Management of the Saddang River Sand Mining Area, Pinrang Regency, South Sulawesi

Arsyad; Ruslan Bauna; Hamzah; Muh. Aris Arifin; Jamaluddin; Eris Nurdirman; Reno

doi:10.55927/esa.v2i4.6159

Authors

Arsyad Sekolah Tinggi Teknik Baramuli, Pinrang
Ruslan Bauna Sekolah Tinggi Teknik Baramuli, Pinrang
Hamzah Sekolah Tinggi Teknik Baramuli, Pinrang
Muh. Aris Arifin Sekolah Tinggi Teknik Baramuli, Pinrang
Jamaluddin Sekolah Tinggi Teknik Baramuli, Pinrang
Eris Nurdirman Sekolah Tinggi Teknik Baramuli, Pinrang
Reno Sekolah Tinggi Teknik Baramuli, Pinrang

DOI:

https://doi.org/10.55927/esa.v2i4.6159

Keywords:

Saddang River, Sand Mining, Replenishment, Production Volume

Abstract

The aim of the research is to obtain an overview of the condition of the Saddang River in order to manage the sand mining area, taking into account environmental, economic and socio-social aspects. Various studies show that river sand mining can provide direct and indirect economic benefits to local communities, as well as environmental damage to rivers. However, research on Saddang River sand mining is still very minimal. The data collection methods used consist of literature studies to collect various reading materials that support and support research, field surveys to obtain data directly from the field, presentation of question sheets (questionnaires) and interviews on issues that are in accordance with the research theme. Focus Group Discussion (FGD) to examine stakeholders and local communities. Physical condition of the river body and replenishment rate using UPTD data for the Saddang Watershed. Management with an integrated approach includes economic, environmental and social-social aspects, by combining two different paradigm approaches, namely positivistic and constructivist, which is believed to be able to produce a sustainable management strategy for sand mining activities in the Saddang River, Pinrang Regency.

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References

Anas, A. V., Suriamihardja, D.A., Pallu, S., Irfan, U.R. (2012). Pemodelan Dinamis Supply Demand Material Konstruksi, Prosiding Konferensi Nasional Pascasarjana Teknik Sipil (KNPTS) 2012, 7 Desember 2012, ISSN 2302 – 9080.

Basavarajappa H.T, Manjunatha M.C, Jeevan. L. (2014 Sand Mining , Management and Its Environmental Impact in Cauvery and Kabini River Basins of Mysore District. International Journal of Civil Engineering and Technology. www.jifactor.com

Bederina , M., Makhloufia, Z., Bounouaa, A., Bouziani, T., Queneudec, M. (2013). Effect of partial and total replacement of siliceous river sand with limestone crushed sand on the durability of mortars exposed to chemical solutions. Contsruction and Building Materials, vol. 47, pp. 146–158, 2013.

Blackman, R., (2009). Project Cycle Management., Resourcing Orfanisations with Opportunities for transformation and sharing (ROOTS 5)., Tearfund UK.

Bravard, J., and M. Goichot, M. (2014). Geography of Sand and Gravel Mining in the Lower Mekong River First Survey and Impact Assessment,” EchoGéo J., vol. 26, no. 2013, 2015.

Brescancin, F., Dobsinska, Z., De Meo, I., Salka, J., Paletto, A. (2017). Analysis of stakeholders' involvement in the implementation of the Natura 2000 network in Slovakia. www.elsevier.com/locate/forpol. Forest Policy and Economics 78 (2017) 107–115.

Chevallier, R. (2014). Illegal Sand Mining in South Africa. Governance of Africa’s Resources Programme

Dinas Perindustrian, Pertambangan, Energi dan Mineral kab. Pinrang. (2015). Daftar Nama Usaha Pengelolaan Tambang Yang Tidak Memiliki Izin Usaha Pertambangan (IUP) Keadaan 2015.

Dung, N. M. (2011) River Sand Mining and Management: A Case Of Cau River In Bac Ninh Provine, Vietnam,” Economy and Environment Program for Southeast Asia (EEPSA), vol. 2011–RR7.

Ferri, L.M., Pedrini, M., Pilato, V. (2016). The management of stakeholder dialogue in different institutional contexts: an empirical study on FTSE4GOOD companies, Journal of Cleaner Production (2016), http://dx.doi.org/10.1016/j.jclepro.2016.01.100 www.elsevier.com/ locate/jclepro.

