Managing Solid Waste In School Environment Through Composting Approach

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PDF MANAGING SOLID WASTE IN SCHOOL ENVIRONMENT THROUGH COMPOSTING APPROACH
Published: Mar 18, 2023
DOI: https://doi.org/10.21580/jieed.v3i1.16003
Keywords:
solid waste, management, composting, school environment, pedagogical practices, and sanitation

Main Article Content

Kofi Nkonkonya Mpuangnan
University of Zululand, South Africa
https://orcid.org/0000-0001-7510-8794
Hlengiwe Romualda Mhlongo
University of Zululand, South Africa
Samantha Govender
University of Zululand, South Africa

Abstract

This study aimed at improving solid waste disposal in schools by using the composting approach. The theory that underpinned this study was Reduce, Reuse, and Recycle (3R) theory, while the necessary data were gathered by using a synthesis and integration approach. The following three research questions were framed to guide the conduct of the study: How important is solid waste management in schools? What pedagogical techniques are most effective for promoting environmental sustainability by teaching composting in schools? What are the challenges involved in the composting process at school?  The synthesis and integration approach assisted in integrating concepts from different sources and synthesizing those concepts to create a comprehensive and cogent argument in accordance with emerging themes. It was discovered that solid waste management in schools was particularly crucial since schools produced a lot of rubbish and that waste may affect the environment negatively. Composting is essential to improve school solid waste because it enhances soil health, decreases waste, and encourages sustainable agricultural methods. Three pedagogical techniques that could be utilized to facilitate the teaching and learning of composting in schools have evolved based on the theoretical framework and the literature provided. Project-based learning (PBL), hands-on learning, and inquiry-based learning were some of the new pedagogical strategies. However, some of the challenges with the composting process were identified as follows: difficulty in regulating the moisture level of the compost, keeping the proper balance of carbon and nitrogen in the compost pile, and inability to educate students and staff about the composting process.

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Mpuangnan, K. N., Mhlongo, H. R., & Govender, S. (2023). Managing Solid Waste In School Environment Through Composting Approach. Journal of Integrated Elementary Education, 3(1), 34–57. https://doi.org/10.21580/jieed.v3i1.16003
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Vol. 3 No. 1 (2023): March 2023
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Articles

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References

Abbas, A., and Ansumali, S. (2010). Global Potential of Rice Husk as a Renewable Feedstock for Ethanol Biofuel Production (2010). Bioenergy Res., 3: 328–334.

Ayilara, M. S., Olanrewaju, O. S., & Babalola, O. O. (2020). Waste Management through Composting : Challenges and Potentials. 12, 4456; 1–23. Doi: 10.3390/su12114456

Avivah, A., Hilmiyati, F., & Khaeroni, K. (2022). The Utilization of Text Summary Techniques to Improve Students’ Reading Comprehension Skills. Journal of Integrated Elementary Education, 2(2), 95–104.

Bakar, R.A., Yahya, R., and Gan, S.N., (2016). Production of high purity amorphous silica from rice husk, Procedia Chem., 19, 189–195

Behbahaninia, A., S.A. Mirbagheri, N. Khorasani, J. Nouri, & A.H. Javid. (2009). Heavy metal contamination of municipal effluent in soil and plants. J. Food, Agric. Environ. 7(3 & 4): pp. 851–856.

Bernal-Barragán, B. E., Sánchez-Monedero, M. A., Paredes, C., & Roig, A. (2019). Greenhouse gas emissions from composting and potential mitigation strategies: a review. Journal of environmental management, 233, 545-554.

Bhat, R.A., Dar, S.A., Dar, D.A., Dar, G. (2018). Municipal Solid Waste Generation and Current Scenario of its Management in India. Int. J. Adv. Res. Sci. Eng. 7, 419–431.

Bowen, A et al., (2007). ‘A cluster-randomized controlled trial evaluating the effect of a hand washing-promotion program in Chinese primary schools’, American Journal of Tropical Medicine and Hygiene, vol. 76, no. 6, pp. 1166–1173, The American Society of Tropical Medicine, Oakbrook Terrace, IL, 2007.

