75(1), 281-295.

Talaat, N.B., Ghoniem, A.E., Abdelhamid, M.T. and Shawky, B.T. (2015).

http://link.springer.com/article/10.1007/s10725-014-9952-6

2014

Improving growth and productivity of “Sukkary” mango trees grown in North Sinai using extracts of some brown marine algae, yeasts and effective microorganisms 2-Productivity and fruit quality.

Middle East Journal of Applied Sciences., 4(3), 460-470.

Abed El Hamied, S.A.

http://www.curresweb.com/mejas/mejas/2014/460-470.pdf

Improving Acacia auriculiformis seedlings using microbial inoculant (Beneficial Microorganisms).

Journal of Forestry Research, 1-6.

Khan, B., Hossain, M.K., and Mridha, M.A.U.

http://link.springer.com/article/10.1007/s11676-013-0421-2

Preliminary study on reaction kinetics of ammonia nitrogen in aqueous samples removed by microbial nano-silica ball.

Advanced Materials Research, 1010-1012, 528-531.

Yin, C., Lu, J., Shao, X., Mao, X., Wang, L., Min, Y. and Shu, M

https://www.researchgate.net/publication/271958330_Preliminary_Study_on_Purification_of_Aquaculture_Wastewater_by_Microbial_Nano-Silica_Ball

土壌の違いによる農産物の抗酸化力の比較~有用微生物群(EM)活用との差異に着目して~[第2報].

中井ちさ子、丹羽光明、山崎成一郎、堀井博, 15(1), 13-18.

中井ちさ子、丹羽光明、山崎成一郎、堀井博.

http://ci.nii.ac.jp/naid/110009889138

Greywater treatment via hybrid integrated systems for unrestricted reuse in Egypt.

Journal of Water Process Engineering, 1, 101-107.

Abdel-Shafy, H.I., Al-Sulaiman, A.M. and Mansour, M.S.M.

http://www.sciencedirect.com/science/article/pii/S2214714414000154

Improving growth and productivity of “Sukkary” mango trees grown in North Sinai using extracts of some brown marine algae, yeasts and effective microorganisms 1-Mineral content of leaves and fruit growth aspects.

Middle East Journal of Agriculture Research, 3(2), 318-329.

Abed El Hamied, S.A.

http://www.curresweb.com/mejar/mejar/2014/318-329.pdf

Effect of multi-ingredient of Bokashi on productivity of mandarin trees and soil properties under saline water irrigation.

7(11), 79-87.

Abed El-Hamied, S.A.

http://www.iosrjournals.org/iosr-javs/papers/vol7-issue11/Version-2/O071127987.pdf

Optimization of concentration and EM4 augmentation for improving Bio-gas productivity from Jatropha curcas Linn capsule husk.

3(1), 73-78.

Adinurani, P.G., Setyobudi, R.H., Wahono, S.K., Sasmito, A., Nelwan, L.O., Nindita, A. and Liwang, T.

http://ejournal.undip.ac.id/index.php/ijred/article/view/6149

Reducing inorganic N partially in Zaghloul date palm orchards by using humic Acid and Effective Microorganisms. World Rural Observations.

6(2), 102-110.

Ahmed, F.F., Ibrahim, H.IM. and Kamel, M.Kh.

http://www.sciencepub.net/rural/rural0602/016_24936rural060214_102_110.pdf

Microbes to clean indoor pollutants.

12(3), 429-434.

Boga, C., Del Vecchio, E., Forlani, L. and Franceschetti, M.

http://link.springer.com/article/10.1007/s10311-014-0465-3

Monitoring and remediation of organochlorine residues in water.

86(7), 584-593.

Derbalah, A., Ismail, A., Hamza, A. and Shaheen, S.

http://www.ingentaconnect.com/content/wef/wer/2014/00000086/00000007/art00002?crawler=true

Quality evaluation of egg composition and productivity of layers in EM (Effective Microorganisms) treatments: A field report.

1(3-4), 161-166.

Gnanadesigan, M., Isabella, S., Saritha, P., Ramkumar, L., Manivannan, N. and Ravishankar, R.

http://www.sciencedirect.com/science/article/pii/S2314808X14000281

The studies on applying of Effective Microorganisms (EM) and CRF on nutrient contents in leaves and yielding of tomato.

Acta Scientiarum Polonorum, Hortorum Cultus, 13(1) 79-90.

https://www.researchgate.net/publication/287645923_The_studies_on_applying_of_Effective_Microorganisms_EM_and_CRF_on_nutrient_contents_in_leaves_and_yielding_of_tomato

Symbiotic bioremediation of aquaculture wastewater in reducing ammonia and phosphorus utilizing Effective Microorganism (EM-1) and microalgae (Chlorella sp.).

95, 127−134.

Lananan, F., Hamid, S.H.A., Din, W.N.S., Ai, N., Khatoon, H., Jusoh, A. and Endut A.

https://www.researchgate.net/profile/Siti_Hajar_Abdul_Hamid/publication/264006133_Symbiotic_bioremediation_of_aquaculture_wastewater_in_reducing_ammonia_and_phosphorus_utilizing_Effective_Microorganism_EM-1_and_microalgae_Chlorella_sp/links/54630ecc0cf2837efdb00e73.pdf

First report of peanut crown rot disease caused by Aspergillus niger in Iraq and its bio-control.

2(2), 171-177.

Matloob, A.A.H. and Juber, K.S.

http://www.jebas.org/wp-content/uploads/2014/09/Matloob-and-Juber-JEBAS.pdf

Comparative evaluation of enzyme activities and phenol content of Irish potato (Solanum tuberosum) grown under EM and IMO manures Bokashi.

