Effects of Different Land Use Types on Soil Physico-Chemical Properties in Wolaita Zone, Ethiopia

Desta Ekero et al.

Abstract


Soils are obviously inconstant and their properties are changing across land use types. Essential soil physico-chemical assets impact the performance of soil and, therefore, information on soil property is important. The objective of the study was to determine effects of different land use systems on soil physico-chemical properties in Wolaita zone, southern Ethiopia. Soil samples were collected from three different land uses, enset (Ensete ventricosum), tef (Eragrostis tef (Zucc.) Trotter) and grass lands. Each replicated three times and the composite sample was taken. All the properties are significantly different and determined using appropriate methods. Soil pH, electrical conductivity, total nitrogen, texture, organic matter and phosphate in soil were determined experimentally to study the effects of land use on them. Changes in soil properties in dissimilar land usage forms at two pits (0–15 and 15–30 cm) were detected on various soil properties signifiant to crop growth. Enset filds had higher pH (5.80), electrical conductivity (EC (0.14 ds/m)), available P (35.25%) and Zn (8.64 mg/kg), exchangeable K (3.12 Cmol(+Kg) which is ascribed due to the input of dung, while tef fields had lowest average K (1.38 cmol (+kg) and Mg (1.89 cmol(+kg), cation exchange capacity (CEC (20.21 cmol(+kg)), total N (0.13%) and OC (1.76%). Most of the physico-chemical properties of the study region were significantly influenced by the different land uses. The evidence derived from the current study will support in mounting maintainable and environmentally constant land use management strategies for the study region. Consequently, supplementary comprehensive studies that include soil characterization and field experiment on crop nutrient requirement should be conducted to test the effect of land use forms on soil physico-chemical properties in terms of sustainable use of the land.


Keywords


enset (Ensete ventricosum), grass, soil nutrient, soil properties, tef (Eragrostis tef (Zucc.) Trotter)

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References


Abayneh, E., Berhanu, D., 2006. Soil survey in Ethiopia: The past, present and future. Proceedings of the seventh conference of the Ethiopian Society of Soil Science on Soils for Sustainable Development Goals.

Ahire, D.V., Chaudhari, P.R., Ahire, V.D., Patil, A.A., 2013. Correlations ofelectrical conductivity and dielectric constant with physico-chemical properties of black soils. International Journal of Scientifi and Research Publication, 3(2): 1–16.

Alam, M., Islam, M., Salahin, N., Hasanuzzaman, M., 2014. Effect of tillage practices on soil properties and crop productivity in wheat-mungbean-rice cropping system under subtropical climatic conditions. The Scientic World Journal, 2014: 437283.

Alam, M., Salahin, N., Islam, S., Begum, R., 2017. Patterns of change in soil organic matter, physical properties and crop productivity under tillage practices and cropping systems in Bangladesh. The Journal of Agricultural Science, 155: 216–238.

Ashenafi A., Abayneh, E., Sheleme, B., 2010. Characterizing soils of Delbo Wegene watershed, Wolaita Zone, Southern Ethiopia for planning appropriate land management. Journal of Soil Science and Environmental Management, 1(8): 184–199.

Belay S., 2003. Integrated watershed management approach to sustainable land management (experience of SARDP in East Gojjam and South Wollo). In: T. Amede (Ed.), Proceedings of the conference on the Natural Resource Degradation and Environmental Concerns in the Amhara National Regional State: Impact of Food security (pp. 127–136). 24–26 July 2002, Bahir Dar. The Ethiopian Society of Soil Science (ESSS). Addis Ababa, Ethiopia.

Binyam, A., 2015. The effect of land use land cover change on land degradation in the highlands of Ethiopia. Journal of Environment and Earth Science, 5: 1–12.

Biro, K., Pradhan, B., Buchroithner, M., Makeschin, F., 2013. Land use/land cover change analysis and its impact on soil properties in the northern part of Gadarif region, Sudan. Land Degradation and Development, 24(1): 90–102.

