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Soil erosion control in immature oil palm plantation

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The objectives of developing oil palm plantations should feasible economically and without causing massive erosion. This research proposes soil and water conservation strategies that are ideal and optimal for oil palm cultivation depending on land capability class. The conservation test for plants was performed according to land capability classes on a plot measuring 22 m × 4 m. Runoff and erosion rates were measured using Multislot Divisor Method. Nutrient leaching was analysed based on the content of C-organic (Ctot) (Walkley–Black method), total nitrogen (Ntot) (Kjeldahl method), P-available (Bray-1 method) and K2O (extraction with 1N NH4OAc at pH 7.0). From the results, land capability class III, cover crops (soybean) + manure (P3) treatment effectively reduced runoff and soil erosion (22.63 m3∙ha–1∙y–1 and 13.04 Mg∙ha–1∙y–1), as well as nutrient leaching, compared to other treatments. Furthermore, sediment trap + cover crop + manure (P3) controlled runoff, erosion and nutrient leaching on land capability class IV, producing the lowest runoff (129.40 m3∙ha–1∙y–1), soil erosion (11.39 Mg∙ha–1∙y–1), C-organic (1.3%), and P (1.95 mg kg–1). Soil conservation treatment significantly reduced erosion and runoff (p < 0.05) on land capability class VI. The bench terrace + cover plants + manure treatment-controlled runoff, erosion, and soil nutrient leaching.
Wydawca
Rocznik
Tom
Strony
47--54
Opis fizyczny
Bibliogr. 32 poz., fot., rys., tab.
Twórcy
  • Almuslim University, Faculty of Agriculture, Department of Agrotechnology, Bireuen, Aceh, 24261, Indonesia
autor
  • Almuslim University, Faculty of Agriculture, Department of Agrotechnology, Bireuen, Aceh, 24261, Indonesia
autor
  • University of Trisakti, Faculty of Landscape Architecture and Environmental Technology, Department of Landscape Architecture, Jakarta, Indonesia
Bibliografia
  • ARSYAD S. 2010. Konservasi tanah dan air [Soil and water conservation]. 10th ed. Bogor. IPB Press. ISBN 978-493-003-2. pp. 496 [In Indonesian].
  • BAH A., HUSNI M.H.A., TEH C.B.S., RAFII M.Y., SYED OMAR S.R., AHMED O.H. 2014. Reducing runoff loss of applied nutrients in oil palm cultivation using controlled-release fertilizers. Advances in Agriculture. Vol. 2014. Art. ID 285387. DOI 10.1155/2014/285387.
  • BPS 2014. Statistik kelapa sawit Indonesia 2014 [Indonesian oil palm statistics]. Badan Pusat Statistik. Jakarta. pp. 76. [Access 4.8.2020]. Available at: https://media.neliti.com/media/publications/48713-ID-statistik-kelapa-sawit-indonesia-2014.pdf
  • BPS Bireuen 2014. Komposisi dan produktivitas keadaan perke-bunan rakyat tanaman kelapa sawit di Kabupaten Bireuen Tahun 2013. Di: Bireuen dalam angka 2014 [Composition and productivity of oil palm smallholders estates of Bireuen District, 2013. In: Bireuen in figures 2014] [online]. Badan Pusat Statistikka bupaten Bireuen pp. 265. [Access 4.08.2020]. Available at: http://bappeda.bireuenkab.go.id/wp-content/up-loads/2015/04/BIREUEN-Dalm-Angka-2014_revisi.com-pressed.pdf
  • BRATA K.R. 1998. Pemanfaatan jerami padi sebagai mulsa vertikal untuk pengendalian aliran permukaan, erosi dan kehilangan unsur hara dari pertanian lahan kering [Utilization of rice straw as a vertical mulch for surface flow control, erosion and loss of nutrients from dryland agriculture]. Jurnal Ilmu Tanah dan Lingkungan. Vol. 1(1) p. 21–27.