8(1), 157-166.

Mbouobda, H.D., Fotso, Djeuani, C.A., Baliga, M.O. and Omokolo, D.N.

http://www.ajol.info/index.php/ijbcs/article/viewFile/104047/94163

Evaluation of phytotoxicity of effective microorganism (EM) treated distillery industry effluent.

11(2), 587-592.

Namasivayam, S.K.R., Shunmugaraj, M. Bharani, R.S.A, and Francis, A.L.

http://biotech-asia.org/pdf/vol11no2/BBRAV011I02P587-592.pdf

Effects of water hyacinth (Eichhornia crassipes [mart.] solms) compost on growth and yield parameters of maize (Zea mays).

4(4), 617-633.

Osoro, N., Muoma, J.O., Amoding, A., Mukaminega, D., Muthini, M., Ombori, O. and Maingi, J.O.

http://spas.ku.ac.ke/images/stories/docs/research/water_hyacith.pdf

The effect of effective microorganisms (EM) on EBPR in modified contact stabilization system.

Rashed, E.M. and Massoud, M.

http://www.sciencedirect.com/science/article/pii/S1687404814000558

Effect of effective microorganisms (EM) and potassium sulphate on productivity and fruit quality of "Hayany" date palm grown under salinity stress.

7(6), 90-99.

Salama, A.S.M., El-Sayed, O.M. and El Gammal, O.H.M.

http://iosrjournals.org/iosr-javs/papers/vol7-issue6/Version-1/P07619099.pdf

Viability and morphological changes of Acanthamoeba spp. cysts after treatment with Effective microorganisms (EM).

1007/s12639-014-0511-x.

Sampaotong, T., Lek-Uthai, U., Roongruangchai, J. and Roongruangchai, K.

http://link.springer.com/article/10.1007/s12639-014-0511-x

Statistical optimization of physical conditions for phenol degradation using effective microorganism-I.

21, 14-20.

Sivasubramanian, S. and Namasivayam, S.K.R.

http://nopr.niscair.res.in/bitstream/123456789/26245/1/IJCT%2021(1)%2014-20.pdf

Effective microorganisms enhance the scavenging capacity of the ascorbate−glutathione cycle in common bean (Phaseolus vulgaris L.) plants grown in salty soils.

80, 136-143.

Talaat, N.

https://www.ncbi.nlm.nih.gov/pubmed/24755360

2013

A calorimetric analysis of soil treated with effective microorganisms.

Thermochimica Acta, 569, 139-143.

Sigstad, E.E., Schabes, F.I., and Tejerina, F.

http://www.sciencedirect.com/science/article/pii/S0040603113003675

Agriculture wastes conversion for biofertilizer production using beneficial microorganisms for sustainable agriculture applications.

Malaysian Journal of Microbiology, 9(1), 60-67.

Hanapi, S.Z., Awad, H.M., Ali, S.I.S., Sarip, S.H.M., Roji, M., and Sarmidi, R.A.

https://www.researchgate.net/publication/286493897_Agriculture_wastes_conversion_for_biofertilizer_production_using_beneficial_microorganisms_for_sustainable_agriculture_applications

Composting of rice straw with effective microorganisms (EM) and its influence on compost quality.

Iranian Journal of Environmental Health Science & Engineering, 10, 17-17.

Jusoh, M.L.C., Manaf, L.A., and Latiff, P.A.

https://jehse.biomedcentral.com/articles/10.1186/1735-2746-10-17

Effective microorganisms and compost favor nematodes in wheat crops.

Agron Sustain Dev, 33, 573-579.

Hu, C., and Qi, Y.

http://link.springer.com/article/10.1007/s13593-012-0130-9

Effect of combined application of cattle manure and EM on the yield and yield components of groundnut (Arachis hypogaea L.).

Bangladesh Journal of Agricultural Research, 38, 1-9.

Seran, T.H., and Suthamathy, N.

http://www.banglajol.info/index.php/BJAR/article/viewFile/15184/10768

Effect of effective microorganisms activate (EMa) on growth, yield and yield components of corn in Firozabad region.

Annals of Biological Research, 4, 126-129.

Dehghani, I., Kordlaghari, K.P., and Mohamadinia, G.

Effective microorganisms and their influence on vegetable production-a review.

Journal of Horticultural Science & Biotechnology, 88, 380-386.

Olle, M., and Williams, I.

http://agris.fao.org/agris-search/search.do?recordID=US201500055775

Effects of effective microorganisms (EM) and bio-organic fertilizers on growth parameters and yield quality of flue-cured tobacco (Nicotiana tabacum).

Journal of Food, Agriculture & Environment, 11, 1212-1215.

Chantal, K., Shao, X., Jing, B., Yuan, Y., Hou, M., and Liao, L.

https://www.researchgate.net/publication/287379558_Effects_of_effective_microorganisms_EM_and_bio-organic_fertilizers_on_growth_parameters_and_yield_quality_of_flue-cured_tobacco_Nicotiana_tabacum

Evaluation of Effective Microorganisms technology in industrial wood waste management.

Int J Adv Engg Tech/IV/III/July-Sept, 21, 22.

Sreenivasan, E.

http://www.technicaljournalsonline.com/ijeat/VOL%20IV/IJAET%20VOL%20IV%20ISSUE%20III%20JULY%20SEPTEMBER%202013/Vol%20IV%20Issue%20III%20Article%207.pdf

Impact of effective and indigenous microorganisms manures on Colocassia esculenta and enzymes activities.

