Analysis Of Community And Practitioner Perceptions Of Biopori-Based Water Treatment Technologies In The Context Of Flood Resistance

Authors

  • Rahmawati Faculty of Civil Engineering, Universitas Muhammadiyah Parepare, Jl. A. Yani KM 6 Kota Parepare, Indonesia
  • Nurhapsa Faculty of Agricultural, Universitas Muhammadiyah Parepare, Jl. A. Yani KM 6 Kota Parepare, Indonesia,
  • Ahmad Fahmi Faculty of Civil Engineering, Universitas Muhammadiyah Parepare, Jl. A. Yani KM 6 Kota Parepare, Indonesia

DOI:

https://doi.org/10.25299/jgeet.2024.9.04.18451

Keywords:

biopori, water harvest technology, flood resistance, community perception, practitioner perception

Abstract

This study explores the differences in perception between communities and practitioners regarding biopori-based water management technology in the context of flood management in Passeno Village, Baranti District, Sidenreng Rappang Regency, South Sulawesi Province, Indonesia. Employing a quantitative approach, the study involved 30 respondents, consisting of 27 members of farmer groups and 3 practitioners. Data were collected through surveys using structured questionnaires and analyzed using descriptive and inferential statistical techniques. The results indicated that communities rated the effectiveness and ease of implementation of biopori technology higher than practitioners did. The main obstacles identified were a lack of knowledge and government support, with proposed solutions including intensive investigations and government subsidies. Although no significant differences in perception were found between the two groups, this study emphasizes the importance of education, government support, and field experience in influencing the acceptance of biopori technology. The uniqueness of this research lies in its specific focus on biopori technology, the rare comparison of perceptions between communities and practitioners, and its systematic quantitative approach. Additionally, the study successfully identifies obstacles and practical solutions while encouraging better collaboration between communities and practitioners, thereby potentially providing significant contributions to policies and practices in water resource management in flood-prone areas.

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References

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Rusu, L., Suceveanu, E., Blaga, A. C., Nedeff, F., & Suteu, D. (2023). Insights into Recent Advances of Biomaterials Based on Microbial Biomass and Natural Polymers for Sustainable Removal of Pharmaceuticals Residues. Polymers, 15(13), 2923

Sujono, J. (2023). Identifying potential sites for rainwater harvesting ponds (embung) in Indonesia’s semi-arid region using GIS-based MCA techniques and satellite rainfall data. PLOS ONE, 18(6), e0286061–e0286061.

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Zhao, Y., Wang, D., & Duan, H. (2023). Effects of Drought and Flooding on Growth and Physiology of Cinnamomum camphora Seedlings. Forests, 14(7), 1343.

Alsumayt, A., El-Haggar, N., Amouri, L., Alfawaer, Z. M., & Aljameel, S. S. (2023). Smart Flood Detection with AI and Blockchain Integration in Saudi Arabia Using Drones. Sensors, 23(11), 5148.

Bian, Z. (2023). Unveiling the Value of Nature: A Comprehensive Analysis of the Ecosystem Services and Ecological Compensation in Wuhan City’s Urban Lake Wetlands. Water, 15(12), 2257.

Brice, R. P., Anastasia, S., Somar, K., Corinne, L. G. L., Karine, W., Vincent, G., & Gaël, P. (2022). Continuous degradation of micropollutants in real world treated wastewaters by photooxidation in dynamic conditions. Water Research, 221.

Canwat, V. (2023). Social innovations and drivers in flood early warning systems: A community‐based transboundary perspective from Elegu flood plain in Northern Uganda. Journal of Flood Risk Management.

Carvalho, P., & Spataru, C. D. (2023). Gaps in the governance of floods, droughts, and heatwaves in the United Kingdom. Frontiers in Earth Science, 11.

Chen, S. Y., Gu, J., Li, Y., Yang, G., & Yu, R. (2023). Biolysed Sludge Composting for Nitrogen Conservation and Humification Improvements and Mechanisms. Sustainability, 15(13), 10119.

Connelly, A., Snow, and D. A., Carter, J., Wendler, J., Lauwerijssen, R. B. G., Barker, A., Handley, J., Haughton, G., & Rothwell, J. (2023). What approaches exist to evaluate the effectiveness of UK-relevant natural flood management measures? A systematic map. Environmental Evidence, 12(1), 1–22.

Djuwendah, E., Karyani, T., Wulandari, E., & Pradono, P. (2023). Community-Based Agro-Ecotourism Sustainability in West Java, Indonesia. Sustainability, 15(13), 10432.

Findlater, L., Robin, C., Hopgood, K., Waite, T. D., Rubin, G., Beck, C. R., & Oliver, I. (2023). Help-seeking following a flooding event: a cross-sectional analysis of adults affected by flooding in England in winter 2013/14. European Journal of Public Health.

