Soils in the bulia micro watershed of Gorontalo province, Indonesia, and their quality assessment

Автор: Nurdin, Rayes Mochtar Lutfi, Soemarno, Sudarto, Listyarini Endang, Agustina Christanti, Rahman Rival, Rauf Asda, Husain Jailani

Журнал: Бюллетень Почвенного института им. В.В. Докучаева @byulleten-esoil

Рубрика: Статьи

Статья в выпуске: 108, 2021 года.

Бесплатный доступ

Ten representative pedons from the Bulia micro watershed of Gorontalo Province, Indonesia, were characterized and classified to determine its land quality (LQ) class. Angular blocky, sticky, plastic consistencies and a hard consistency prevailed in the soil structure. In the alluvial plains the soil texture is dominated by the clay fraction, while in the hills and volcanic mountains the sand fraction is dominated. The soils in the Bulia micro watershed also have acid to neutral reaction, with the range of very low to high OC (organic carbon) levels, the reserve of exchangeable bases was dominated by Ca2+ in two series patterns, namely: Ca2+ > Mg+ > Na+ > K+ and Ca2+ > Na+ > Mg+ > K+, cation exchange capacity (CEC) ranged from low to very high, and the base saturation varied from moderate to very high. The alluvial plain is represented by Inceptisol in P1 and Typic Humustepts (P7), also by Oxic Humustepts (P3), then Mollisol on P4 (Typic Argiudolls) and Typic Haplustolls (P6), Alfisol on P5 (Typic Paleustalfs). Entisol on P2 (Typic Ustipsamments) was found in volcanic mountains and P9 (Typic Paleustolls) P8 (Ultic Paleustalfs), P10 (Inceptic Haplustalfs) are typical of volcanic hills. On the alluvial plains the land was categorized as the LQ class II, III and IV, the volcanic mountains were the LQ class IV, while the land on the volcanic hills was categorized as the LQ class VI. River bank erosion on the land river terraces can be held by the manufacture of gabions, talud, cliff reinforcement plants and terraces. The soil temperatures and high clay content can be regulated by mulching and organic materials.

Еще

Characterization, classification, soils of indonesia, land quality, the bulia watershed

Короткий адрес: https://sciup.org/143178245

IDR: 143178245 | DOI: 10.19047/0136-1694-2021-108-104-136

Список литературы Soils in the bulia micro watershed of Gorontalo province, Indonesia, and their quality assessment

