DOI: https://doi.org/10.61435/jbes.2025.19952

The Effect of Fallowing Time on Physical and Chemical Parameters of Soil in Shifting Agriculture in Lore and Tutuala, East Timor

Master of Environmental Science, Postgraduate School, Universitas Diponegoro, Jl Imam Bardjo, SH No.3-5 Semarang, Indonesia 50241, Indonesia

Received: 7 Jan 2025; Revised: 20 May 2025; Accepted: 26 May 2025; Available online: 1 Aug 2025; Published: 7 Dec 2025.
Editor(s): Marcelinus Christwardana
Open Access Copyright (c) 2025 The Author(s). Published by Centre of Biomass and Renewable Energy (CBIORE)
Creative Commons License This work is licensed under a Creative Commons Attribution 4.0 International License.

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Abstract
The shifting cultivation system is a traditional farming system that is commonly used by indigenous communities in Timor Leste until now. Lautem Regency, Timor Leste still has the habit of implementing a shifting cultivation system, namely by clearing a certain area of land by cutting down and burning the forest and then planting it with various food crops such as corn, upland rice, beans, cassava and others. The land will be used for 2-3 years and will be abandoned because the land is no longer productive and new land will be opened that is still productive. This causes natural disasters, such as landslides, reduced water sources, floods, reduced biodiversity and micro and macro nutrients, organic matter, soil pH. So there is a need for research regarding fallowing time and the chemical properties of soil in shifting farming systems. The aim of this research is to determine the effect of fallowing time on the nutrient content N, P, K in the soil, the level of soil acidity (pH), and EC and C-organics in the soil. The research was conducted in Lautem Regency, Timor-Leste and at the Laboratory of the Ministry of Agriculture and Fisheries of Timor Leste, carried out for two (2) months, namely in May and June 2022. The research used quantitative descriptive methods. Primary data collection is based on the needs and objectives of representing soil element data from each sample. Data obtained from the field is then analyzed in the laboratory to obtain quantitative data from each sample for analysis/comparison.  The research was conducted in two different areas, namely Lore and Tutuala sub-districts. There are differences in the nutrient content of N, P and K at each fallow age of the land with the highest results of N, P and K being the fallow age of the land more than 6 years. The results of the research show that the pH of the land in Lore and Tutuala Districts is from fallow age 3 to fallow age more than 6 years and months is still the standard for agricultural cultivation, namely the average pH is 6-7.2, while the EC cation exchange capacity is still relatively low, but the CEC (EC) is highest at fallow age 6 years, C - organic is classified as standard for agricultural land with the highest C - organic content at a fallow age of more than 6 years.
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Keywords: Shifting Cultivation; Soil Fertility; Land Productivity; Soil Nutrients; Agricultural Sustainability

