Soil erosion sensitivity of rubber plant, oil palm, and teak  in Ogan Komering Ilir District

Satria Jaya  Priatna; Ahmad Sepriansyah

doi:10.36706/jlso.13.2.2024.698

Authors

Satria Jaya Priatna Department of Soil Science, Faculty of Agriculture, Universitas Sriwijaya. Jl. Raya Palembang-Prabumulih Km 32, Indralaya, Ogan Ilir 30662, South Sumatra, Indonesia
Ahmad Sepriansyah Department of Plant Science, faculty of Agriculture), Universitas Sriwijaya. Jl. Padang Selasa No. 524, Bukit Besar, Palembang 30139, South Sumatra, Indonesia

DOI:

https://doi.org/10.36706/jlso.13.2.2024.698

Keywords:

conversion of forested land, rubber, oil palm and teak land, soil erodibility, soil physical and chemical properties

Abstract

Soil erodibility was the ease with which soil erodes. The study aimed to determine the value of soil erodibility on rubber, oil palm, and teak land at PT Waimusi agroindah. The method used was a very detailed survey, assisted by digital maps. Soil samples were taken based on the study area. Soil samples were taken at 0–30 cm deep and topsoil for soil permeability analysis as well as the completeness of the tools and materials needed. The calculation of the value of soil erodibility on rubber, oil palm, and teak land has moderate criteria. The equation of these criteria in quantitative numbers for oil palm land has a value of 0.18, which was higher than rubber land at 0.15 and teak land at 0.13. While on forest land, the soil erodibility value was 0.04, so it falls into very low criteria. The conclusion of this research was that rubber, oil palm, and teak land obtained soil erosion sensitivity values with moderate criteria, and the results of soil erosion sensitivity values on forest land were classified as very low. This research was one of a series of several factors used to determine the potential for land erosion. Further research needs to be done so that the potential for erosion could be determined from all the factors that affect the potential for erosion.

References

Achmadi, P. N., Dimyati, M., Manesa, M. D. M., & Rakuasa, H. (2023). a-Markov-based Land Cover Change Model: Case Study of North Ternate Sub-district, Ternate City. Journal of Soil and Land Resources, 10(2), 451–460. https://doi.org/10.21776/ub.jtsl.2023.010.2.28

Bahri, I., Thaha, A., & Isrun. (2016). Status of Some Soil Chemical Properties on. Journal of Agrotekbis, 4(5), 512–520.

Br.Tarigan, E. S., Guchi, H., & Marbun, P. (2014). Evaluation of Organic Material Status and Soil Physical Properties (Bulk Density, Texture, Soil Temperature) on Coffee Plantation (Coffea Sp.) in Several Districts of Dairi Regency. Journal of Agroecotechnology, University of North Sumatra, 3(1), 103124. https://doi.org/10.32734/jaet.v3i1.9474

Chen, P., & Sentosa, G. S. (2020). Comparative Analysis of Permeability Coefficient Values of Field Test and Laboratory Test Soils. JMTS: Journal of Civil Engineering Partners, 3(1), 97. https://doi.org/10.24912/jmts.v3i1.7071

Dwi Saputra, D., Rakhim Putrantyo, A., & Kusuma, Z. (2018). Relationship Between Soil Organic Matter Content and Bulk Density, Porosity, and Infiltration Rate on Salak Plantation of Purwosari District, Pasuruan Regency. Journal of Soil and Land Resources, 5(1), 2549–9793.

Fakhrudin, A. A., Kristianti, K. K. D., Churin’in, R. A., Rahmaniah, R. N., & Roidah Ida Syamsu. (2023). Implementation of Water Conservation by Planting Tree Seedlings in Pasuruan District. Jcos, 1(3), 168–175.