Frimpong, S. K., Sunindijo, R. Y., Wang, C. C., Boadu, E. F., & Dansoh, A. (2023). A Conceptual Framework to Promote the Transition to Positive Mental Health among Young Construction Workers. Buildings, 13(4), 1025.

Jafarinejad, S., Hernandez, R. R., Bigham, S., & Beckingham, B. S. (2023). The Intertwined Renewable Energy–Water–Environment (REWE) Nexus Challenges and Opportunities: A Case Study of California. Sustainability, 15(13), 10672.

Jones, A. E., Kuehnert, J., Fraccaro, P., Meuriot, O., Ishikawa, T., Edwards, B., Stoyanov, N., Remy, S. L., Weldemariam, K., & Assefa, S. (2023). AI for climate impacts: applications in flood risk. Npj Climate and Atmospheric Science, 6(1).

Khan, S. D., & Basalamah, S. (2023). Multi-Scale and Context-Aware Framework for Flood Segmentation in Post-Disaster High Resolution Aerial Images. Remote Sensing, 15(8), 2208.

Kumar, V., Azamathulla, H., Sharma, K. V., & Mehta, D. (2023). The State of the Art in Deep Learning Applications, Challenges, and Future Prospects: A Comprehensive Review of Flood Forecasting and Management. Sustainability, 15(13), 10543.

Li, J., Jiang, Y., Zhai, M., Gao, J., Yao, Y., & Li, Y. (2023). Construction and application of sponge city resilience evaluation system: a case study in Xi’an, China. Environmental Science and Pollution Research, 30(22), 62051–62066.

Loizidou, X. I., Petsa, D., & Anzidei, M. (2023). Adapting to sea level rise: participatory, solution-oriented policy tools in vulnerable Mediterranean areas. Environment Systems and Decisions, 1–19.

Macioszek, E. (2023). A Spatial Decision Support System for Modeling Urban Resilience to Natural Hazards. Sustainability, 15(11), 8777.

Meissner, R., Biggs, R., Pahl-Wostl, C., Stuart-Hill, S., & Sitas, N. (2023). Exploring social processes in transformation: the case of a collaborative water partnership in South Africa. Ecosystems and People, 19(1).

Mizuki, C., & Kuzuha, Y. (2023). Frequency Analysis of Hydrological Data for Urban Floods—Review of Traditional Methods and Recent Developments, Especially an Introduction of Japanese Proper Methods. Water, 15(13), 2490.

Park, D., & You, H. (2023). A Digital Twin Dam and Watershed Management Platform. Water, 15(11), 2106.

Rahman, Z. ur, Ullah, W., Bai, S., Ullah, S., Jan, M. A., & Tayyab, M. N. (2023). GIS-based flood susceptibility mapping using bivariate statistical model in Swat River Basin, Eastern Hindukush region, Pakistan. Frontiers in Environmental Science, 11.

Raikes, J., Henstra, D., & Thistlethwaite, J. (2023). Public Attitudes Toward Policy Instruments for Flood Risk Management. Environmental Management.

Rayburg, S., Neave, M., & Thompson-Laing, J. (2023). The Impact of Flood Frequency on the Heterogeneity of Floodplain Surface Soil Properties. Soil Systems, 7(3), 63.

Recent Strategies and Future Recommendations for the Fabrication of Antimicrobial, Antibiofilm, and Antibiofouling Biomaterials. (2023). International Journal of Nanomedicine, Volume 18, 3377–3405.

Rusu, L., Suceveanu, E., Blaga, A. C., Nedeff, F., & Suteu, D. (2023). Insights into Recent Advances of Biomaterials Based on Microbial Biomass and Natural Polymers for Sustainable Removal of Pharmaceuticals Residues. Polymers, 15(13), 2923.

Sujono, J. (2023). Identifying potential sites for rainwater harvesting ponds (embung) in Indonesia’s semi-arid region using GIS-based MCA techniques and satellite rainfall data. PLOS ONE, 18(6), e0286061–e0286061.

Teleubay, Z. B., Yermekov, F., Tokbergenov, I., Toleubekova, Z. Z., Assylkhanova, A. Z., Balgabayev, N., & Kovacs, Z. (2023). Identification of Potential Farm Pond Sites for Spring Surface Runoff Harvesting Using an Integrated Analytical Hierarchy Process in a GIS Environment in Northern Kazakhstan. Water, 15(12), 2258.

Zhao, Y., Wang, D., & Duan, H. (2023). Effects of Drought and Flooding on Growth and Physiology of Cinnamomum camphora Seedlings. Forests, 14(7), 1343.

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Published

2024-11-28 — Updated on 2024-12-27

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Vol. 9 No. 04 (2024): JGEET Vol 09 No 04 : December (2024)

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Review Article

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