Boke, S., 2004. Soil phosphorus fractions as inflenced by different cropping systems in Andosols and Nitosols in Kembata-Tembaro and Wolayta Zones, SNNPRS. MSc Thesis. Alemaya University.

Brady, N.C., Weil, R.R., 2002. The Nature and Properties of Soils (13 th ed). Prentice Hall, Upper Saddle River, New Jersey.

Celik, I., 2005. Land-use effects on organic matter and physical properties of soil in a southern Mediterranean highland of Turkey. Soil and Tillage Research, 83: 270–277.

Dereje, G., 2020. Effect of land use types on selected soil physical and chemical properties at sire morose sub watershed, central highland of Ethiopia. International Journal of Engineering Research and Technical Research, 9(05).

EMA (Ethiopian Mapping Authority), 1988. National Atlas of Ethiopia, Addis Ababa, Ethiopia.

Fantaw, Y., Abdu, A., 2011. The effect of crop land fallowing on soil nutrient restoration in Bale Mountains, Ethiopia. Journal of Science and Development, 1: 43–51.

Fanuel, L., 2015. Soil spatial variability analysis, fertility mapping and soil plant nutrient relations in Wolaita Zone, Southern Ethiopia. PhD dissertation. Graduate School, Haramaya University, Harar, Ethiopia.

Fikre, M., 2003. Pedogenesis of major volcanic soils of the southern central rift valley region, Ethiopia. MSc thesis. University of Saskatchewan. Saskatoon, Canada.

Gao, G., Change, C., 1996. Changes in cation exchange capacity and particle size distribution of soil as associated with long term annual application of cattle feed lot manure. Soil Science, 161: 115–120.

Getahun, B., Bobe, B., 2015. Impacts of land use types on selected soil physic-chemical properties of Loma Woreda, Dawuro Zone, Southern Ethiopia. Science, Technology and Arts Research Journal, 4(4): 40–48.

Getahun, Y., Zebene, A., Solomon, Z., 2014. Wood production and management of woody species in homegardens agroforestry: the case of smallholder farmers in Gimbo district, south west Ethiopia. International Journal of Natural Sciences Research, 2(10): 278–283.

Havlin, J.L., Beaton, J.D., Tisdale, S.L., Nilson, W.L., 1999. Soil Fertility And Fertilizers: An Introduction to Nutrient Management (6th ed). Prentice Hall, Upper Saddle River, New Jersey. 499 p.

Heluf, G., Wakene, N., 2006. Impact of land use and management practices on chemical properties of some soils of Bako area, Western Ethiopia. Ethiopian Journal of Natural Resources, 8: 177–197.

IFPRI (International Food Policy Research Institute), 2010. Fertilizer and soil fertility potential in Ethiopia constraints and opportunities for enhancing the system. Working Paper, July, 2010, Washington DC, USA.

Jones, A., Breuning-Madsen, H., Brossard, M., Dampha, A., Deckers, J., Dewitte, O., Gallali, T., Hallet, S., Jones, R., Kilasara, M., Le Roux, P., Micheli, E., Montanarella, L., Spaargaren, O., Thiombiano, L., Van Ranst, E., Yemefack, M., Zougmore, R. (Eds)., 2013. Soil Atlas of Africa. EC, Publications Offie of the European Union, Luxemborg. 176 p.

Kedir, J., 2020. Effects of different land use system on physico chemical properties of soil in Wudma sub watershed district, southern Ethiopia. Global Advanced Research Journal of Agricultural Science, 9(6): 151–159.

Lakew, D., Menale, K., Benin, S., Pende, J., 2006. Land degradation and strategies for sustainable development in the Ethiopian high lands: Amhara region. Socio-economic and Policy Research Working Paper 32. ILRI, Nairobi, Kenya. 14 p.

Lindsay, W.L., Norvell, W.A., 1978. Development of a DTPA soil test for zinc, iron, manganese, and copper. Soil Science Society of America Journal, 42(3): 421–428.