  • CHENU C., BISSONNAIS Y.L., ARROUAYS D. 2000. Organic matter influence on clay wettability and soil aggregate stability. Soil Science Society of America Journal. Vol. 64 p. 1479–1486. DOI 10.2136/sssaj2000.6441479x.
  • DASTUR SYAH M.R, ALIBASYAH, SYAMAUN A.A. 2013. Prediksi erosi pada beberapa tingkat umur kelapa sawit (Elaeis guineensis Jacq) [The prediction of soil erosion on various age of oil palm]. Jurnal Manajemen Sumberdaya Lahan. Vol. 2. No. 4 p. 304–316.
  • EL KATEB H., ZHANG H.F., ZHANG P.C., MOSANDL R. 2013. Soil erosion and surface runoff on different vegetation covers and slope gradients: A field experiment in Southern Shaanxi Province, China. Catena. Vol. 105 p. 1–10. DOI 10.1016/j.catena. 2012.12.012.
  • HARIBOWO R., ANDAWAYANTI U., LUFIRA R.D. 2019. Effectivity test of an eco-friendly sediment trap model as a strategy to control erosion on agricultural land. Journal of Water and Land Development. No. 42 (VII–IX) p. 76–82. DOI 10.2478/jwld-2019-0047.
  • HULUGALLE N.R., LAL R., TER KUILE C.H.H. 1986. Amelioration of soil physical properties by Mucuna after mechanized land clearing of a tropical rain forest. Soil Science. Vol. 141(1) p. 219–224.
  • IBEWIRO B., SANGINGA N., VANLAUWE B., MERCKX R. 2000. Nitrogen contributions from decomposing cover crop residues to maize in a tropical derived savanna. Nutrient Cycling in Agroecosystems. Vol. 57 p. 131–140.
  • ILE E., HAMADINA M.K., ZUFA K., HENROT J. 1996. Note on effects of a Mucuna pruriens var. utilis crop on the growth of maize (Zea mays) on an acid Ultisol in southeastern Nigeria. Journal of Field Crops Research. Vol. 48(2–3) p. 135–140. DOI 10.1016/S0378-4290(96)01028-3.
  • ISMAIL M., YACOUB R.K. 2012. Digital soil map using the capability of new technology in sugar beet area, Nubariya, Egypt. The Egyptian Journal of Remote Sensing and Space Science. Vol. 15. Iss. 2 p. 113–124. DOI 10.1016/j.ejrs.2012.08.001.
  • JUARSAH I., YUSTIKA R.D., ABDURRAHMAN A. 2008. Pengendalian erosi dan kahat bahan organik tanah pada lahan kering berlereng mendukung produksi pangan nasional [The soil erosion control and organic matters deficiencies on dry land to support of national food production]. Prosiding Seminar Nasional Multifungsi Dan Konversi Lahan Pertanian. Bogor. Indonesian Soil Research Institute p. 255–273.
  • MAETENS W., VANMAERCKE M., POESEN J., JANKAUSKAS B., JANKAUSKIENE G., IONITA I. 2012. Effects of land use on annual runoff and soil loss in Europe and the Mediterranean. A meta-analysis of plot data. Progress in Physical Geography. Vol. 36 p. 599–653. DOI 10.1177/0309133312451303.
  • MANSOORI H., KOHANSAL M.R. 2009. Introducing a lexicographic goal programming for environmental conservation program in farm activities: A case study in Iran. China Agricultural Economic Review. Vol. 1. No. 4 p. 478–484. DOI 10.1108/ 17561370910989284.
  • MONDE A. 2010. Pengendalian aliran permukaan dan erosi pada lahan berbasis kakao di DAS Gumbasa Sulawesi Tengah [The control of runoff and erosion on cocoa-based land in the Gumbasa watershed of Central Sulawesi]. Media Litbang Sulteng III (2) p. 131–136.