Afandi F.N., Siswanto B., Nuraini Y., Effect of giving various types of organic material on soil chemical properties on the growth and production of sweet potato plants in Entisol Ngrangkah Pawon, Kediri, Soil and Land Resources, 2015, Vol. 2(2), pp. 237-244, URL: http://jtsl.ub.ac.id.
Anastasia I., Izatti M., Suedy S.W.A., The effect of giving a combination of solid organic fertilizer and liquid organic on soil porosity and spinach plant growth (Amarantus tricolor L.), Biology Journal, 2014, Vol. 3(2), pp. 1-10.
Beinroth F.H., Eswaran H., Reich P.F., Global assessment of land quality, sustaining the global farm, Selected papers from the 10th International Soil Conservation Organization Meeting, 2001, pp. 569-574.
BPS Gorontalo Province, Gorontalo province in figure 2020, BPS Gorontalo Province, 2020, 1102001.75(75560.2004), pp. 1-535.
BPS Gorontalo Regency, Gorontalo regency in figure 2020, BPS Gorontalo Regency, 2020, 1102001.75(75020.2003), pp. 1-262.
Dutta M., Land use planning of Tipukjan watershed of Sivasagar district using GIS and remote sensing technique: Ph.D. Thesis, Assam Agricultural University, Jorhat, 2009.
Damaiyanti D.R.R., Aini N., Koesrihati, The study of organic mulch application on the growth and yield of red pepper (Capsicum annuum L.), Crop Production Journal, 2013, Vol. 1(2), pp. 25-32.
Devi P.A.V., Naidu M.V.S., Rao A.R., Characterization and classification of sugarcane growing soils in southern agro-climatic zone: A case study in eastern mandals of Chittoor district in Andhra Pradesh, Journal of the Indian Society of Soil Science, 2015, Vol. 63(3), pp. 245-258, DOI: 10.5958/09740228.2015.00034.1.
Eruola A.O., Bello N.J., Ufoegbune G.C., Makinde A.A., Effect of mulching on soil temperature and moisture regime on emergence, growth and yield of white yam in a tropical wet-and-dry climate, International Journal of Agriculture and Forestry, 2012, Vol. 2(1), pp. 93-100, DOI: 10.5923/j.ijaf.20120201.15.
Eviyati, Sulaeman, Analysis of soil, chemical, plants, water, and fertilizer, Indonesia Centre of Soil Research, 2009, pp. 1-203.
Husain J., Luntungan J.N., Kamagi Y.E.B., Nurdin B., Conservation-based corn farming model in Gorontalo Province. Research Report. Research, Development and Regional Environmental Impact Control Agency Gorontalo Province, Gorontalo, 2004.
Haridjaja O., Baskoro D.P.T., Setianingsih M., Different levels of field capacity by alhricks, free drainage, and pressure plate methods at different soil texture and relation for sunflower growth (Helianthus annuus L.), Soil Science and Environmental Journal, 2013, Vol. 15(2), 52 p, DOI: 10.29244/jitl.15.2.52-59.
Intara Y.I., Sapei A., Sembiring E.N., Djoefrie M.H.B., Affected of organic matter application at clay and clay loam soil texture on water holding capacity, Indonesian Agriculture Sciences Journal, 2011, Vol. 16(2), pp. 130135.
Jambak M.K.F.A., Baskoro D.P.T., Wahjunie E.D., Characteristics of soil physic on soil conservation tillage system (Case study of Cikabayan Research Farm, Bogor), Soil and Land Bulletin, 2017, Vol. 1(1), pp. 44-50.
Jackson M.L., Soil chemical analysis, New Delhi: Prentice Hall of India (Pvt.) Ltd., 1973, 498 p.
Kadao S.H., Prasad J., Gajbhlye K.S., Characterization and classification of some typical banana growing soils of Wardha district of Maharashtra, Agropedology, 2003, Vol. 13(2), pp. 28-34.
Ludwig A., Bradford P., David B., Anton W., Vegetation patches and runoff-erosion as interacting ecohydrological processes in semiarid landscapes, Ecology, 2007, Vol. 86, pp. 288-297, DOI: 10.1890/03-0569.
Mahapatra S.K., Nagdev R., Gopal R., Surya J.N., Meena R.K., Yadav R.P., Singh S.K., Characterization and classification of the soils of Buraka micro-watershed in Haryana for integrated development, Journal of the Indian Society of Soil Science, 2019, Vol. 67(2), pp. 137-150, DOI: 10.5958/0974-0228.2019.00015.X.