Ferry, M., Saad, A., & Farni, Y. (2024). Evaluation of soil fertility status during replanting of oil palm plantations on mineral soils province of jambi Evaluation of Soil Fertility Status During the Replanting Period of Oil Palm Plantations on Mineral Soils in Jambi Province. 11(1), 17–27. https://doi.org/10.21776/ub.jtsl.2024.011.1.3

Frania, L., Silva, D., Agung, A., Kesumadewi, I., & Atmaja, I. W. D. (2023). Relationship between Soil Mesofauna Diversity and Organic Matter Content in the Secondary Forest of Candikuning Village. 13(3), 466–475.

Hanifa, H., & Suwardi. (2022). The Value of Soil Erodibility on Various Landuse and Slopes in Tulis Sub-Watershed, Banjarnegara, Center Java. Scientific Journal of Agriculture, 18(2), 160–165.

Hartati, W., Kadir, S., Kehutanan, P. S., Kehutanan, F., & Lambung, U. (2023). Panjaratan subwatershed in tabunio subwatershed of tanah laut district Study of Erosion Hazard Levels in Various Land Cover Types in Panjaratan Sub- Watershed in Tabunio Watershed, Tanah Laut Regency Forestry Study Program. 06(4), 699–709.

Hasan, H., & Pahlevi, R. S. (2017). Zoning of Soil Erodibility Levels in the Mine Reclamation Area of PT Bharinto Ekatama, West Kutai Regency, East Kalimantan. Proceedings of the National Seminar of Technology IV, November, 92–99.

Holilullah, H., Afandi, A., & Novpriansyah, H. (2015). Characteristics of soil physical properties in low and high production fields at Pt Great Giant Pineapple. Journal of Agrotek Tropika, 3(2), 278–282. https://doi.org/10.23960/jat.v3i2.2014

Hotmartua, P., & Pasaribu, P. (2023). D-15 Analysis of Soil Erodibility Factors Causing Erosion in Merdeka Village, Merdeka District, Karo Regency K =. 36–40.

Injiliana, L., Widiastuti, T., & Riyono, J. N. (2021). Soil Erodibility (K) on Various Land Cover in Baru Village, Silat Hilir District, Kapuas Hulu Regency. Journal of Sustainable Forest, 8(4), 773. https://doi.org/10.26418/jhl.v8i4.44323

Jasmin, S., Ramlan, & Monde, A. (2017). Identification of Soil Physical Properties of Forest Land Conversion to Cocoa Plantation (Theobroma cacao L.) in Parigimpu'u Village, West Parigi Subdistrict, Parigi Maoutong Regency. E-J. Agrotekbis, 24(3), 214–221.

Kalaati, I., Ramlan, & Rahman, A. (2019). Level of Soil Erodibility at Several Levels of Land Slope in Labuan Toposo Village, Labuan District, Donggala Regency. E-J Agrotekbis, 7(2), 172–178.

Kehutanan, F., Mulawarman, U., Kelua, K. G., & Timur, K. (2018). 1025-3345-4-Pb. 2(1), 6–15.

Maharany, R., Febrianto, E. B., & Saragih, D. A. (2023). Improving the Chemical Properties of Rubber Plantation Soil (Havea brassiliensis) Using the Biopore Technique. … Education, Sains and …, 6(1), 239–245.

Mamangkay, B., Rahim, S., Salahudin, A. S., & Baderan, D. W. K. (2023). Forest Cover Change to Maize Monoculture in the Upt Sp3 Area, Saritani Village, Boalemo Regency Period 2013-2022. Jambura Edu Biosfer Journal, 5(1), 22–28. https://doi.org/10.34312/jebj.v5i1.15720

Megayanti, L., Zurhalena, Z., Junedi, H., & Fuadi, N. A. (2022). Assessment of some physical features of soil planted with chicken coffee at different ages and grades (Case Study of Palm Plantation in Simpang Tuan Village, Mendahara Ulu District, East Tanjung Jabung). Journal of Soil and Land Resources, 9(2), 413–420. https://doi.org/10.21776/ub.jtsl.2022.009.2.22

Mubarokah, A., & Hendrakusumah, E. (2022). Effects of Plantation Land Conversion on Environmental Ecosystems. Journal of Urban and Regional Planning Research, 1–16. https://doi.org/10.29313/jrpwk.v2i1.754

Murni, S. D., Nusantara, R. W., Manurung, R., Umran, I., Pertanian, F., & Tanjungpura, U. (2023). Department of Soil Science. 25(3), 2183–2189.