African Journal of Agricultural Research, 8(12), 1086-1092.

Mbouobda H, D., Fotso., Carole Astride Djeuani, C.A., Fai, K., and Omokolo, N.D.

http://www.academicjournals.org/journal/AJAR/article-full-text-pdf/512822E34175

Influence of effective microorganisms and green manure on soil properties and productivity of pearl millet and alfalfa grown on sandy loam in Saudi Arabia.

African Journal of Microbiology Research, 7(5), 375-382.

Ismail, S.M.

http://www.academicjournals.org/journal/AJMR/article-abstract/759AEA418142

Inoculation with microorganisms of Lolium perenne L.: evaluation of plant growth parameters and endophytic colonization of roots.

New biotechnology, 30, 695-704.

Gaggìa, F., Baffoni, L., Di Gioia, D., Accorsi, M., Bosi, S., Marotti, I., Biavati, B., and Dinelli, G.

http://omicron.ch.tuiasi.ro/EEMJ/pdfs/vol11/no3_supl/S_8_1_pdf/262_051_11229.pdf

Investigation of effective Microorganisms (EM) impact in water stress condition on growth of almond (prunus dulcis Mill) seedling.

J. Basic. Appl. Sci. Res., 3(2), 86-92.

Shokouhian, A., Davarynejad, G., Tehranifar, A., Imani, A., and Rasoulzadeh, A.

https://www.textroad.com/pdf/JBASR/J.%20Basic.%20Appl.%20Sci.%20Res.,%203(2s)86-92,%202013.pdf

Long-term effective microorganisms application promote growth and increase yields and nutrition of wheat in China.

European Journal of Agronomy, 46, 63-67.

Hu, C., and Qi, Y.

http://www.sciencedirect.com/science/article/pii/S1161030112001566

Management of potato virus Y (PVY) in potato by some biocontrol agents under field conditions.

Advances in Environmental Biology, 7(3), 441-444.

Al-Ani, R.A., Athab, M.A., and Matny, O.N.

https://www.researchgate.net/publication/259384999_Management_of_Potato_Virus_Y_PVY_in_Potato_by_Some_Biocontrol_Agents_under_Field_Conditions

Marketable pod yield of vegetable cowpea (Vigna unguiculata) as influenced by organic manures fermented with EM solution.

The Open Horticulture Journal 6, 19-23.

Seran, T., and Shahardeen, R.

https://benthamopen.com/ABSTRACT/TOHORTJ-6-19

Monitoring of organochlorine pesticide residues and bioremediation of the frequently detected compound (Lindane) in soil.

Egy. J. Plant Pro. Res., 1(1) 133-150.

Derbalah, A.S., Ismail, A., and Hamza, A.

https://www.researchgate.net/publication/249009507_MONITORING_OF_ORGANOCHLORINE_PESTICIDE_RESIDUES_AND_BIOREMEDIATION_OF_THE_FREQUENTLY_DETECTED_COMPOUND_LINDANE_IN_SOIL

Net mineralization nitrogen and soil chemical changes with application of organic wastes with'Fermented Bokashi Compost'

Acta Scientiarum Agronomy, 35, 257-264.

Boechat, C.L., Santos, J.A.G., and Accioly, A.M.d.A.

http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1807-86212013000200015

Potential of Effective Microorganisms (EM) for conventional activated sludge upgrade.

International Water Technology Journal, IWTJ, 3(2), 78-87.

El Karamany, H., El Shatoury, S., Ahmed, D., and Saleh, I.

http://iwtj.info/wp-content/uploads/2013/11/V3-N2-P31.pdf

Purification of nitrogen and phosphorus in Llghtly polluted landscape river by Effective Microorganisms combined with submerged plants.

Applied Mechanics and Materials, 316-317, 430-434.

Chen, D.Q., He, H., and Chen, Y.Q.

http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.1007.1356&rep=rep1&type=pdf

Potential of mud ball from biolarvacide from fermented Malaysia’s Ulam Herbs.

Australian Journal of Basic and Applied Sciences, 7(5), 236-241.

Zarina, Z., Yaacob, N.D., Mustafa Al Bakri, A.M., and Ruzaidi, C.M.

http://ajbasweb.com/old/ajbas/2013/Special,%20issue2%202013/236-241.pdf

Residual effect of organic manure EM bokashi applied to proceeding crop of vegetable cowpea (vigna unguiculata) on succeeding crop of radish (raphanus sativus) department of crop science.

1(1), 2-5.

Suthamathy, N., and Seran, T.

http://www.isca.in/AGRI_FORESTRY/Archive/v1/i1/1.ISCA-RJAFS-2013-001.pdf

The application of EM-treated dairy effluent on the flue-cured tobacco irrigation.

Journal of Food, Agriculture & Environment 11, 960-964.

Zhou, Y.X., Zhen, S.C., and Zhai, Y.M.

http://world-food.net/the-application-of-em-treated-dairy-effluent-on-the-flue-cured-tobacco-irrigation/

The effect of effective microorganisms on production and quality performance of Rhode Island Red layers.

International Journal of Livestock Production 4, 22-29.

Simeamelak, M., Solomon, D., and Taye, T.

http://www.academicjournals.org/journal/IJLP/article-full-text-pdf/635CA971623

Treatment of rubber processing wastewater by effective microorganisms using anaerobic sequencing batch reactor.

Journal of Agrobiotechnology 4, 1-15.