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Section: Research Articles
Language : EN
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  3. Arsyad, S. (1982). Konservasi Tanah dan Air. Departemen Ilmu Tanah, Fakultas Pertanian IPB, Bogor
  4. Brearley, F. Q., Press, M. C., & Scholes, J.D. (2003). Nutrients Obtained From Leaf Litter Can Improve The Growth Of Dipterocarp Seedling. Phytologist, 160(1), 101-110. https://doi.org/10.1046/j.1469-8137.2003.00851.x
  5. Bot, A. & Benites, J. (2005). The importance of soil organic matter key to drought-resistant soil and sustained crop production. FAO soils bulletin. 80p
  6. Butarbutar, T. (2012). Agroforestry for climate change adaptation and mitigation
  7. Citraresmini, A. 2009. Fosfor Tersedia dan Serapan P-Tanaman yang Ditetapkan dengan Teknik Isotop 32P dan Hasil Padi Sawah (Oryza sativa L.) Akibat Pemberian Pupuk P dan Bahan Organik pada Tanah Ultisols. Thesis. Program Pascasarjana Universitas Padjadjaran Bandung
  8. Deus, E. J. D., Windia, W., & Astarini, I. A. (2016). Management Strategy Of Nino Coni Santana National Park At Tutuala Village, Tutuala Sub-Districk, Lautem Distrck, Tomor-Leste. Ecotrophic, 10(2), 109-115, https://doi.org/10.24843/EJES.2016.v10.i02.p05
  9. FAO. (2020). Global Forest Resources Assessment. Main report. Rome. https://afocosec.org/knowledge/country-information-hub/timor-leste/
  10. Febriadi, I. A. (2019). Study of Socio-Economic and Cultural Aspects of the Community in Carrying Out Shifting Cultivation Activities by the Ibasuf Village Community, Aitinyo District, Maybrat Regency. Median, 11(1), 17-25. http://doi.org/md.v11i1
  11. Foth, H.D. 1990. Fundamentals of Soil Science. 8th Edition. USA. John Wiley and Sons Inc. New York
  12. Firmansyah, M. A., and Subowo G. (2012). Dampak Kebakaran Lahan terhadap Kesuburan Fisik, Kimia, dan Biologi Tanah Serta Alternatif Penanggulangan dan Pemanfaatannya. Jurnal Sumberdaya Lahan, 6(2), 89-100
  13. Gunawan, G., Wijayanto, N., Budi, S.W. (2019). Karakteristik Sifat Kimia Tanah dan Status Keauburan Tanah pada Agroforesri Tanaman Sayuran Berbasis Eucalyptus Sp. Tropical Silviculture. 10 (2), 63-69, https://doi.org/10.29244/j-siltrop.10.2.63-69
  14. Hardjowigeno, S. 1995. Ilmu Tanah. Jakarta. Akademika Pressindo
  15. Lailatuz, Z. (2024). Review Study: Comparison of Carbon Stocks in Peat Soil and Mangrove Soil. Tropical Silviculture, 15 (01), 27-30. http://dx.doi.org/10.29244/j-siltrop.15.01.27-30
  16. Kaliman,. W. (2011). Biophisical Analize and Social Economic Of DAS Comoro Community From Sustainable De-velopment Perspective. Jurnal Wahan Tropic, (01) 40-143
  17. Matinahoru, J. M. (2018). Studi Perladangan Berpindah dari Suku Wemale di Kecamatan Inamosol Kabupaten Seram Bagian Barat. Agrologia, 2(2). https://doi.org/10.30598/a.v2i2.262
  18. Muklis. (2007). Soil and Plant Analysis. University of North Sumatra Press, Medan
  19. Mustofa, M. S. (2011). Behavior of forest village communities in utilizing land under stands. Jurnal Komunitas, 3(1), 1-11. https://doi.org/10.15294/komunitas.v3i1.2287
  20. Novizan. (2002). Effective Fertilization Guidelines. PT Agro Media Pustaka: Tangerang
  21. Nurmegawati, W., Makruf, E., Sugandi, D., T. Rahman. (2012). Tingkat kesuburan dan rekomendasi pemupukan N, P, dan K tanah sawah Kabupaten Bengkulu Selatan. Journal of Soil and Land Utilization Management, 9 (2)11-18. https://doi.org/10.25077/js.9.2.61-68.2012
  22. Pane, Y., Rauf, A., Razali. (2016). Soil Chemical Characteristics Under Several Types of Stands in the Sub-Das Petani District of Deli Serdang. Journal Agroecotechnology, 4 (4), 2428-2434
  23. Patti, P.S., Kaya., Silahooy, C.H. (2013). Analisis Status Nitrogrn Tanah dalam Kaitanya dengan Serapan N oleh Tanaman Padi Sawah di Desa Waimital, Kecamatan Kairatu, Kabupaten Seram bagian Barat. Agrologi, 2 (1) 51-58. https://doi.org/10.30598/a.v2i1.278
  24. Prabowo, R. & Subantoro, R. (2017). Analisis tanah sebagai indikator tingkat kesuburan lahan budidaya pertanian di Kota Semarang. Cendakia Eksata, 2 (2) 59-64. https://doi.org/10.3194/ce.v2i2.2087
  25. Rifqi, M. (2017). Ladang Berpindah dan Model Pengembangan Pangan Indonesia (Shifting cultivation and Indonesian food development model). National Conference Inovation and Application of Technology in Industry, 3 (2). https://doi.org/10.36040/seniati.v3i2.1940
  26. Setiawan, F., Harlia, E., Hidayati, Y.A. (2023). The Role Of Maggot as a Detrivitor In Poultry Wate Processing. Jurnal Teknologi Hasil Peternakan, 4 (2) 213-221. https://doi.org/10.24198/jthp.v4i2.50819
  27. Rosmarkam, A., Yuwono, N.W. 2002. Ilmu Kesuburan Tanah. Kanisius. Yogyakarta
  28. Ruddiman, W. (2007). Losses of Soil Carbon Plows, and Petroleum ; How Humans Took Control of Climate. Prince-ton, NJ; Princeton University Press. Page 202
  29. Soares, E. M., Antara, I. M., Adhika, I. M, (2017). Strategi Pengelolaan Kawasan Lindung Manucoco Berbasis Masyarakat di Kota Administratif Atauro, Dili Timor-Leste. Ecotrophic, 11(1). https://doi.org/10.24843/EJES.2017.v11.i01.p03
  30. Subagyo, H.,Suharta, N. Siswanto, A.B. (2004). Tanah-Tanah Pertania di Indonesia. Jurnal Litbang Pertanian, 25(2), 21-66
  31. Suntoro. (2003). The Role of Organic Materials on Soil Fertility and Its Management Efforts. Faculty of Agriculture, Sebelas Maret University. Sebelas Maret University Press. Jakarta
  32. Tisdale, S.L., W.L. Nelson, J.D. Beat, and J.L. Havlin. (1993). Soil Fertility and Fertilizers. USA. MacMillan Publ. Co. New York
  33. Utami, S.N., & Handayani, S. (2003). Sifat Kimia Entisol Pada Sistem Pertanian Organik. Agricultural Science, 10(2), 63-69
  34. Widodo, S. (2007). Pembangunan dan Politik Pertanian di Indonesia. Journal of Sustainable Agriculture, 22(1), 26-35. https://doi.org/10.20961/carakatani.v22i1.20534

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