The EM4 Addition Affect Water Absorption Time and Compost Quality in Biopore Infiltration Hole

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Vol 21 No 1 (2024): Jurnal Kesehatan Lingkungan Volume 21 No. 1, Januari 2024
Diterbitkan: Jan 1, 2024

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Marsha Savira Agatha Putri
Universitas Islam Lamongan
Eko Sulistiono
Universitas Islam Lamongan
Denaya Andrya Prasidya
Universitas Islam Lamongan
Achmad Chusnun Ni'am
Institut Teknologi Adhi Tama Surabaya
Nur Azizah Affandy
Universitas Islam Lamongan

Abstrak

A biopore infiltration hole can handle organic household waste for the composting process. It can be optimized by adding an Effective Microorganism 4 (EM4) activator. This study aims to determine the effect of EM4 addition on water adsorption time, compost weight, and compost quality, according to SNI 19-7030-2004. Lamongan Islamic University's Laboratory of Environmental and Health Science determined the compost test's nutrient content. A cylindrical hole was drilled into the ground using a BIH drill with a diameter of 10 cm and a depth of 50, 75, and 100 cm, with a distance of 100 cm for each hole. The materials used in this study included domestic organic waste, leaves explicitly, and kitchen waste, a 50-ml liquid EM4 "Agriculture" activator diluted with 100 ml of distilled water, and 10 grams of granulated sugar.  The experiment was conducted for 15, 30, and 45 days. To measure the water absorption time, a 2x1x1 m barrier is needed to accommodate 2 m3. The difference in BIH diameter can affect the infiltration rate at the Biopores Infiltration Hole (BIH). The measurement's highest water absorption occurred at the beginning of the 15th day. The addition of EM4 affects the decomposition process and can increase the water absorption rate for 45 days. The EM4 additions affect the decomposition process's timing. Additionally, the addition of EM4 impacts the nutrients in the compost. The addition of EM4 increased the value of C-organic, nitrogen, phosphorus, and total potassium in the BIH compost.

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Referensi

Jin X, Qin H, Zhang Z, Zhou M, Wang J. Planning of garbage collection service: an arc-routing problem with time-dependent penalty cost. IEEE Trans Intell Transp Syst. IEEE; 2020;22(5):2692–705.

Nanda S, Berruti F. Municipal solid waste management and landfilling technologies: a review. Environ Chem Lett. Springer; 2021;19(2):1433–56.

Narethong H. Environmental Governance: Urban Waste Management Model. J La Lifesci. 2020;1(2):32–6.

Boelee E, Geerling G, van der Zaan B, Blauw A, Vethaak AD. Water and health: From environmental pressures to integrated responses. Acta Trop. Elsevier; 2019;193:217–26.

Nizar M, Munir E, Munawar E. Implementation of zero waste concept in waste management of Banda Aceh City. Journal of Physics: Conference Series. IOP Publishing; 2018. p. 52045.

Haas C, Horn R. Impact of small-scaled differences in micro-aggregation on physico-chemical parameters of macroscopic biopore walls. Front Environ Sci. Frontiers Media SA; 2018;6:90.

Kautz T. Research on subsoil biopores and their functions in organically managed soils: A review. Renew Agric Food Syst. Cambridge University Press; 2015;30(4):318–27.

Hutabarat LE, Simanjuntak IV. Using Bio-Pore Infiltration Hole to Reduce Flooding in Densely Population Communities of Jakarta and Surrounding Area. IOSR J Eng. The International Organization of Scientific Research (IOSR); 2022;12(8):1–9.

Al Dianty M. Analysis of Biopore Drainage System to Control the Floods in the Urban Cluster. Technol Reports Kansai Univ. 2020;62(08):45–54.

Suleman AR, Yusuf H, Nabi A, Erdiansa A, Halim S, Aulia N. Determining Biopore Infiltration Hole as Catchment Flood in Inundation Area Eastern of Makassar City Based on Geographic Information System (GIS). J Eng Appl Sci. 2020;15(2):341–9.

Hanuf AA, Prijono S, Soemarno S. Improvement of soil available water capacity using biopore infiltration hole with compost in a coffee plantation. J Degrad Min Lands Manag. Universitas Brawijaya; 2021;8(3):2791.

Ruslinda Y, Aziz R, Sari N, Arum LS. The effect of chopping raw material on composting result with the biopore infiltration hole method. IOP Conference Series: Materials Science and Engineering. IOP Publishing; 2021. p. 12033.