Rois Anwar, N.Z., Abu Hassan, M.A., Mahmood, I., and Khamis, A.K.

https://www.researchgate.net/publication/235761410_Treatment_of_Rubber_Processing_Wastewater_by_Effective_Microorganisms_Using_Anaerobic_Sequencing_Batch_Reactor

2012

Anaerobic composting of pyrethrum waste with and without effective microorganisms.

African Journal of Environmental Science and Technology 6, 293-299.

Mwegoha, W.

http://www.ajol.info/index.php/ajest/article/viewFile/81892/72036

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.

http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1516-89132012000100018

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.

https://www.researchgate.net/publication/215627720_Bioremediation_of_Pulp_and_Paper_Industry_Secondary_Sludge_Spiked_with_Cow_Dung_and_Effective_Microorganisms_Using_Epigeic_Earthworm_Eudrilus_eugeniae_Kinberg

Degrading drilling fluid filter cake using effective microorganisms.

Jurnal Teknologi 57, 1-22.

Ismail, I., Illias, R., Abd Mubin, A.S., and Machitin, M.

https://pure.utm.my/en/publications/degrading-drilling-fluid-filter-cake-using-effective-microorganis

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.

https://www.omicsonline.org/effect-of-compost-derived-from-decomposed-fruit-wastes-by-effective-microorganism-em-technology-on-plant-growth-parameters-of-vigna-mungo-2155-6199.1000167.php?aid=8865

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.

http://www.interesjournals.org/irjas/april-2012-vol-2-no-4/effects-of-organic-and-microbial-fertilization-on-wheat-growth-and-yield

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.

http://www.scientific.net/AMR.356-360.1145

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.

https://www.ncbi.nlm.nih.gov/pubmed/22217081

Influence 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.

http://www.ccsenet.org/journal/index.php/jas/article/view/18187

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.

https://www.omicsonline.org/laboratory-scale-bioremediation-of-the-yamuna-water-with-effective-microbes-em-technology-and-nanotechnology-2155-6199.1000160.pdf

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.

http://www.pakbs.org/pjbot/PDFs/44(5)/17.pdf

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.

https://www.researchgate.net/publication/264854363_Performance_of_HUASB_reactor_for_treating_paper_Pulp_wastewater_using_Effective_MicroorganismEM

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

http://link.springer.com/article/10.1007/s11769-012-0573-6

Solid waste management by use of effective microorganisms technology.

Asian J Exp Sci, 26, 11-18.

Katre, S., Gupta, A.K., and Pandey, H.

http://www.ijcmas.com/5-7-2016/Smitha%20Mathews%20and%20R.%20Gowrilekshmi.pdf

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.

http://www.sciencedirect.com/science/article/pii/S025462991200066X

Use of EM enriched composts on rice (Oryza sativa) productivity.

Mysore Journal of Agricultural Sciences , 46, 790-793.

Devi, S., and Manimaran, S.

https://www.cabdirect.org/cabdirect/abstract/20133131477

2011

使用後紙おむつの臭気に対する発酵資材の消臭効果の検討.

日本看護研究学会雑誌, 34(1), 131-135.

新野峰子.

http://medicalfinder.jp/doi/abs/10.11477/mf.7006100134?journalCode=7006

Evaluation of Effective Microorganisms (EM) for treatment of domestic sewage.

Namsivayam, S.K.R., Narendrakumar, G. and Kumar, J.A., 2(7), 30-32.

Namsivayam, S.K.R., Narendrakumar, G. and Kumar, J.A.

https://www.researchgate.net/publication/229085089_Evaluation_of_Effective_Microorganism_EM_for_treatment_of_domestic_sewage

‘Effective Micro-organisms’(EM): An Effective Plant Strengthening Agent for Tomatoes in Protected Cultivation.

Biological Agriculture & Horticulture, 27, 189-203.

Ndona, R.K., Friedel, J.K., Spornberger, A., Rinnofner, T., and Jezik, K.

http://www.botanic-culture.se/EM_%20tomatodling.pdf

Production of effective microorganism using halal based sources: A review.

African Journal of Biotechnology, 10, 18649-18652.

Abdullah, M.M.A.B., Ma’Radzi, A.H., Saleh, N.A.M., Kamal, A., and Yaacob, N.D.

https://www.researchgate.net/publication/272688884_Production_of_effective_microorganism_using_halal-based_sources_A_review

Effect of cattle liquid manure fertilization on the yield of grassland and density of soil oribatid mites (Acari, Oribatida).

Biological Letters, 48, 13-18.

Kruczyńska, K., and Seniczak, S.

https://www.degruyter.com/downloadpdf/j/biolet.2011.48.issue-1/v10120-011-0003-y/v10120-011-0003-y.xml

Effect of effective microorganism application on crop growth, yield, and nutrition in Vigna radiata (L.) Wilczek in different soil amendment systems.

Communications in Soil Science and Plant Analysis, 42, 2112-2121.

Javaid, A., and Bajwa, R.

https://www.researchgate.net/publication/236848140_Effect_of_Effective_Microorganism_Application_on_Crop_Growth_Yield_and_Nutrition_in_Vigna_radiata_L_Wilczek_in_Different_Soil_Amendment_Systems

Effect of effective microorganisms on growth parameters and serum cholesterol levels in broilers.

African Journal of Agricultural Research, 6, 3841-3846.

Esatu, W., Melesse, A., and Dessie, T.

https://www.researchgate.net/publication/237072334_Wondmeneh_E_Adey_M_Tadelle_D_2011_Effect_of_Effective_Microorganisms_on_Growth_Parameters_and_Serum_Cholesterol_Levels_in_Broilers_African_Journal_of_Agricultural_Research_616_ISSN_1991-637X

Effective microorganism substance (EM-S) reduces development and aggravation of atopic dermatitis-like skin lesions in NC/Nga mice.

