2022, Number 1
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TIP Rev Esp Cienc Quim Biol 2022; 25 (1)
Microbial mixtures in the treatment of liquid waste from a milking parlor
Matute-Almeida L, Maldonado-Gómez R, Román-Rojas H, Vargas-Guzmán D
Language: English
References: 47
Page: 1-9
PDF size: 359.31 Kb.
ABSTRACT
The wastewater from a milking parlor is made up of solid and liquids waste. For the treatment of these residues, microorganisms
such as
Saccharomyces cerevisiae (SC), lactic acid bacteria (LAB) and species of the genus
Bacillus were used. For this reason,
in this work it was treated the wastewater of a milking parlor applying microbial mixtures (MM). The test was carried out under
a randomized design, with three replicates per analysis and mixtures (MM1 (SC-LAB) and MM2 (
Bacillus species)), divided into
two parts in which were measured: pH, soluble solids, electrical conductivity (EC), Total Dissolved Solids (TDS) and the plate
count of the microorganisms under study and total coliforms (TC). The first part was performed in Erlenmeyer flasks, inoculating
the MMs into 100 mL of liquid waste in different flasks. While in the second part, the most efficient mixture was applied
in situ,
collecting the samples weekly. Analysis of variance (ANOVA, α = 0.05) and the test of the least significant difference (LSD) were
performed on the data collected. In this research, the MM2 (applied
in situ) managed to reduce EC (from 1,800 to 1,100 µs/cm)
and TDS (from 812 to 687 ppm), as well as inhibit the TC growth.
REFERENCES
Advíncula Zeballos, O., García Junco, S., García Armas, J.,Toribio Tamayo, K. & Meza Contreras, V. (2014). Plande ecoeficiencia en el uso del agua potable y análisis desu calidad en las áreas académicas y administrativas dela Universidad Nacional Agraria La Molina. EcologíaAplicada, 13(1), 43-55.
Alí, N. S., Mo, K. & Kim, M. (2012). A case study on therelationship between conductivity and dissolved solidsto evaluate the potential for reuse of reclaimed industrialwastewater. KSCE Journal of Civil Engineering, 16(5),708-713. https://doi.org/10.1007/s12205-012-1581-x
Andem, B., Okorafor, K., Eyo, V. & Ekpo, P. (2013). Ecologicalimpact assessment and limnological characterizationin the intertidal region of Calabar river using benthicmacroinvertebrates as bioindicator organisms. InternationalJournal of Fisheries and Aquatic Studies, 1(2), 8-14.
Anh, N. L., Huong, D. T. & Dung, V. (2010). Dosing and TimingAddition of Bacterial Biomass for Improving the WaterEnvironment in Shrimp Farming. In: Sumi A., Fukushi K.,Honda R., Hassan K. (eds) Sustainability in Food and Water:An Assian Perspective (pp. 191-200). Alliance for GlobalSustainability Bookseries (Science and Technology: Toolsfor Sustainable Development), vol 18. Springer, Dordrecht.DOI:10.1007/978-90-481-9914-3_20
Arifa, T., Madiha. A. & Tasnim, F. (2010). Effect of culturalconditions on ethanol production by locally isolatedSaccharomyces cerevisiae BIO-07. Journal of AppliedPharmacy, 3, 72-78.
Bhoonobtong, A., Sawadsitang, S., Sodngam, S. &Mongkolthanaruk, W. (2012). Characterization ofendophytic bacteria, Bacillus amyloliquefaciens forantimicrobial agents production. International Conferenceon Biological and Life Sciences IPCBEE, 40, 6-11.
Centro de las Nuevas Tecnologías del Agua de Sevilla (CENTA).(2008). Manual de depuración de aguas residuales urbanas.Monográficos agua en Centroamérica. Ed. Alianza por elAgua. España.
Chae-Woo, M., Yun-Seok, C. & Kye-Heon, O. (2009). Removalof pathogenic bacteria and nitrogens by Lactobacillus spp.JK-8 and JK-11. Aquaculture, 287, 266-270. https://doi.org/10.1016/j.aquaculture.2008.10.061
Charlón V. (2011). Residuos en las Instalaciones de Ordeño.Sitio argentino de Producción Animal. https://www.produccion-animal.com.ar/produccion_bovina_de_leche/instalaciones_tambo/138-residuos.pdf
Chaurasia, B., Pandey, A., Palni, L., Trivedi, P., Kumar, B.& Colvin, N. (2005). Diffusible and volatile compoundsproduced by an antagonistic Bacillus subtilis straincause structural deformations in pathogenic fungi invitro. Microbiology Research, 160, 75-81. https://doi.org/10.1016/j.micres.2004.09.013
Choo–in, S. (2019). The relationship between the total dissolvedsolids and the conductivity value of drinking water, surfacewater and wastewater. The 2019 International AcademicResearch Conference in Amsterdam.