Chan, Y. C., Sinha, R. K., & Wang, W. (2011). Emission of greenhouse gases from home aerobic composting, anaerobic digestion, and vermicomposting of household wastes in Brisbane (Australia). Waste Management and Research, 29(5), 540–548. https://doi.org/10.1177/0734242X10375587

Chiemchaisri, C., Chiemchaisri, W., Visvanathan, C., & Deesuth, O. (2021). Municipal solid waste management in Thailand: Challenges and strategic solutions. Journal of Material Cycles and Waste Management, 23, 19-34. https://doi.org/10.1007/s10163- 020-01087-2

Composting Council Research and Education Foundation. (n.d.). Composting for Municipalities. Retrieved from https://compostingcouncil.org/municipalities/

Composting at School: A How-to Guide (2018). United States Environmental Protection Agency, https://www.epa.gov/sites/production/files/2018-07/documents/compostingatschool.pdf

Creswell, J. W. (2014). Research Design: Qualitative, Quantitative, and Mixed Methods Approaches. Sage Publications.

Delgado-Rodriguez, M., Ruiz-Montoya, M., Giraldez, I., Lopez, R., Madejon, E., and Diaz, M. J. (2011). Influence of Control Parameters in VOCs Evolution during MSW Trimming Residues Composting. J. Ag. and Food Chem., 59(24), 13035-13042.

Demir, Z. & Gülser, C. (2021). Effects of Rice Husk Compost on Some Soil Properties, Water Use Efficiency and Tomato (Solanum et al.) Yield under Greenhouse and Field Conditions. Communications in soil science and plant analysis VOL. 52, NO. 9, 1051–1068

Diaz, M. J., Madejón, E., López, F., López, R., & Cabrera, F. (2002). Optimization of the rate vinasse/grape marc for the co-composting process. Process Biochemistry, 37(10), 1143– 1150. https://doi.org/10.1016/S0032-9592(01)00327-2

EPA (1997). Innovative Uses of Compost Disease Control for Plants and Animals. United States Environmental Protection Agency, Solid Waste, and Emergency Response. Avalable at https://openlibrary.org/books/OL14540084M/Innovative

Feinstein, A. R., & Miller, R. G. (1985). The unreliability of individual physician "peer review" for assessing the appropriateness of medical care. Jama, 254(14), 2003-2007.

Fernandes, I.J., Calheiro, D., Kieling, A.G., Moraes, C.A.M., Rocha, T.L.A.C., Brehm, F.A., and Modolo, R.C.E., (2016). Characterization of rice husk ash produced using different biomass combustion techniques for energy, Fuel, 165, 351–359.

Gallizzi K. (2003). Co-Composting Reduces. Helminth Eggs in Fecal Sludge. SANDEC, Switzerland. Available at https://www.researchgate.net/publication/241701505

Gbenatey, E., Philip, N., Godfred, A., & Muspratt, A. (2017). Effects of co-composting of fecal sludge and agricultural wastes on tomato transplant and growth. International Journal of Recycling of Organic Waste in Agriculture, 6(1), 23–36. https://doi.org/10.1007/s40093-016-0149-z

Gonawala, S.S., Jardosh, H. (2018). Organic Waste in Composting: A brief review. Int. J. Curr. Eng. Technol 8, 36–38

Goyal, S., & Dhull, S. K. (2017). Composting: a way to manage organic wastes for enhancing crop productivity. Agronomy, 7(2), 25.

Gulser, C., and F. Candemir (2015. Effects of agricultural wastes on the hydraulic properties of a loamy sand cropland in Turkey. Soil Sci. Plant Nutr. 61 (3):384–391

Guneysu, I., & Emgin, F. (2021). Evaluation of waste management practices in schools: A case study in Turkey. Waste Management & Research, 39(7), 818-823.

Gupta, S., Kaur, P., Singh, S., & Singh, R. (2021). An assessment of solid waste management in a school of Delhi, India. Journal of Material Cycles and Waste Management, 23(3), 1433-1441.