Manik H., Marpaung P., Sabrina T., The level of soil development based on the pattern of clay mineral distribution in Subdistric Lumbanjulu, Distric of Toba Samosir, Agroteknologi FP USU, 2017, Vol. 5(2), pp. 422-433.
Nasruddin, Hanum H., Study of mulching effects on soil temperature, soil property, and growth of patchouli (Pogostemon cablin Benth), Floratek, 2015, Vol. 10, pp. 69-78.
Niranjana K.V., Ramamurthy V., Hegde R., Srinivas S., Koyal A., Naidu L.G.K., Sarkar D., Characterization, classification and suitability evaluation of banana growing soils of Pulivendla region. Andhra Pradesh, Journal of the Indian Society of Soil Science, 2011, Vol. 59(1), pp. 1-5, URL: https://www.indianjoumals.com/ijor.aspx?target=ijor:jisss&volume=59&issue =1&article=001.
Noor A., Vahlevi J., Fathurrozi., Slope stabilization for erosion control with soil bioengineering using vetiver grass, Poros Teknik, 2011, Vol. 3(2), pp. 69-74.
Nurdin, Development, classification and rainfed paddy soils potency derived from lacustrine materials in paguyaman, gorontalo. MSc Thesis Bogor Agriculture University, 2010a. URL: https://repository.ipb.ac.id/handle/123456789/57081.
Nurdin, The morfology, physics and soil chemistry of inceptisol derived from lacustrine paguyaman of gorontalo relating to soil managements, Jurnal Agroteknotropika, 2010b, Vol. 1(1), pp. 13-22.
Nurdin, Development and rainfed paddy soils potency derived from lacustrine material in paguyaman, Gorontalo, J. Trop. Soils, 2011, Vol. 16(3), pp. 267-278, DOI: 10.5400/jts.2011.16.3.267.
Nurdin, Combination of soil conservation techniques and its effect on the yield of maize and soil erosion of dry land in biyonga sub-watershed, Gorontalo, J. Tek. Ling, 2012, Vol. 13(2), pp. 245-252.
Odjugo P.A.O., The effect of tillage systems and mulching on soil microclimate, growth and yield of yellow yam (Dioscorea cayenensis) in Midwestern Nigeria, African Journal of Biotechnology, 2008, Vol. 7(24), pp. 4500-4507, DOI: 10.4314/ajb.v7i24.59629.
Oldeman L.R., Darmiyati S., An agroclimatic map of Sulawesi scale 1 -2.500.000, Center Research for Agriculture, 1977, p. 1.
Puslitanak Research Team, Survey and mapping of semi-detailed soil resources (scale 1 : 50,000) in the North Sulawesi of Paguyaman area for the development of irrigation and sugarcane commodities. Final report. Book III Attachment of the Land Series. Center for Soil and Agro-climate Research, Agency for Agricultural Research and Development, Indonesian Ministry of Agriculture, Bogor, 1995.
Prasetyo B.H., Differentiation in Properties of vertisol from various parent materials, Indonesian Agriculture Sciences Journal, 2007, Vol. 9(1), pp. 2031.
Rachman A., Gantzer J., Anderson S.H., Soil hydraulic properties influenced by stiff-stemmed grass hedge systems, Soil Science Society of America Journal, 2004, Vol. 68(4), pp. 1386-1393, DOI: 10.2136/sssaj2004.1386.
Rachim D.A., Characterization os soils with low activity clay, and the effect of iron oxides on some soil properties, PhD thesis, Bogor Agricultural University, 1994, URL: https://repository.ipb.ac.id/handle/123456789/2463?show=full.
Rachim D.A., The foundamentals of soil genesis. Bogor: Departemen of Soil and Land Resources, Agriculture Faculty of Bogor Agriculture University, 2007, 41p.
Rahman A., Geographic information system model for estimating flow coefficient and its relationship with land cover in Riam Kanan River Basin of South Kalimantan Province, Bumi Lestari, 2013, Vol. 13(1), p. 1-8.
Sys C., Rast E.V., Debaveye J., Land evaluation. Part II. Principles in land evaluation and crop production calculations. International Training Centre for Post-Graduate Soil Scientists, University of Ghent, 1991.