Putri MSA, Syakbanah NL, Affandy NA, Nabilah S, Arismaya ARPA. Socialize the Biopore Modification and Utilization as a Composting Media and Disaster Mitigation Efforts in Blawi Village, Karangbinangun, Lamongan. ABDIMAS J Pengabdi Masy. 2022;5(2):2472–8.

Kelley AJ, Campbell DN, Wilkie AC, Maltais-Landry G. Compost Composition and Application Rate Have a Greater Impact on Spinach Yield and Soil Fertility Benefits Than Feedstock Origin. Horticulturae. MDPI; 2022;8(8):688.

De Corato U. Agricultural waste recycling in horticultural intensive farming systems by on-farm composting and compost-based tea application improves soil quality and plant health: A review under the perspective of a circular economy. Sci Total Environ. Elsevier; 2020;738:139840.

Franchitti E, Pascale E, Fea E, Anedda E, Traversi D. Methods for bioaerosol characterization: limits and perspectives for human health risk assessment in organic waste treatment. Atmosphere (Basel). Multidisciplinary Digital Publishing Institute; 2020;11(5):452.

Ayilara MS, Olanrewaju OS, Babalola OO, Odeyemi O. Waste management through composting: Challenges and potentials. Sustainability. Multidisciplinary Digital Publishing Institute; 2020;12(11):4456.

Nasution NEA, Rizka CR. Production of Liquid Compost with EM4 Bio Activator Volume Variation from Vegetable and Fruit Waste. META J Sci Technol Educ. 2022;1(1):87–99.

Aslanzadeh S, Kho K, Sitepu I. An Evaluation of the Effect of Takakura and Effective Microorganisms (EM) as Bio Activators on the Final Compost Quality. IOP Conference Series: Materials Science and Engineering. IOP Publishing; 2020. p. 12017.

Sadeli A, Wulandari A, Sinuraya L, Mirwandhono E, Hakim L. The comparative of activator effect and fermentation time on nutrient quality, physical quality (temperature, pH) in compost. IOP Conference Series: Earth and Environmental Science. IOP Publishing; 2022. p. 12130.

Sugiharti IEP, Raksun A, Mertha IG. The effect of liquid organic fertilizer from tofu industrial waste and EM4 on the growth of mustard greens (Brasicajuncea L.). J Pijar Mipa. 2022;17(4):554–9.

Herlina SM, Aswita D. Economic Value from the Household Environment Using EM4 Addition of Compost Solid Fertilizer in Banda Aceh. IOP Conference Series: Materials Science and Engineering. IOP Publishing; 2019. p. 12015.

Ahn C, Jones S. Assessing organic matter and organic carbon contents in soils of created mitigation wetlands in Virginia. Environ Eng Res. Korean Society of Environmental Engineers; 2013;18(3):151–6.

Drobek M, Frąc M, Cybulska J. Plant biostimulants: Importance of the quality and yield of horticultural crops and the improvement of plant tolerance to abiotic stress—A review. Agronomy. MDPI; 2019;9(6):335.

Błońska E, Piaszczyk W, Staszel K, Lasota J. Enzymatic activity of soils and soil organic matter stabilization as an effect of components released from the decomposition of litter. Appl Soil Ecol. Elsevier; 2021;157:103723.

Schleuss PM, Widdig M, Heintz‐Buschart A, Kirkman K, Spohn M. Interactions of nitrogen and phosphorus cycling promote P acquisition and explain synergistic plant‐growth responses. Ecology. Wiley Online Library; 2020;101(5):e03003.

Bano SA, Iqbal SM. Biological nitrogen fixation to improve plant growth and productivity. Int J Agric Innov Res. 2016;4:1473–2319.

Muñoz-Huerta RF, Guevara-Gonzalez RG, Contreras-Medina LM, Torres-Pacheco I, Prado-Olivarez J, Ocampo-Velazquez R V. A review of methods for sensing the nitrogen status in plants: advantages, disadvantages and recent advances. sensors. Molecular Diversity Preservation International (MDPI); 2013;13(8):10823–43.

Khatua C, Sengupta S, Balla VK, Kundu B, Chakraborti A, Tripathi S. Dynamics of organic matter decomposition during vermicomposting of banana stem waste using Eisenia fetida. Waste Manag. Elsevier; 2018;79:287–95.