Journal of the Korean Society for Applied Biological Chemistry, 54, 211-220.

Park, K.H., Jeong, S.I., Mok, J.Y., Cho, J.K., Park, J.M., Jeon, I.H., Kim, H.S., and Jang, S.I.

http://210.101.116.28/W_files/kiss2/06005677_pv.pdf

Effects of biofertilizers combined with different soil amendments on potted rice plants.

Chilean Journal of Agricultural Research, 71, 157-163.

Javaid, A.

http://www.bioline.org.br/pdf?cj11019

Effects of microorganisms, hormone treatment and stratification on seed germination of goldenrain tree (Koelreuteria paniculata).

Int J Agric Biol, 13, 38-42.

Ertekin, M.

https://www.fspublishers.org/published_papers/76056_..pdf

Effects of synergy between earthworms and effective microorganisms on vermicomposting of pig manure.

Animal Husbandry and Feed Science, 3, 39-42.

DiFa, X., GuangShen, L., QuMin, Y., and RongXi, L.

Field evaluation of effective microorganisms (EM) application for growth, nodulation, and nutrition of mung bean.

Turk J Agric For, 35, 443-452.

Javaid, A., and Bajwa, R.

http://journals.tubitak.gov.tr/agriculture/issues/tar-11-35-4/tar-35-4-11-1001-599.pdf

Nursery practice on seed germination and seedling growth of Dalbergia sissoo using beneficial microbial inoculants.

Journal of Forestry Research, 22, 189-192.

Khan, B.M., Hossain, M.K., and Mridha, M.A.U.

http://link.springer.com/article/10.1007/s11676-011-0148-x?no-access=true

Prospects of effective microorganisms technology in wastes treatment in Egypt.

Asian Pacific Journal of Tropical Biomedicine 1, 243-248.

Shalaby, E.A.

http://www.sciencedirect.com/science/article/pii/S222116911160035X

2010

The effect of the application of the biological control agent EM1 on gas exchange parameters and productivity of Pisum sativum L. infected with Fusarium oxysporum Schlecht. Acta

Acta Agrobotanica, 63(2), 105-115.

Okorski, A., Olszewski, J., Glowacka, K., Okorska,S. and Pszczolkowska, A.

https://www.researchgate.net/publication/248900296_The_effect_of_the_application_of_the_biological_control_agent_EM1_on_gas_exchange_parameters_and_productivity_of_Pisum_sativum_L_infected_with_Fusarium_oxysporum_Schlecht

Breaking seed dormancy in oil rose (Rosa damascena Mill.) by microbial inoculation.

African Journal of Biotechnology, 9(39), 6503-6508.

Kazaz, S., Erbas, S., and Baydar, H.

https://www.researchgate.net/publication/267538001_Breaking_seed_dormancy_in_oil_rose_Rosa_damascena_Mill_by_microbial_inoculation

" Effective Microorganisms"(EM) in reducing noxiousness of selected odorant sources.

Environment Protection Engineering , 36, 13-24.

Kulig, A., and Barczak, R.

https://www.researchgate.net/publication/268391207_Effective_microorganisms_EM_in_reducing_noxiousness_of_selected_odorant

Abundance and diversity of soil nematodes as influenced by different types of organic manure.

Helminthologia , 47, 58-66.

Hu, C., and Qi, Y.C.

https://www.degruyter.com/downloadpdf/j/helmin.2010.47.issue-1/s11687-010-0009-8/s11687-010-0009-8.xml

Beneficial Microorganisms for Sustainable Agriculture.

In Genetic Engineering, Biofertilisation, Soil Quality and Organic Farming, E. Lichtfouse, ed. (Springer Netherlands), pp. 347-369.

Javaid, A.

http://microbiology.publish.csiro.au/?paper=MA12113

Biological control of mulberry root rot disease (Fusarium spp) with antagonistic microorganisms.

n.d..

Beevi, N.D., and Qadri, S.

https://www.researchgate.net/publication/286985821_Biological_control_of_mulberry_root_rot_disease_Fusarium_spp_with_antagonistic_microorganisms

Effect of Effective Microorganisms (EM) on nutrient contents in substrate and development and yielding of Rose (Rosa x hybrida) and Gerbera (Gerbera jamesonii).

Ecolog. Chem and Eng S, 17, 505-513.

Górski, R., and Kleiber, T.

http://tchie.uni.opole.pl/freeECE/S_17_4/GorskiKleiber_17(S4).pdf

Effective microoranisms and their influence on growth and yield of pigweed (Amaranthus dubians).

Journal of Agricultural & Biological Science, 5(1), 17-22.

Muthaura, C., Musyimi, D.M., Ogur, J.A., and Okello, S.V.

http://connection.ebscohost.com/c/articles/50228471/effective-microorganisms-their-influence-growth-yield-pigweed-amaranthus-dubians

Effects of effective microorganisms on yield and quality of vegetable cabbage comparatively to nitrogen and phosphorus fertilizers.

Pakistan Journal of Nutrition, 9(11), 1039-1042.

Chantal, K., Xiaohou, S., Weimu, W., and Iro Ong'or, B.T.

http://scialert.net/abstract/?doi=pjn.2010.1039.1042

Growth, nodulation and yield response of soybean to biofertilizers and organic manures.

PJ Bot, 42, 863-871.