Gunaratne, L.H.P. (2010). Can River Sand Mining Be Sustainable ? Policy Options From Sri Lanka. Economy and Environment Program for Southeast Asia. Retrieved from economy and Environment Program for Southeast Asia 22 Cross Street #0255 South Bridge Court Singapore 048421. pp. 94–97. www.eepsea.org

Ikhsan, J., Fujita, M and Takebayashi, H. (2009). Sustainable Sand Mining Management in Merapi Area Using Groundsills. Annuals of Disas. Prev. Res. Inst., Kyoto Univ., No. 52 B, 2009 Sustainable, (52).

Jabbar, M.T., and C. Xiaoling, C. (2011). Remote Sensing and GIS Application in the Detection of Environmental Degradation Indicators,” vol. 14, no. 1, pp. 39–47.

Juan, D.S., Gelcich, S., Fernandez, M. (2017). Integrating stakeholder perceptions and preferences on ecosystem services in the management of coastal areas. www.elsevier.com/locate/ocecoaman. Ocean & Coastal Management 136 (2017) 38e48.

Kondolf, G. M. (1997). Hungry Water : Effects of Dams and Gravel Mining on River Channels, Environmental Management Vol. 21, No. 4, pp. 533–551. https://www.wou.edu/las/physci/taylor/g407/kondolf_97.pdf.

Langer, W.H., Drew, L.J., and J. S.. Sachs, J.S. (2004). Aggregate and the Environment. American Geolical Institute- US Geological Survey ISBN: 0-922152-71-3. 2004.

Lostarnau, C., Oyarzun, J., Maturana, H., Soto, G., et.al. (2011). Stakeholder participation within the public environmental system in Chile: Major gaps between theory and practice. http://doi:10.1016/j.jenvman.2011.05.008. www.elsevier.com/locate/jenvman.

Luo, X., Zeng, E.Y., Ji, R., and Wang, C. (2007). Effects of in-channel sand excavation on the hydrology of the Pearl River Delta , China,” J. Hydrol., pp. 230–239.

Malaysia Department of Irrigation and Drainage (DID), . (2009). River Sand Mining Management Guideline

Mattamana, B. A., Varghese, S., Paul, K. (2013). River Sand Inflow Assessment and Optimal Sand Mining Policy Development. International Journal of Emerging Technology and Advanced Engineering, 3(3).

Melton, B.P.E. (2009). In-stream gravel mining impacts and environmental degradation feedback associated with gravel mining on the Rio Tigre of the OSA Peninsula , Costa Rica , and the proposed ADI Jimenez Gravel Mining Concession

Ministry of Environment, Forest and Climate Change Government of India, 2015. Sustainable Sand Mining management Guideline,

Mitra, M. dan Sing, S. (2015). GIS in Demarcation, Management and Planning of Sand Mining Zone. International Journal of Scientific Engineering and Research (IJSER). Volume 3 Issue 10. Paper ID: IJSER15542, pp 137 – 143. www.ijser.in

Shaji, J., Anilkuar, R. (2014). Socio-Environmental Impact of River Sand Mining: An Example from Neyyar River, Thiruvananthapuram District of Kerala, India. IOSR Journal Of Humanities And Social Science, 19(1), 01–07. Retrieved from http://www.academia.edu/7986051/Socio.

Sistem Manajemen perijinan terpadu Kab Pinrang. (2015). Surat Izin Usaha Pertambangan.

Thirumalai, P., Sudha, A., Manivel, P., Senthilkumar, R. (2015). Sand Quarry Lcations On The Segment of Kollidam River andf Its Impact On Rural Environment Using Spatial Information Technolgy ,” vol. 6, pp. 3239–3244.

UNEP. (2014). The mining of sand , a non-renewable resource,” GreenFacts, pp. 1–7.

UNEP-GEAS. (2014). Sand , rarer than one thinks, vol. 2012, no. March, pp. 1–15.

Wang, Z., Ding, J., Yang, G. (2012). Risk analysis of slope instability of levees under river sand mining conditions. Water Sci. Eng. J., vol. 5, no. 3, pp. 340–349.

Wibisono, B. (2008). Model Kebijakan Pengelolaan Lingkungan Pertambangan Mineral Yang Berkelanjutan (Studi Kasus : Pengelolaan Lingkungan Mod-ADA di Kabupaten Mimika , Papua ).