Sarkar D., Gangipodhyay S.K., Velayutham M., Soil toposequence relationship and classification in lower outlier of Chhotanagpur plateau, Agropedology, 2001, Vol. 11, pp. 29-36.
Swarnam T.P., Velmurugan A., Rao Y.S., Characterization and classification of some soils from Shahibi basin in parts of Haryana and Delhi, Agropedology, 2004, Vol. 14, p. 114-122.
Singh C., Singh P., Singh R., Modern techniques of raising field crops, New Delhi: Oxford and IBH Publishing Co. Pvt. Ltd., 2004, pp. 1-583.
Satish S., Naidu M.V.S., Ramana K.V., Munaswamy V., Reddy G.P., Sudhakar P., Characterization and classification of the soils of Brahmanakotkur watershed in Kurnool district of Andhra Pradesh', Journal of the Indian Society of Soil Science, 2018, Vol. 66(4), pp. 351-361, DOI: 10.5958/0974-0228.2018.00044.0.
Sinarta I., Methods of handling landslides with soil nailing', Paduraksa, 2014, Vol. 3(2), pp. 1-16.
Sireesha P.V.G., Naidu M.V.S., Clay mineralogy of soils developed from granite-gneiss of Kurnool District in Andhra Pradesh', Journal of the Indian Society of Soil Science, 2015, Vol. 63(1), pp. 16-23, DOI: 10.5958/09740228.2015.00003.1.
Soil survey manual, Soil Science Division Staff, United States Department of Agriculture (USDA), 2017, pp. 1-145, URL: https://www.iec.cat/mapasols/DocuInteres/PDF/Llibre50.pdf.
Soil Survey Staff, Keys to soil taxonomy, Soil Conservation Service -NRCS/USDA, 2014, Vol. 12, 360 p.
Subardja D., Sudarsono, The influence of land quality on productivity of maize in soils derived from volcanic and sedimentary rocks in the bogor area, Soil and Climate Journal, 2005, Vol. 23, pp. 38-46.
Suharta N., The characteristic of soil developed from felsic sediments in west kalimantan province and its implication to land management, Soil and Climate Journal, 2007, Vol. 25, pp. 11-26.
Sukarman S.R., Anda M., Suryani E., Guidelines for soil observation in the field, Agricultural Research and Development Agency, Ministry of Agriculture Republic of Indonesia, Bogor, 2017, pp. 1-149.
Supriya K., Naidu M.V.S., Kavitha P., Srinivasa M.R., Characterization, classification and evaluation of soils in semi-arid region of Mahanandi Mandal in Kurnool district of Andhra Pradesh', Journal of the Indian Society of Soil Science, 2019, Vol. 67(2), pp. 125-136, DOI: 10.5958/09740228.2019.00014.8.
Susilawati S., Veronika V., Vetiver grass study as a continuous slope safety, Civil Engineering Communication Media, 2016, Vol. 22(2), p. 99, DOI: 10.14710/mkts.v22i2.12886.
Suyana J., Sumarno, Supriyono, Lestariningsih N.P., Mulching and strengthening of terraces in three types of plants against surface runoff, erosion, growth and yield of plants in Andisols, Agrosains, 2017, Vol. 19(1), p. 15, DOI: 10.20961/agsjpa.v19i1.20924.
Vedadri U., Naidu M.V.S., Characterization, classification and evaluation of soils in semi-arid ecosystem of Chillakur mandal in SPSR Nellore district of Andhra Pradesh, Journal of the Indian Society of Soil Science, 2018, Vol. 66 (1), pp. 9-19, DOI: 10.5958/0974-0228.2018.00002.6.
Walia C.S., Rao Y.S., Characteristics and classification of some soils of Trans-Yamuna plains, Journal of the Indian Society of Soil Science, 1997, Vol. 45(1), pp. 156-162.
Yasin M.G.H., Langgi W.F., White grain maize as an alternative for staple food, Iptek Tanaman Pangan, 2015, Vol. 9(2), pp. 108-117.
Yatno E., Mulyanto B., Characteristics of soils formed from schist and their land suitability for cocoa crop in Kolaka and East Kolaka Regencies, Southeast Sulawesi, Soil and Climate Journal, 2016, Vol. 39(2), pp. 109-118.
Zulkarnain M., Prasetya B., Soemarno, Effects of compost, manure, and custom-bio on soil properties, growth and yield of sugarcane (Saccharum officinarum L.) in Entisol Kebun Ngrangkah of Pawon, Kediri, Indonesian Green Technology Journal, 2013, Vol. 2(1), pp. 45-52, URL: https://igti.ub.ac.id/index.php/igti/article/view/103.

Еще

Статья научная