  • MURTILAKSONO K., SUTARTA E.S., SIREGAR H.H., DARMOSAR-KORO W., HIDAYAT Y. 2008. Penarapan teknik konservasi tanah dan air dalam upaya penekanan aliran permukaan dan erosl di kebun kelapa sawit [Application of soil and water conservation techniques in efforts to suppress of runoff and erosion in oil palm plantations] [online]. [Access 12.10.2017]. Available at: http://repository.ipb.ac.id/bitstream/han-dle/123456789/37076/Seminar%201_Kmurtilaksono.pdf?se-quence=1&isAllowed=y
  • OADES J.M. 1984. Soil organic matter and structural stability: Mechanisms and implications for management. Plant Soil. Vol. 76 p. 319–337.
  • OBIAGWU C.J. 1995. Estimated yield and nutrient contributions of legume cover crops intercropped with yam, cassava, and maize in the Benue River basins of Nigeria. Journal of Plant Nutrition and Soil Science. Vol. 18(12) p. 2775–2782.
  • PIRKER J., MOSNIER A., KRAXNER F., HAVLIK P., OBERSTEINER M. 2016. What are the limits to oil palm expansion?. Global Environmental Change. Vol. 40 p. 73–81. DOI 10.1016/ j.gloenvcha.2016.06.007.
  • PUTRA E.T.S., SIMATUPANG A.F., SUPRIYATNA, WALUYO S., INDRADEWA D. 2012. The growth of one year-old oil palms intercropped with soybean and groundnut. Journal of Agricultural Science. Vol. 4. No. 5 p. 169–180.
  • SAIDA, ABDULLAH, JUSOFF K., ILSAN M., HARIS A., NURAENI 2013. Evaluation of land capability for agriculture in the upstream of Jeneberang watershed, South Sulawesi. American-Eurasian Journal Agricultural & Environmental Sciences. Vol. 13(8) p. 1027–1033. DOI 10.5829/idosi.aejaes.2013. 13.08.11014.
  • SALAKO F.K., TIAN G. 2003. Soil water depletion under various leguminous cover crops in the derived savanna of West Africa. Agriculture, Ecosystems and Environment. Vol. 100(2–3) p. 173–180.
  • SATRIAWAN H., FUADY Z., MAYANI N. 2016. Soil conservation by vegetative systems in oil palm plantation. Polish Journal of Soil Science. Vol. 49. No. 2 p. 223–235. DOI 10.17951/pjss/ 2016.49.2.223.
  • SATRIAWAN H., FUADY Z., AGUSNI A. 2017. Soil conservation techniques in oil palm cultivation for sustainable agriculture. Jurnal Pengelolaan Sumberdaya Alam dan Lingkungan. Vol. 7. No. 2 p. 178–183.
  • SATRIAWAN H., FUADY Z. 2014. Teknologi konservasi tanah dan air [Soil and water conservation technology]. 1st ed. Yogyakarta. Deepublish. ISBN 6022807832 pp. 142.
  • SATRIAWAN H., HARAHAP E.M., RAHMAWATY, KARIM A. 2015a. Effectiveness of soil conservation to erosion control on several land use types. Agriculture (Poľnohospodárstvo). Vol. 61(2) p. 61−68. DOI 10.1515/agri-2015-0011.
  • SATRIAWAN H., HARAHAP E.M., RAHMAWATY, KARIM A. 2015b. Analysis of soil erosion in agricultural land use in Krueng Sieumpo watershed Aceh Province. Academic Research International. Vol. 6(2) p. 18–27.
  • SUI Y., QU Y., YAN B., XU X., ROUSSEAU A.N., ZHANG Y. 2016. Assessment of micro-basin tillage as a soil and water conservation practice in the black soil region of northeast China. Plos One. Vol. 11(3): e0152313. DOI 10.1371/journal.pone. 0152313.
  • USDA 2010. Keys to soil taxonomy. 11th ed. Washington, D.C. United States Department of Agriculture Natural Resources Conservation Service pp. 337.
  • ZUAZO V.H.D., PLEGUEZUELO C.R.R. 2008. Soil erosion and runoff prevention by plant covers. A review. Agronomy Sustainable Development. Vol. 28 p. 65–86. DOI 10.1051/agro: 2007062.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cb65a391-1aa9-40d9-a689-c41ac9bfceb8
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