Liu, X.L., He, Y.Q., Zhang, H.L., Schroder, J.K., Li, C.L., Zhou, J., Zhang, Z.Y., 2010. Impact of land use and soil fertility on distributions of soil aggregate fractions and some nutrients. Pedosphere, 20(5): 666–673.

Malo, D.D., Schumacher, T.E., Doolittle,. J.J., 2005. Long-term cultivation impacts on selected soil properties in the northern Great Plains. Soil and Tillage Research, 81: 277–291.

Materechera, S.A., Mkhabela, T.S., 2001. Inflence of land-use on properties of a ferralitic soil under low external input farming in southern Swaziland. Soil and Tillage Research, 62: 15–25.

Mehlich, A., 1984. Mehlich III soil test extractant: A modifiation of Mehlich II extractant. Communications in Soil Science and Plant Analysis, 15: 1409–1416.

Mengistu, T., Dereje, T., 2021. Impact of land use types and soil depths on selected soil physicochemical properties in Fasha District, Konso Zone, southern Ethiopia. Journal of Soil Science and Environmental Management, 12(1). http//doi.org/10.5897/JSSEM2020.0815.

Mesfi, A., 1998. Nature and Management of Ethiopian Soils. Haramaya University of Agriculture, Ethiopia.

Mulugeta, D., Sheleme, B., 2010. Characterization and classifiation of soil along the toposequence of KindoKoye watershed in southern Ethiopia. East Africa Journal of Sciences, 4(2): 65–77.

Nega, E., Heluf, G., 2009. Inflence of land use changes and soil depth on cation exchange capacity and contents of exchangeable bases in the soils of senbat Watershed, western Ethiopia. Ethiopian Journal of Natural Resources, 11(2): 195–206.

Negassa, W., 2001. Assessment of Important Physicochemical Properties of Nitosols under Different Management Systems in Bako Area, Western Ethiopia. MSc. thesis, Alemaya University, Alemaya. 109 p.

NMA (National Meteorological Agency), 2016. Hawassa, Ethiopia.

Paudel, S., Sah, J., 2003. Physicochemical characteristics of soil in tropical sal (Shorea robusta Gaertn.) forests in eastern Nepal. Himalayan Journal of Sciences, 1(2): 107–111.

Pierzynski, G.M., Sharpley, A.N., Kovar, J.L., 2008. Methods of phosphorus analyses for soils, sediments, residues and water: Introduction. In: J.L. Kovar, G.M. Pierzynski (Eds.), Methods for Phosphorus Analysis for Soils, Sediments, Residuals and Waters (pp. 1–4, 2nd ed.). Southern Cooperative Series Bulletin No. 408.

Shimeles, D., 2012. Effectiveness of soil and water conservation measures for land restoration in the Wello area, northern Ethiopian highlands. Ecology and Devt Series No. 89, Doctorial Dissertation, Universality of Bonn, Germany.

SSS (Soil Survey Staff), 2014. Keys to Soil Taxonomy (11 th ed). United States Department of Agriculture Natural Resources Conservation Service. 346 p.

Stoorvoge, J.J., Smaling, E.M.A., 1990. Assessment of soil nutrient depletion in sub-Sahara Africa. Rep. no. 28: 1983–2000, vol. 1–4. Winand Staring Ctr, Wageningen, pp. 1983–2000.

Stoorvogel, J., Smaling, E., Janssen, B., 1993. Calculating soil nutrient balances in Africa at different scales. Fertilizer Research, 35: 227–235.

Sumithra, R., Thushyanthy, M., Srivaratharasan, T., 2013. Assessment of soil loss and nutrient depletion due to cassava harvesting: A case study from low input traditional agriculture. International Soil and Water Conservation Research, 1(2): 72–79.

Tesfaye, B., 2003. Understanding farmers: Explaining soil and water conservation in Konso, Wolaita, and Wollo, Ethiopia. PhD Thesis, Wageningen University and Research Center, the Netherlands.