Han, W., Clarke, W., & Pratt, S. (2014). Composting of waste algae : A review. Waste Management, 34(7), 1148–1155. https://doi.org/10.1016/j.wasman.2014.01.019

Hariharaputran, G. (2010). Effects of composting processes on microbial indicators. Watercare Laboratory Services Limited, Mangere, New Zealand. https://www.waternz.org.nz/Article?Action

Haug, M. R. (1993). The feedback control of behavior. Wiley.

Impraim, R., Nikiema, J., Cofie, O., & Rao, K. (2014). Value from faecal sludge and municipal organic waste : fertilizer cum soil conditioner in Ghana. 3–8.

James L. (2016). Facilitating Lasting Changes at an Elementary School. International Electronic Journal of Elementary Education, 8(3), 443-454

Kalamdhad, A. S. and Kazmi, A. A. (2009). Rotary drum composting of different organic waste mixtures. Waste Management Res. 27:129-137.

Khan, R., Jabbar, A., Ahmad, I., Khan, W., Khan, A. N., & Mirza, J. (2012). Reduction in environmental problems using rice-husk ash in concrete. Construction and Building Materials, 30, 360–365. https://doi.org/10.1016/j.conbuildmat.2011.11.028

Kikuchi, M. (2004). Lattice defects and their interactions in advanced materials. Springer Science & Business Media.

Kumar, A., & Samadder, S. R. (2019). A review on technological options of waste-to-energy for effective management of municipal solid waste. Waste Management, 84, 201-222. https://doi.org/10.1016/j.wasman.2018.11.045

Kumar, M., Ou, Y., & Lin, J. (2010). Co-composting of green waste and food waste at low C / N ratio. Waste Management, 30(4), 602–609. https://doi.org/10.1016/j.wasman.2009.11.023

Kumazawa, K. (1997). Use of sewage sludge for agriculture in Japan. Proceedings of consultants meetings on sewage sludge and wastewater for use in agriculture pp.111-127. Joint FAO/IAEA Div. of Nuclear Techniques in Food and Agriculture, ViennaAustria, Intern.

Latifah, O., Ahmed, O. H., Susilawati, K., & Majid, N. M. (2015). Compost maturity and nitrogen availability by co-composting of paddy husk and chicken manure amended with clinoptilolite zeolite. https://doi.org/10.1177/0734242X15576771

Lazcano, C., Gómez-Brandón, M., & Domínguez, J. (2013). Comparison of the effectiveness of composting and vermicomposting for the biological stabilization of cattle manure. Chemosphere, 93(9), 1017-1024.

Leconte, M. C., Mazzarino, M. J., Satti, P., & Iglesias, M. C. (2009). Co-composting rice hulls and / or sawdust with poultry manure in NE Argentina. Waste Management, 29(9), 2446–2453. https://doi.org/10.1016/j.wasman.2009.04.006

Li, Z., Li, H., Zhu, L., Zhang, J., & Xu, Z. (2020). Composting of animal manure and spent mushroom substrate for organic fertilizer production. Journal of Material Cycles and Waste Management, 22(2), 228-236. doi: 10.1007/s10163-019-00932-3

Lin, L., Xu, F., Ge, X., & Li, Y. (2018). Improving the sustainability of organic waste management practices in the food-energy-water nexus: A comparative review of anaerobic digestion and composting. Renewable and Sustainable Energy Reviews, 89(June 2016), 151–167. https://doi.org/10.1016/j.rser.2018.03.025

Macdonald, L. M., & Farrell, M. (2019). The effects of compost addition on soil biodiversity: A meta-analysis. Journal of Applied Ecology, 56(2), 246-256.

McMahon, V., Garg, A., Aldred, D., Hobbs, G., Smith, R., and Tothill, I. (2009). Evaluation of the potential of applying composting/bioremediation techniques to wastes generated within the construction industry. Waste Manag., pp. 29, 186–196.

Majbar, Z., Lahlou, K., Abbou, M. Ben, Ammar, E., Triki, A., Abid, W., Nawdali, M., Bouka, H., Taleb, M., Haji, M. El, & Rais, Z. (2018). Co-composting of Olive Mill Waste and Wine-Processing Waste : An Application of Compost as Soil Amendment.