Javaid, A., and Mahmood, N.

http://pakbs.org/pjbot/PDFs/42(2)/PJB42(2)0863.pdf

Purification of Cr (VI)-contaminated soil by fermentation of organic matter.

In Advances in Environmental Geotechnics (Springer), 755-759.

Omine, K., Yasufuku, N., and Tamura, K.

http://link.springer.com/chapter/10.1007/978-3-642-04460-1_92

2009

Activities of effective microorganism (EM) on the nutrient dynamics of different organic materials applied to soil.

American-Eurasian Journal of Agronomy, 2, 26-35.

Fatunbi, A., and Ncube, L.

http://www.idosi.org/aeja/2(1)09/6.pdf

Growth, nodulation and yield of black gram [Vigna mungo (L.) Hepper] as influenced by biofertilizers and soil amendments.

African Journal of Biotechnology, 8 (21), 5711-5717.

Javaid, A.

https://www.researchgate.net/publication/228655712_Growth_nodulation_and_yield_of_black_gram_Vigna_mungoL_Hepper_as_influenced_by_biofertilizers_and_soil_amendments

Probiotics in aquaculture of China—current state, problems and prospect.

Aquaculture, 290, 15-21.

Qi, Z., Zhang, X.-H., Boon, N., and Bossier, P.

http://www.sciencedirect.com/science/article/pii/S0044848609001124

Role and functions of beneficial microorganisms in sustainable aquaculture.

Bioresource technology, 100, 3780-3786.

Zhou, Q., Li, K., Jun, X., and Bo, L.

http://8beb64633052584b222e21cdd86c2ccc018e2fee3f9c01a9efa55d69db58ca4f

2008

Effect of EM Bokashi application on control of secondary soil salinization.

Water Science and Engineering, 1(4), 99-106.

Xiaohou, S., Min, T., Ping, J., Weiling, C.

https://www.researchgate.net/publication/266445251_Effect_of_EM_Bokashi_application_on_control_of_secondary_soil_salinization

Application of effective microorganisms on soil and maize.

Journal of Chemical & Natural Resources Engineering, 2, 1-13.

Lee, C.T., Ismail, M., Razali, F., Muhamad, I.I., Sarmidi, M.R., and Khamis, A.

https://www.researchgate.net/publication/279443567_Application_of_effective_microorganisms_on_soil_and_maize

Assessment of effective microorganism activity (EM) in winter wheat protection against fungal diseases.

Ecological chemistry and engineering, 15, 23-27.

Boligłowa, E., and Gleń, K.

http://tchie.uni.opole.pl/ece15/Boliglowa_Glen_ece15.pdf

Damage to DNA of effective microorganisms by heavy metals: Impact on wastewater treatment.

Journal of Environmental Sciences, 20, 1514-1518.

ZHOU, S., WEI, C., LIAO, C., and WU, H.

http://www.sciencedirect.com/science/article/pii/S1001074208625589

Effect of Biostimulants, ethrel, boron and potassium nutrient on fruit quality of "Costata" persimmon.

Australian Journal of Basic and Applied Sciences, 2, 1432-1437.

Mohamed, S.A., and Ismail, O.M.

http://ajbasweb.com/old/ajbas/2008/1432-1437.pdf

Effect of fungal infection and the application of the biological agent EM1TM on the rate of photosynthesis and transpiration in pea (Pisum sativum L.) leaves.

Polish Journal of Natural Science, 23(1), 35-47.

Okorski, A., Olszewski, J., Pszczółkowska, A., and Kulik, T.

https://cdn-asset-mel-1.airsquare.com/emnz/library/pdfs/Fungal_prevention_with_EM-1_foliar_treatment.pdf

Hormone and microorganism treatments in the cultivation of saffron (Crocus sativus L.) plants.

Molecules, 13, 1135-1147.

Aytekin, A., and Acikgoz, A.O.

http://www.mdpi.com/1420-3049/13/5/1135

Impact of biological effective microorganisms (EM) preparations on some physico-chemical properties of soil and the vegetative growth of apple-tree rootstocks.

Nauka Przyroda Technologie Uniwersytet Przyrodniczy w Poznaniu 2.

Zydlik, P., and Zydlik, Z.

http://www.npt.up-poznan.net/pub/art_2_4.pdf

Impact of effective microorganisms compost on soil fertility and rice productivity and quality.

Misr J Ag Eng, 25, 1067-1093.

El-Shafei, A., Yehia, M., and El-Naqib, F.

http://www.mjae.eg.net/pdf/2008/july/26.pdf

Overview of a variety of trials on agricultural applications of effective microorganisms (EM).

Agricola, 17-26.

Zimmermann, I., and Kamukuenjandje, R.

https://www.researchgate.net/publication/42377987_Overview_of_a_variety_of_trials_on_agricultural_applications_of_effective_microorganisms_EM

2007

Cost-effective activated sludge process using Effective Microorganisms (EM).

Environmental health, 7, 71.

Sekaran, V., Rajagopal, K., and Karutha Pandian, S.T.

http://search.informit.com.au/documentSummary;dn=628545426666026;res=IELHEA

Compost for growing plants by applying EM-biofertilizer.

Pak J Agri Sci, 44, 3.

Hussain, K., Arif, M., Anwar-ul-Haq, M., Hussain, T., and Nasim, M.

https://www.researchgate.net/publication/242587478_COMPOST_FOR_GROWING_PLANTS_BY_APPLYING_EM-BIOFERTILIZER

Size and activity of the soil microbial biomass and soil enzyme activity in long-term field experiments.

Environmental health, 7, 71.