Najmudin, A., Oki Widhanarto, G. O. W., & Iswan Dewantara. (2022). Perception of Beringin Village Community on Forest Land Use Change to Oil Palm Plantation. 1(3), 772–781.

Nugroho, A. A. (2022). Spatial Analysis of Land Use Change Against the Detailed Spatial Plan (RDTR) in Klaten Utara Subdistrict Using Geographic Information System (GIS) Years 2012-2020. 1–17.

Oktavia, W. (2018). Soil Erosion and Surface Flow against Land Use in Nagari Alahan Panjang, Solok Regency. Azimut Journal, 1(I), 26. https://doi.org/10.31317/jaz.v1ii.318

Puspita Sari, D. (2023). Soil Fertility Assessment of Rubber Plantations in Kupitan District, Sijunjung Regency. Nusantara Multidisciplinary Scientific Journal (JIMNU), 1(2), 103–107. https://doi.org/10.59435/jimnu.v1i2.138

Rahayu, D., Rahayu, W.P., Lioe, H.N., Herawati, D., Broto, W., dan A. (2015). Effect of Temperature and Humidity on Growth Fusarium verticilloides BIO 957 and Proction Furmonisin B1. Agritech, 35(2), 156–163.

Riduan, Junaidi, & Hayati, R. (2018). Plantation and Tropical Land ISSN 2088-6381 Study of soil physics on rubber and oil palm plantation in village rasan kecamatan ngabang district landak study of soil physics on rubber and oil palm plantation in village rasan subdistrict ngabang district lan. Tropical Plantations and Land, 8(1), 18–28.

Rosita, S., & Baharuddin, M. (2023). Physical and Chemical Properties of Hapludands-Eutrudepts Association Soils on Floating Stones in Montong Gading District, East Lombok Physical and Chemical Properties of Soil Association Hapludands-Eutrudepts on Stome Rock in Montong Gading Sub-District, Lom.

Sakiah, S., Firmansyah, A., & Arfianti, D. (2020). Biological Properties of Soil on Land Application and Without Application of Empty Palm Oil Bunches in Adolina PT Perkebunan Nusantara IV. Journal of Applied Agricultural Research, 20(1), 11. https://doi.org/10.25181/jppt.v20i1.1493

Serman Nikolaus, Maria Bano, Leta Rafael Levis, Santhy Chamdra, Y. S. (2020). ermeability Analysis of Topsoil in Different Land Units in Binuang sub-basin, South Kalimantan. Journal of Agricultural Agrotechnology, 9(1), 62.

Sulistyaningrum, D., Susanawati, L. D., & Suharto, B. (2014). The Effect Of Soil Physico-Chemical Characteristics to Soil Erodibility Index And Land Conservation Efforts. Journal of Natural Resources & Environment, 2(1), 55–62.

Suryani, I. (2014). Permeability of Various Soil Depths in Forest Land Conversion Areas. Journal of Agrisistem, 10(1), 92–98.

Tanaman, P., Di, K., Wajak, K., Naufal, R., Sholikah, D. H., & Wicaksono, K. S. (2024). Soil erodibility analysis and its relationship with Soil Erodibility Analysis and Its Relationship to Coffee Production in Wajak District , Malang Regency. 11(1), 125–134. https://doi.org/10.21776/ub.jtsl.2024.011.1.14

Tipe, B., Lahan, P., Desa, D. I., Balong, K., & Menggunakan, K. P. (2023). Prediction of soil's ability to hold water in. 25(2), 66–73.