Marques, R., Xavier C. R. (2020). The Challenges and Difficulties of Teachers in the Insertion and Practice of Environmental Education in the School Curriculum. International Journal on Social and Education Sciences, Volume 2, Issue 1, p49-56.

Martínez-Blanco J., Lazcano C., Boldrin A., Muñoz P., Rieradevall J., Møller J., Antón A., Christensen T. H. 2013. Assessing the environmental benefits of compost use-on-land through an lCA perspective In Eric Lichtfouse , editor, Sustainable Agriculture Reviews Volume 12. Springer Science, p. 255-318.

Mehta, S., Bhattacharya, A., & Rathi, B. (2020). Waste management practices in schools: A case study of an Indian school. Journal of Cleaner Production, p. 259, 120950.

Mengistu, T., Gebrekidan, H., Kibret, K., Woldetsadik, K., & Shimelis, B. (2017). Comparative effectiveness of different composting methods on the stabilization , maturation and sanitization of municipal organic solid wastes and dried faecal sludge mixtures. Environmental Systems Research. https://doi.org/10.1186/s40068-017-0079-4

Miner, J. B., Glomb, T. M., & Hulin, C. L. (2001). Experience sampling mood and its correlates at work. Journal of Occupational and Organizational Psychology, 74(4), 393-413. https://doi.org/10.1348/096317901167497

Mingyan, Y., Xianlia, Z., Ziaoqi, T., and Xiaoqi, Z. (2011). Screening of complex thermophilic microbial community and application during municipal solid waste aerobic composting. Afric. J. Biotech., 10(67), 15163-15169.

Misra, R.; Roy, R.; Hiraoka, H. (2003). On-Farm Composting Methods; UN-FAO: Rome, Italy, in Ayilara, M. S., Olanrewaju O. S., Babalola O, O., and Olu Odeyemi (2020). Waste Management through Composting: Challenges and Potentials. Sustainability 12, 4456; doi: 10.3390/su12114456

Misra, R.; Roy, R.; Hiraoka, H. (2003). On-Farm Composting Methods; UN-FAO. Rome, Italy pp. 7–26. Available at https://www.semanticscholar.org/paper/On-Farm

Murray, A., Cofie, O., & Drechsel, P. (2011). Efficiency indicators for waste-based business models: Fostering private-sector participation in wastewater and faecal-sludge management. Water International, 36(4), 505–521. https://doi.org/10.1080/02508060.2011.594983

Murimi, S & Gbedemah, F. (2019). Suitability of Rice Husk and Chicken Droppings as Organic Fertilizer for Sustainable Agriculture in Ghana. Journal of Environmental Issues and Agriculture in Developing Countries, 10 (2); pp63-78.

Natarajan, E., Nordin, A., & Rao, A. N. (1998). Overview of combustion and gasification of rice husk in fluidized bed reactors. Biomass and Bioenergy, 14(5–6), 533–546. https://doi.org/10.1016/S0961-9534(97)10060-5

National Association of Secondary School Principals (1974). Teaching Resource Recovery in Science: Resource Recovery Education Program. National Center for Resource Recovery, Inc., Washington, D.C.

NYC Compost Project (2016). Composting in Schools: A Comprehensive Guide for Schools in New York City. , https://www1.nyc.gov/assets/dsny/zerowaste/residents/schools/NYC_Composting_in Schools_Guide_2016.pdf

Prasara-A, J., and Gheewala, S.H., (2017). Sustainable utilization of rice husk ash from power plants: A review. Journal of Cleaner Production, 167 (2017); pp1028 1021

Pode, R., (2016). Potential applications of rice husk ash waste from the rice husk biomass power plant, Renewable Sustainable Energy Rev., 53, 1468–1485.

Purnomo, C. W., & Sasongko, A. (2020). Solid waste management policy in Indonesia: A review of its implementation and challenges. Environmental Science and Pollution Research, 27(20), 25249-25261. https://doi.org/10.1007/s11356-020-08924-1

Raza, W., Yang, S., Ali, A., Zhang, R., & Xu, X. (2019). Effect of bulking agent on the composting of food waste: a review. Waste Management, 85, 265-276. doi: 10.1016/j.wasman.2018.12.028

Rehm, J., & Reed, G. (2000). Environmental and occupational risks for cancer in high-income countries. The Lancet Oncology, 1(1), 39-46.