Hu, C., and Cao, Z.

http://connection.ebscohost.com/c/articles/25165149/size-activity-soil-microbial-biomass-soil-enzyme-activity-long-term-field-experiments

2006

Bagasse as a possible substrate for Pleurotus ostreatus (Fr.) Kummer cultivation for the local mushroom farms in the northeast of Thailand.

Pakistan Journal of Biology Sciences, 9, 2512-2515.

Vetayasuporn, S., Chutichudet, P., and Cho-Ruk, K.

Development of biological control of Ralstonia solanacearum through antagonistic microbial populations.

International Journal of Agriculture and Biology, 8, 657-660.

Lwin, M., and Ranamukhaarachchi, S.

https://www.fspublishers.org/published_papers/98082_..pdf

Effects of biological and chemical fertiliser on growth and yield of glutinous corn production.

J Agron, 5, 1-4.

Vetayasuporn, S.

http://docsdrive.com/pdfs/ansinet/ja/2006/1-4.pdf

Effects of integrated use of organic and inorganic nutrient sources with effective microorganisms (EM) on seed cotton yield in Pakistan.

Bioresource technology, 97, 967-972.

Khaliq, A., Abbasi, M.K., and Hussain, T.

http://www.sciencedirect.com/science/article/pii/S0960852405002464

Foliar application of effective microorganisms on pea as an alternative fertilizer.

Agron Sustain Dev , 26, 257.

Javaid, A.

https://hal.archives-ouvertes.fr/hal-00886350/document

Growth of Albizia procera (Roxb.) Benth. seedlings under the influence of microbial inoculant (Effective Microorganisms).

Indian Forester , 132, 329-334.

Khan, B., Mridha, M., Hossain, M., and Huda, S.

http://www.indianforester.co.in/index.php/indianforester/article/view/3912

Growth performance of Cassia fistula L. seedlings as affected by formulated microbial inoculant.

Bangladesh J. Bot., 35(2), 181-184.

Khan, B., Hossain, M., and Mridha, M.

http://www.dhakai.com/botany/journal-december2006/articles/S-1.%20Mridha.pdf

Oyster mushroom cultivation on different cellulosic substrates.

Res J Agric Biol Sci , 2, 548-551.

Vetayasuporn, S.

https://www.researchgate.net/publication/228493461_Oyster_mushroom_cultivation_on_different_cellulosic_substrates

2004

Effective Microorganisms for Enhancing Pleurotm ostreatus (Fr.) Kummer Production.

Journal of biological sciences, 4, 706-710.

Vetayasuporn, S.

http://www.aensiweb.net/AENSIWEB/rjabs/rjabs/2006/548-551.pdf

Supplemental enzymes, yeast culture and effective micro-organism culture to enhance the performance of rabbits fed diets containing high levels of rice bran.

Asian Austrasian Journal of Animal Sciences , 17, 678-683.

Shanmuganathan, T., Samarasinghe, K., and Wenk, C.

http://ajas.info/journal/view.php?number=20739

2003

Assessment of soil properties by organic matter and EM-microorganism incorporation.

Revista brasileira de ciência do solo, 27, 519-525.

Valarini, P., Alvarez, D., Gasco, J., Guerrero, F., and Tokeshi, H.

http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-06832003000300013

2002

Influence of EM Bokashi on nodulation, physiological characters and yield of peanut in nature farming fields.

Journal of Sustainable Agriculture, 19, 105-112.

Pei-Sheng, Y., and Hui-Lian, X.

http://www.tandfonline.com/doi/abs/10.1300/J064v19n04_10

Integrated evaluation of soil quality after the incorporation of organic matter and microorganisms.

Brazilian Journal of microbiology, 33, 35-40.

Valarini, P.J., Alvarez, M.C.D., Gascó, J.M., Guerrero, F., and Tokeshi, H.

http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1517-83822002000100007

Organic and transition bananas: experience with effective microorganisms (EM).

Taller internacional sobre inducción de resistencia y uso de tecnologías limpias para el manejo de plagas en plantas Turrialba (Costa Rica), 33-39.

Tabora, P., Okumoto, S., and Elango, F.

http://usi.earth.ac.cr/glas/sp/50000044.pdf

Total economic development benefits for the application of effective microorganisms technology to shrimp production.

Journal of Environmental Science and Management , 5.

Aguilar, F.

http://agris.fao.org/agris-search/search.do?recordID=PH2003001480

2001

Effects of a microbial inoculant, organic fertilizer and chemical fertilizer on water stress resistance of sweet corn.

Journal of crop production, 3, 223-233.

Xu, H.-L.

http://www.tandfonline.com/doi/abs/10.1300/J144v03n01_18?journalCode=wzcp20

Effect of effective microorganisms on composting characteristics of chicken manure.

Journal of Tropical Agriculture and Food Science, 29, 189-196.

Ong, H., Chew, B., and Suhaimi, M.

http://ejtafs.mardi.gov.my/jtafs/29-2/Effective%20microorganisms.pdf

Effect of organic fertilizer and effective microorganisms on growth, yield and quality of paddy-rice varieties.

Journal of crop production, 3, 269-273.

Iwaishi, S.

http://www.tandfonline.com/doi/abs/10.1300/J144v03n01_22?src=recsys

Soil-root interface water potential in sweet corn as affected by organic fertilizer and a microbial inoculant.

Journal of crop production, 3, 139-156.