Cirelli, A. (2012). El agua: un recurso esencial. Química Viva,11(3), 147-170.
Comisión Venezolana de Normas Industriales (COVENIN).(1984). Norma 1086. Alimentos. Método para recuento debacterias coliformes en placas de petri. (1era. Revisión).Ministerio de Fomento. Fondonorma. Caracas, Venezuela.
Comisión Venezolana de Normas Industriales (COVENIN).(1990). Norma 1337. Alimentos. Método para recuentode mohos y levaduras. (1era. Revisión). Ministerio deFomento. Fondonorma. Caracas, Venezuela.
Dhanasekeran, D., Lawanya, S., Saha, S., Thajuddin, N. &Panneerselvam, A. (2011). Production of single cell proteinfrom pineapple waste using yeast. Innovative RomanianFood Biotechnology, 8, 26-32.
Fiorentin, L. (2005). Aspectos bacteriológicos da reutilização dacama de aviários de frangos de corte. Avicultura industrial,96, 18-21.
Gaceta Extraordinaria Nº 5021. (1995). Decreto 883. Normaspara la clasificación y control de la calidad del agua residualo efluentes líquidos en Venezuela. Corte Suprema de Justicia.República de Venezuela.
Gutiérrez Pulido, H. & Vara Salazar, R. de la. (2012). Análisis ydiseño de experimentos(3a. ed.). México D.F.: McGrawHill.
Herrera, O. & Corpas, E. (2013). Reducción de lacontaminación en agua residual industrial láctea utilizandomicroorganismos benéficos. Biotecnología en el SectorAgropecuario y Agroindustrial, 11(1), 57-67.
Hoyos, H. D., Alvis, N., Jabib, L., Garcés, M., Pérez, D. &Mattar, S. (2008).Utilidad de los microorganismos eficaces(EM®) en una explotación avícola de Córdoba: parámetrosproductivos y control Ambiental. Revista MVZ Córdoba,13(2), 1369-1379.
Huertas, R. (2010). Digestión anaeróbica: mecanismosbiotecnológicos en el tratamiento de aguas residuales ysu aplicación en la industria alimentaria. Producción +Limpia, 10(2), 142-159.
Jimenez-Noda, M., Cova, R., Trías, L., Vega, C. & Manganiello,L. (2017). Parameters relating to chemical propertiesand organoleptic quality of waters confluing reservoirsfor human consumption. Revista Ingeniería UC, 24(1),128 – 136.
Joerger, R. D. (2003). Alternatives to antibiotics: bacteriocins,antimicrobial peptides and bacteriophages. Poultry Science,82, 640-647. DOI: 10.1093/ps/82.4.640
Kern, J., Idler, C. & Carlow, G. (2000). Removal offecal coliforms and organic matter from dairy farmwastewater in a constructed wetland under changingclimate conditions. Journal of Environmental Scienceand Health, Part A: Toxic/Hazardous Substances andEnvironmental Engineering, 35(8), 1445-1461. https://doi.org/10.1080/10934520009377046
Lara-Mantilla, C. & Burgos-Portacio, A. (2012). Potencialprobiótico de cepas nativas para uso como aditivos en laalimentación avícola. Revista Colombiana de Biotecnología,14(1), 31-40.
Lutful Kabir, S. M. (2009). The role of probiotics in the poultryindustry. International Journal of Molecular Sciences,2009(10), 3531-3546. DOI: 10.3390/ijms10083531
Matute-Almeida, L., Galindo, Y. & Delahais, I. (2017).Evaluación de productos de descarte de una empresa debebidas no alcohólicas para ser usados como sustratofermentable por Saccharomyces cerevisiae. Nova Scientia,9(1), 1-20. https://doi.org/10.21640/ns.v9i18.666.
Mostafa, E., Metwally, E., Nanis, A. & Eltohamy, E. (2014).Efficiency assessment of biological treatment of sewagewastewater and their ability to remove heavy metal. EgyptianJournal of Environmental Research, 2, 28-50.
Namsivayam, S., Narendrakumar, G. & Arvindkumar, J. (2011).Evaluation of Effective Microorganism (EM) for treatmentof domestic sewage. Journal of Experimental of Science,2, 30-32
Nemutanzhela, M. E., Roets, Y., Gardiner, N. & Lalloo, R.(2014). The use and benefits of Bacillus based biologicalagents in aquaculture. In: Vergara, M. P. H. , Perez-Rostro,C. I. (eds) Sustainable Aquaculture Techniques (pp.1-34). London: IntechOpen. Available from: https://www.intechopen.com/chapters/46213 DOI: 10.5772/57375
Olmos, A. (1987). Reportes de biotecnología. Biotecnología,5, 36-39.