Rungrodnimitchai, S., Phokhanusai, W., and Sungkhaho, N., (2015). Preparation of silica gel from rice husk ash using microwave heating, JMMM, 19 (2), 45–50.

Sahu, N., & Khatua, R. K. (2021). Solid waste management practices in schools: A review of literature. Journal of Environmental Management, 291, 112626.

StopWaste (2014). School Composting: A Guide to Using Organics Recycling to Manage School Food Waste. http://www.stopwaste.org/sites/default/files/SchoolCompostingGuide_0.pdf

Takaku, H., Kodaira, S., Kimoto, A., Nashimoto, M., and Takagi, M. (2006). "Microbial Communities in the garbage composting with rice hull as an amendment revealed by culture-dependent and -independent approaches." J. Biosci. and Bioengrg., 101(1), 42-50.

Tambone, F., Scaglia, B., Scotti, S., Adani, F., & Genevini, P. (2010). Assessing amendment properties of digestate by studying respiration activity and composting processes. Bioresource technology, 101(23), 9090-9098.

Tan, K.H (2000). Environmental Soil Science, Third Edition. CRC Press, UK.

Tang, Y., Zhang, Y., & Chen, Y. (2006). Synthesis and properties of branched polyethylene glycol-modified poly(amidoamine) dendrimers. Macromolecules, 39(14), 4795–4802.

The Composting Council (2021). Composting in schools. Retrieved from https://www.compostingcouncil.org/page/Schools

Thomas, C., Idler, C., Ammon, C., & Amon, T. (2020). Effects of the C/N ratio and moisture content on the survival of ESBL-producing Escherichia coli during chicken manure composting. Waste Management, 105, 110-118.

Tittarelli F, G. Petruzzelli, B. Pezzarossa, M. Civilni, A. Benedetti and P. Sequi. 2007. Quality and agronomic use of compost. Waste Management Series p. 119-157.

Tiwari, S., and Pradhan, M.K., (2017). Effect of rice husk ash on properties of aluminum alloys: A review. Materials Today: Proceedings, 4 (2), 486–495. Available online at www.sciencedirect.com

UNESCO (2015). Global education monitoring report 2015: Education for all 2000–2015: Achievements and challenges, 2nd ed., UNESCO, Paris, 2015. http://unesdoc.unesco.org/images/0023/002322/232205e.pdf

United Nations Children’s Fund (UNICEF) and the World Health Organization, (2020). State of the World’s Sanitation: An urgent call to transform sanitation for better health, environments, economies and societies. New York

United Nations Children’s Fund (UNICEF) and World Health Organization, (2018). Drinking water, sanitation and hygiene in schools: global baseline report. New York: Licence: CC BY-NC-SA 3.0 IGO.

United Nations Environment Programme (UNEP). (2018). 3R Implementation Guidebook for Schools. Retrieved from https://www.unep.org/resources/report/3r-implementation- guidebook-schools

National Environment Agency (NEA). (2017). 3R Guide for Schools. Retrieved from https://www.nea.gov.sg/our-services/waste-management/3r-programmes-and-resources/3r-guide-for-schools

United States Environmental Protection Agency. (2016). A guide to school composting. Retrieved from https://www.epa.gov/sites/production/files/2016-10/documents/guide- to-school-composting.pdf

United States Environmental Protection Agency. (2021). Composting At Home. Retrieved from https://www.epa.gov/recycle/composting-home

USEPA (1993). Standards for the use or disposal of sewage sludge 40 code of federal regulations part 503. US Environmental Protection Agency, Washington, DC.

Wambu, E. W., & Oyaro, N. (2020). Solid waste management in low-income countries: A review of challenges and potentials. Journal of Environmental Management, 271, 110978. https://doi.org/10.1016/j.jenvman.2020.110978

Wang, Y., Chen, L., Xie, S., & Yao, W. (2004). Effects of the nonionic surfactant Triton X- 100 on pyrene biodegradation in soil. Journal of Environmental Quality, 33(4), 1334- 1340. doi: 10.2134/jeq2004.1334.

