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Tytuł artykułu

Soil Variability and Sugarcane (Saccharum officinarum L.) Biomass along Ultisol Toposequences

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Języki publikacji
EN
Abstrakty
EN
Uniforming sugarcane management without any knowledge of soil variability could result in some parts of a sugarcane field receiving insufficient inputs, while other parts receive an excessive input. The research aimed at assessing the soil variability and sugarcane biomass along Ultisol toposequences in Central Lampung, Indonesia. Two sugarcane catenas and one forest catena were fully described in the fields. Soil horizons are represented by Ap/Ah/M, E, B, Cc and Cg with dominant clay translocation. The gleying symptom was found only in the lower slope to depression. The concretion depths can be used as an erosion indicator if the soil parent material is well characterized. Soil P has a maximum value of Ap horizon and decreases with the depth and no effect of internal erosion in the form of soil P accumulation in subsoils can be observed, except for the colluviated horizon. Kaolinite clay is dominantly found to buffer the changes in pH, except Ap horizon of sugarcane. The organic C depends on the pedogenesis and catena form. Al saturation indicates that the dominant soil weathering is intensive. Al saturation in the Ap horizon (Catena G1; G2) was reduced from 80% to 20–40% caused by liming and fertilization. The catena position was the main factor causing the increasing soil variability, which was responsible for the variability of sugarcane biomass. The sugarcane biomass increased with decreasing slopes. The highest biomass was found in the depression (105 tones/ha) if the sedimentation process is characterized by the formation horizon M and accompanied by the nutrient accumulation from the hilltops.
Słowa kluczowe
Rocznik
Strony
196--204
Opis fizyczny
Bibliogr. 29 poz., rys., tab.
Twórcy
  • Faculty of Agriculture, Sriwijaya University, South Sumatra, Indonesia, Jln. Palembang-Prabumulih Km 32, Indralaya Campus, South Sumatra Indonesia
Bibliografia
  • 1. Armanto, M.E. 2019. Comparison of Chemical Properties of Peats under Different Land Uses in South Sumatra, Indonesia. J. Ecol. Eng. 20(5): 184–192.
  • 2. Armanto, M.E., E. Wildayana. 2016. Land Degradation Analysis by Landscape Balance in Lebak Swamp Jakabaring South Sumatra. Journal of Wetlands Environmental Managements. 4(1); 1–6.
  • 3. Armanto, M.E., M.A. Adzemi, E. Wildayana, M.S. Imanudin. 2013. Land Evaluation for Paddy Cultivation in the Reclaimed Tidal Lowland in Delta Saleh South Sumatra, Indonesia. Journal of Sustainability Science and Management. 8(1); 32–42.
  • 4. Armanto, M.E., R.H. Susanto, E. Wildayana. 2017. Functions of Lebak Swamp before and after Landfills in Jakabaring South Sumatra. Sriwijaya Journal of Environment, Vol 2(1); 1–7, February 2017.
  • 5. Aviron, S., S. Poggi, Y.D. Varennes, A. Lefèvre. 2016. Local Landscape Heterogeneity Affects Crop Colonization by Natural Enemies of Pests in Protected Horticultural Cropping Systems. Agriculture, Ecosystems & Environment. Vol 227; 1–10.
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  • 9. Dietrich, G., M. Sauvadet, S. Recous, M. Redin, I.C. Pfeifer, C.M. Garlet, H. Bazzo, S.J. Giacomini. 2017. Sugarcane Mulch C and N Dynamics during Decomposition under Different Rates of Trash Removal. Agriculture, Ecosystems & Environment. 243; 123–131.
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  • 11. Guzeeva, S.A. 2019. Influence of Chemical Amelioration of Solonetzic Soils on the Presence of Heavy Metals and Radionuclides in Soil Profile. J. Ecol. Eng. 20(5):179–183.
  • 12. Hamuna, B., R.H.R. Tanjung, A. Alianto. 2019. Assessment of Water Quality and Pollution Index in Coastal Waters of Mimika, Indonesia. J. Ecol. Eng. 20(2): 87–94.
  • 13. Jakubis, M., M. Jakubisová. 2019. Morphogenesis of Torrent Beds in the Watersheds with a Different Geological Bedrock and Geomorphological Rock Value. J. Ecol. Eng. 20(5): 69–77.
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  • 22. Paul, K.I., S.H. Roxburgh, J.R. England, R. de Ligt, J.S. Larmour, K. Brooksbank, S. Murphy, P. Ritson, T. Hobbs, T. Lewis, N.D. Preece. 2015. Improved Models for Estimating Temporal Changes in Carbon Sequestration in Above-Ground Biomass of MixedSpecies Environmental Plantings. Forest Ecology and Management. 338; 208–218.
  • 23. Rybak, J., A. Stojanowska, Ł. Winkler. 2019. Analysis of the Vegetation in the Terrain of Closed Industrial Waste Dump in Siechnice (Lower Silesia). J. Ecol. Eng. 20(5): 242–248.
  • 24. Šimanský, V., D. Šrank, J. Jonczak, M. Juriga. 2019. Fertilization and Application of Different Biochar Types and their Mutual Interactions Influencing Changes of Soil Characteristics in Soils of Different Textures. J. Ecol. Eng. 20(5): 149–164.
  • 25. Soil Survey Staff. 2014. Keys to Soil Taxonomy, 12th ed. USDA-Natural Resources Conservation Service, Washington, DC.
  • 26. Wildayana, E., A.S. Busri, M.E. Armanto. 2016. Value Changes of Lebak Swamp Land over Time in Jakabaring South Sumatra. Journal of Wetlands Environmental Managements. 4(1); 46–54.
  • 27. Wildayana, E., M.E. Armanto. 2018. Dynamics of Landuse Changes and General Perception of Farmers on South Sumatra Wetlands. Bulgarian Journal of Agricultural Science. 24(2); 180–188.
  • 28. Zahri, I., D. Adriani, E. Wildayana, Sabaruddin, M.U. Harun. 2018. Comparing Rice Farming Appearance of Different Agroecosystem in South Sumatra, Indonesia. Bulgarian Journal of Agricultural Science. 24(2); 189–198.
  • 29. Zuhdi, M., M.E. Armanto, D. Setiabudidaya, Ngudiantoro, Sungkono. 2019. Exploring Peat Thickness Variability Using VLF Method. J. Ecol. Eng. 20(5): 142–148.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-160fad67-d8d0-4a98-ad74-90a1cb8ef97b
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