Pal, M., Samal, N. R., Roy, P. K. & Roy, M. B. (2015). Electricalconductivity of lake water as environmental monitoring – Acase study of Rudrasagar Lake. Journal of EnvironmentalScience, Toxicology and Food Technology, 9(3), 66-71.DOI: 10.9790/2402-09316671
Peinado, M. J., Ruiz, R., Echávarri, A. & Rubio, L. A. (2012).Garlic derivative propyl propane thiosulfonate is effectiveagainst broiler enteropathogens in vivo. Poultry Science,91, 2148–2157. DOI: 10.3382/ps.2012-02280
Phianphak, W., Rengpipat, S., Piyatiratitivorakul, S. &Menasveta, P. (1999). Probiotic use of Lactobacillus spp. forblack tiger shrimp, Penaeus monodon. Journal of ScientificResearch, Chulalongkorn University, 24(1), 41-58.
Rodríguez, M. E., Miranda, R. C., Olivas, R. & Sosa, C. A. (2008).Efectos de las condiciones de operación sobre la biosorciónde Pb2+, Cd2+ y Cr3+ en solución por Saccharomycescerevisiae. Información Tecnológica, 19(6), 47-55. http://dx.doi.org/10.4067/S0718-07642008000600006.
Safriti, R., Priadie, B., Miranti, M. & Astuti, A. W. (2015).Ability of bacterial consortium: Bacillus coagulans,Bacilus licheniformis, Bacillus pumilus, Bacillussubtilis, Nitrosomonas sp. and Pseudomonas putida inbioremediation of waste water in Cisirung waste watertreatment plant. AgroLife Scientific Journal, 4(1), 146-152.
Savadogo, A., Ouattara, C., Savadogo, P., Ouattara, A., Barro,N. & Traore, A. (2004). Microorganisms involved in fulanitraditional fermented milk in Burkina Faso. PakistanJournal of Nutrition, 3(2), 134-139. DOI: 10.3923/pjn.2004.134.139
Shah, N. & Patel, A. (2013). Lactic acid bacteria in the treatmentof dairy waste and formation of by-products-a promisingapproach. Indian Food Industry Mag, 32(4), 45-49.
Shalaby, E. A. (2011). Prospects of effective microorganismstechnology in wastes treatment in Egypt. Asian PacificJournal of Tropical Biomedic, 1(3), 243-248. DOI: 10.1016/S2221-1691(11)60035-X
Sharif, M., Yazdani, M., Almas, Z., Ghias, W., Qureshi, R.,Zakki, S., Ansari, F. & Qazi, M. H. (2016). Bacillus SpeciesFound Antagonistic against Bacteria Isolated from CurrencyNotes in Local Circulation. Biomedical Letters, 2(2), 86-90.
Shinde, S. E., Pathan, T. S., Raut, K. S. & Sonawane, D. L.(2011). Studies on the Physico-chemical Parameters andCorrelation Coefficient of Harsool-savangi Dam, DistrictAurangabad, India. Middle-East Journal of ScientificResearch, 8(3), 544-554.
Siosemarde, M., Kave, F., Pazira, E., Sedghi, H. & Ghaderi, S.J. (2010). Determine of constant coefficients to relate totaldissolved solids to electrical conductivity. World Academyof Science, Engineering and Technology, 46, 258-260. DOI.org/10.5281/zenodo.1331859
Tariq, A. L., Sudha, S. & Reyaz, A. L. (2016). Isolationand screening of Bacillus species from sediments andapplication in bioremediation. International Journal ofCurrent Microbiology and Applied Sciences, 5(6), 916-924.DOI:10.20546/ijcmas.2016.506.099
Vijayaram, S. & Kannan, S. (2015). Antagonistic activity ofBacillus cereus against human and fish pathogenic bacteria.International Journal of Pharma and Bio Sciences, 6(1),60-68. DOI:10.20546/ijcmas.2016.506.099
Wetland, S. A. (2007). Tratamiento biológico de aguas residuales.Ecoamérica, 2007, 18-22.
Wu, X. & Zhu, J. (2015). Simultaneous removal of nutrientsfrom milking parlor wastewater using an AO2 sequencingbatch reactor (SBR) system. Journal of EnvironmentalScience and Health, Part A: Toxic/Hazardous Substancesand Environmental Engineering, 50, 396–405. DOI:10.1080/10934529.2015.987543.
Yilmaz, M., Soran, H. & Beyatli, Y. (2006). Antimicrobialactivities of some Bacillus spp. strains isolated from thesoil. Microbiology Research, 161, 127-131. DOI: 10.1016/j.micres.2005.07.001