Rademacher W. Plant growth regulators: backgrounds and uses in plant production. J Plant Growth Regul. Springer; 2015;34(4):845–72.

Rao U, Posmanik R, Hatch LE, Tester JW, Walker SL, Barsanti KC, et al. Coupling hydrothermal liquefaction and membrane distillation to treat anaerobic digestate from food and dairy farm waste. Bioresour Technol. Elsevier; 2018;267:408–15.

Turrion M-B, Lafuente F, Aroca M-J, López O, Mulas R, Ruipérez C. Characterization of soil phosphorus in a fire-affected forest Cambisol by chemical extractions and 31P-NMR spectroscopy analysis. Sci Total Environ. Elsevier; 2010;408(16):3342–8.

Meena VS, Bahadur I, Maurya BR, Kumar A, Meena RK, Meena SK, et al. Potassium-solubilizing microorganism in evergreen agriculture: an overview. Potassium solubilizing Microorg Sustain Agric. Springer; 2016;1–20.

Hasunuma T, Okazaki F, Okai N, Hara KY, Ishii J, Kondo A. A review of enzymes and microbes for lignocellulosic biorefinery and the possibility of their application to consolidated bioprocessing technology. Bioresour Technol. Elsevier; 2013;135:513–22.

Zhou X, Yang J, Xu S, Wang J, Zhou Q, Li Y, et al. Rapid in-situ composting of household food waste. Process Saf Environ Prot. Elsevier; 2020;141:259–66.

Antil RS, Raj D, Abdalla N, Inubushi K. Physical, chemical and biological parameters for compost maturity assessment: a review. Compost Sustain Agric. Springer; 2014;83–101.

Ameen A, Ahmad J, Raza S. Effect of pH and moisture content on composting of Municipal solid waste. Int J Sci Res Publ. 2016;6(5):35–7.

Nurtjahyani SD, Oktafitria D, Sriwulan S, Maulidina N, Cintamulya I, Purnomo E. Utilization of Leaves in Mine Reclamation Land as Organic Fertilizer with Effective Bioactivatory of Microorganism 4 (em4) and Molasses. Microbiol Indones. 2020;14(2):5.

Maghfoer MD, Soelistyono R, Herlina N. Response of eggplant (Solanum melongena L.) to combination of inorganic-organic N and EM4. AGRIVITA, J Agric Sci. 2014;35(3):296–303.

Ehrlich HL. Bacterial mineralization of organic carbon under anaerobic conditions. Soil biochemistry. CRC Press; 2021. p. 219–47.

Agustina W. Composting of grass clippings using different commercial microbial activators. IOP Conference Series: Earth and Environmental Science. IOP Publishing; 2020. p. 12002.

Ney L, Franklin D, Mahmud K, Cabrera M, Hancock D, Habteselassie M, et al. Impact of inoculation with local effective microorganisms on soil nitrogen cycling and legume productivity using composted broiler litter. Appl Soil Ecol. Elsevier; 2020;154:103567.

Dubey RS, Srivastava RK, Pessarakli M. Physiological mechanisms of nitrogen absorption and assimilation in plants under stressful conditions. Handbook of plant and crop physiology. CRC Press; 2021. p. 579–616.

Dewilda Y, Aziz R, Handayani RA. The effect of additional vegetables and fruits waste on the quality of compost of cassava chip industry solid waste on takakura composter. IOP Conference Series: Materials Science and Engineering. IOP Publishing; 2019. p. 12060.

Cheng W, Padre AT, Sato C, Shiono H, Hattori S, Kajihara A, et al. Changes in the soil C and N contents, C decomposition and N mineralization potentials in a rice paddy after long-term application of inorganic fertilizers and organic matter. Soil Sci Plant Nutr. Taylor & Francis; 2016;62(2):212–9.

Suryawan IWK, Prajati G, Afifah AS, Apritama MR, Adicita Y. Continuous piggery wastewater treatment with anaerobic baffled reactor (ABR) by bio-activator effective microorganisms (EM4). Indones J Urban Environ Technol. 2019;3(1):1–12.

Zechmeister-Boltenstern S, Keiblinger KM, Mooshammer M, Peñuelas J, Richter A, Sardans J, et al. The application of ecological stoichiometry to plant–microbial–soil organic matter transformations. Ecol Monogr. Wiley Online Library; 2015;85(2):133–55.