Xu, H.-L.

https://www.researchgate.net/publication/254380256_Soil-Root_Interface_Water_Potential_in_Sweet_Corn_as_Affected_by_Organic_Fertilizer_and_a_Microbial_Inoculant

Effects of organic fertilizers and a microbial inoculant on leaf photosynthesis and fruit yield and quality of tomato plants.

Journal of crop production, 3, 173-182.

Xu, H.-L., Wang, R., and Mridha, M.A.U.

https://www.researchgate.net/publication/233256597_Effects_of_Organic_Fertilizers_and_a_Microbial_Inoculant_on_Leaf_Photosynthesis_and_Fruit_Yield_and_Quality_of_Tomato_Plants

Effect of a microbial inoculant on stomatal response of maize leaves.

Journal of crop production, 3, 235-243.

Xu, H.-L., Wang, X., and Wang, J.

https://www.researchgate.net/publication/233141079_Effect_of_a_Microbial_Inoculant_on_Stomatal_Response_of_Maize_Leaves

Growth nodulation and VAM colonization response of Vigna radiata (L.) Wilczek to co-inoculation of biopower & effective microorganisms (EM).

Pakistan Journal of Botany, 33, 743-775.

Bajwa, R., Nasir, M., and Javaid, A.

http://www.pakbs.org/pjbot/PDFs/33(SI)/PJB33(SI)38.pdf

Phytophthora resistance of organically-fertilized tomato plants.

Journal of crop production , 3, 77-84.

Wang, R., Xu, H.-L., and Mridha, M.A.U.

http://www.tandfonline.com/doi/abs/10.1300/J144v03n01_07?journalCode=wzcp20

Properties and applications of an organic fertilizer inoculated with effective microorganisms.

Journal of Crop production, 3, 255-268.

Yamada, K., and Xu, H.L.

https://www.researchgate.net/publication/232939811_Properties_and_Applications_of_an_Organic_Fertilizer_Inoculated_with_Effective_Microorganisms

Use of effective microorganisms to suppress malodors of poultry manure.

Journal of crop production, 3, 215-221.

Li, W., and Ni, Y.

http://www.tandfonline.com/doi/abs/10.1300/J144v03n01_17

2000

Cotton production through integrated plant nutrition system.

Pakistan Journal of Biological Sciences, 3, 674-676.

Ahmed, I., Zia, M.H., and John, A.

http://www.docsdrive.com/pdfs/ansinet/pjbs/2000/674-676.pdf

Improvement in biological nitrogen fixation and yield of groundnut by the application of effective microorganisms.

Pakistan Journal of Biological Sciences, 3, 320-322.

Iqbal, M., and Jilani, G.

http://docsdrive.com/pdfs/ansinet/pjbs/2000/320-322.pdf

Use of integrated approaches to manage inferior soil and water resources for rice production.

Pakistan Journal of Biological Sciences, 3, 1062-1065.

Khan, M.I.A., and Zia, M.H.

http://www.teraganix.com/category-s/1177.htm

1999

Alternatives of mineral nutrient sources to sustain wheat production.

International Journal of Agriculture and Biology, 1(4), 293-296.

Zia, M.H., Ahmed, I., Haq, M.A., and Jamil, M.

https://www.fspublishers.org/published_papers/13320_..pdf

An in vitro Antibacterial Activity of Different Effective Microorganism Cultures Against Pathogenic Species.

Pakistan Journal of Biological Sciences, 2, 214-216.

Sajjad-ur-Rahman, M.S., Hussain, T., Hussain, S., and Ansar, M.

https://www.researchgate.net/publication/26608480_An_in_vitro_Antibacterial_Activity_of_Different_Effective_Microorganism_Cultures_Against_Pathogenic_Species

EM and VAM technology in Pakistan V: Response of chickpea (Cicer arietwum L.) to co-inoculation with Effective Microorganisms (EM) and VA Mycorriza under allelopathic stress.

Pak J Bot, 31, 387-339.

Bajwa, R., Javaid, A., and Haneef, B.

http://www.pakbs.org/pjbot/PDFs/31(2)/PJB31(2)18.pdf

Influence of “effective microorganisms”(EM) on vegetable production and carbon mineralization−a preliminary investigation.

Journal of Sustainable Agriculture, 14, 15-25.

Daly, M., and Stewart, D.

Rice and wheat production in Pakistan with effective microorganisms.

American journal of alternative agriculture, 14, 30-36.

Hussain, T., Javaid, T., Parr, J., Jilani, G., and Haq, M.

https://www.researchgate.net/publication/231889884_Rice_and_wheat_production_in_Pakistan_with_Effective_Microorganisms

Utilization of brackish groundwater for crops with EM-technology.

Pakistan Journal of Agricultural Sciences, 36, 186-188.

Zia, M.H., Anwar ul Haq, M., and Ahmed, I.

http://www.teraganix.com/category-s/1200.htm

1998

EM and VAM technology in Pakistan. Effect of co-inoculation of effective microorganisms (EM) and VA mycorrhiza on plant growth and nutrient uptake in chickpea (Cicer arietinum L.).

Pakistan Journal of Phytopathology, 10(1), 48-52.

Bajwa, R., Javaid, A., Haneef, B.

https://www.researchgate.net/publication/258339649_EM_and_VAM_technology_in_Pakistan_Effect_of_co-inoculation_of_effective_microorganisms_EM_and_VA_mycorrhiza_on_plant_growth_and_nutrient_uptake_in_chickpea_Cicer_arietinum_L

EM Technology is spread worldwide and has been studied by various researchers voluntarily. Some of these study results have been presented at academic meetings or published in academic journals. In this page, we present research results of EM Technology including our company’s by year.