Water, Sanitation and Hygiene (WASH), (2016). Co-Composting of Faecal Sludge and Municipal Organic Waste for Sustainable Crop Production in Southern Bangladesh. Available at https://snv.org/assets/explore/download/snv_-_co-composting_of_faecal_sludge.pdf

Zorpas, A.A., Inglezakis, V.J., and Karagiannidis, A. (2000). “Use of alternative materials in building construction waste management.” Resources, Conservation and Recycling, vol. 29, no. 1-2, pp. 89–95.

Zhu, L., Zhao, Y., Zhang, W., Zhou, H., Chen, X., Li, Y., Wei, Z. (2019). Roles of bacterial community in the transformation of organic nitrogen toward enhanced bioavailability during composting with different wastes. Bioresource technology, pp. 285, 121–326.

Basargekar, A., & Lillard, A. S. (2021). Math achievement outcomes associated with Montessori education. Early Child Development and Care, 191(7-8), 1207-1218. https://doi.org/10.1080/03004430.2020.1860955

Batubara, H. H. (2021). Media Pembelajaran Digital. PT Remaja Rosdakarya. https://books.google.co.id/books?id=Uo9DEAAAQBAJ&lpg=PA331&ots=kl_0m_UwoZ&dq=media%20pembelajaran%20digital&lr&hl=id&pg=PA331#v=onepage&q=media%20pembelajaran%20digital&f=false

Hidayat, M. T., & Listya, T. D. (2021). The implementation of social attitude assessment in elementary schools: A study of Indonesia. Ilkogretim Online, 20(1). http://dx.doi.org/10.17051/ilkonline.2021.01.48

Ishartono, N., Desstya, A., Prayitno, H. J., & Sidiq, Y. (2021). The Quality of HOTS-Based Science Questions Developed by Indonesian Elementary School Teachers. Journal of Education Technology, 5(2), 236–245. http://dx.doi.org/10.23887/jet.v5i2.33813

Mangkuto, R. A., Koerniawan, M. D., & Soelami, F. N. (2021). Daylight Annual Illuminance Investigation in Elementary School Classrooms for the Tropic of Lhokseumawe, Indonesia. Journal of Applied Science and Engineering, 25(1), 129-139. https://doi.org/10.6180/jase.202202_25(1).0013

Park, K. H., Jho, A., & Lee, M. (2021). The effect of self-choice reading on reading interest in elementary school students: focusing on book selection class in an elementary school. Journal of Korean Library and Information Science Society, 52(2), 253-274. https://doi.org/10.16981/kliss.52.2.202106.253

Purdue Online Writing Lab. (27/03/2015). APA Style. Reference list: Electronic sources (web publications). Dikutip pada 12 Maret 2017 dari https://owl.english.purdue.edu/owl/resource/560/10/ pada tanggal 5 Juni 2017.

Tambunan, H., Silitonga, M., & Sinaga, N. (2022). Parents’ involvement in elementary schools learning through flipped classrooms in Indonesia. Education 3-13, 1-12. https://doi.org/10.1080/03004279.2022.2028877

Valiente, C., Doane, L. D., Clifford, S., Grimm, K. J., & Lemery-Chalfant, K. (2021). School readiness and achievement in early elementary school: Moderation by Students' temperament. Journal of Applied Developmental Psychology, p. 74, 101265. https://doi.org/10.1016/j.appdev.2021.101265

Wang, Y., Huebner, E. S., & Tian, L. (2021). Parent-child cohesion, self-esteem, and academic achievement: The longitudinal relations among elementary school students. Learning and Instruction, 73, 101467. https://doi.org/10.1016/j.learninstruc.2021.101467

Yulianti, K., Denessen, E., Droop, M., & Veerman, G. J. (2022). School efforts to promote parental involvement: the contributions of school leaders and teachers. Educational Studies, 48(1), 98-113. https://doi.org/10.1080/03055698.2020.1740978

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