Teshome, Y., Heluf, G., Kibebew, K., Sheleme, B., 2013. Impacts of Land use on selected physicochemical properties of soils of Abobo Area, Western Ethiopia. Agriculture, Forestry and Fisheries, 2(5): 177–183.

Thiemann, S., Schütt, B., Förch, G., 2005. Assessment of erosion and soil erosion processes a case study from the northern Ethiopian highland. Topics of Integrated Watershed Management, 3: 173–185

Ufot, U.O., Iren, O.B., Chikere, N.C.U., 2016. Effects of land use on soil physical and chemical properties in Akokwa Area of Imo State Nigeria. International Journal of Life Sciences Scientific Research, 2(3): 273–278.

Urioste, A.M., Hevia, G.G., Hepper, E.N., Anton, L.E., Bono, A.A., Buschiazzo, D.E., 2006. Cultivation effects on the distribution of organic carbon, total nitrogen and phosphorus in soils of the semiarid region of Argentinian Pampas. Geoderma, 136: 621–630.

van der Eijk, D., Janssen, B.H., Oenema, O., 2006. Initial and residual effects of fertilizer phosphorus on soil phosphorus and maize yields on phosphorus fiing soils. A case study in south-west Kenya. Agriculture, Ecosystems & Environment, 116(1–2): 104–120.

Walkley, A., Black, C.A., 1934. An examination of Degtjareff method for determining soil organic matter and proposed modifiation of the proposed modifiation of the chromic acid titration method. Soil Science, 37: 29–38.

Wang, J., Fu, B., Qiu, Y., Chen, L., 2001. Soil nutrients in relation to land use and landscape position in the semi-arid small catchment on the loess plateau in China. Journal of Arid Environments, 48(4): 537–550.

Wang, B., Xue, S., Liu, G.B., Zhang, G., Li, G., Ren, Z., 2012. Changes in soil nutrient and enzyme activities under different vegetations in the Loess Plateau area, Northwest China. Catena, 92: 186–195.

Wassie, H., Shiferaw, B., 2011. Response of Irish potato (Solanum tuberosum) to the application of potassium at acidic soils of Chencha, Southern Ethiopia. International Journal of Agriculture and Biology, 13(04): 598.

Wassihun, M., 2021. Land use changes and their effects on soil physical and chemical properties in Abolworeda Gambella Regional State. Journal of Resources Development and Management, 75(21). https://doi.org/10.7176/JRDM/75-01

Wasihun, M., Muktar, M., Teshome, Y., 2015. Evaluation of the effect of land use types on selected soil physico-chemical properties in Itang-kir Area of Gambella Regional, Ethiopia. Journal of Biology, Agriculture and Health Care, 5(11).

WRB (World Reference Base), 2006. A framework for international classifiation, correlation and communication. World Soil Resources Report 103 (68 p). Food and Agriculture Organization of the United Nations, Rome.

Yengoh, G.T., 2012. Determinants of yield differences in small-scale food crop farming systems in Cameroon. Agriculture and Food Security, 1: 19.

Yifru, A., Taye, B., 2011. Effects of land use on soil organic carbon and nitrogen in soils of Bale, Southeastern Ethiopia. Tropical and Subtropical Agroecosystems, 14(1): 229–235.

Yihenew, G.S., 2002. Selected chemical and physical characteristics of soils of Adet Research Center and its testing sites in northwestern Ethiopia. Ethiopian Journal of Natural Resources, 4: 199–215.

Yihenew, G.S., 2007. Evaluation of nitrogen and phosphorus as yield-limiting nutrients for maize grown on Alfiols of Western Amhara. Ethiopian Journal of Natural Resources, 9(1): 155–170.

Yihenew, G.S., Fantanesh, A., Solomon, A., 2015. The effects of land use types, management practices and slope classes on selected soil physico-chemical properties in Zikre watershed, North-Western Ethiopia. Springer Open Journal of Environment System Research, 4: 1–7.

Yihenew, G.S., Getachew, A., 2013. Effects of different land use systems on selected physico-chemical properties of soils in North Western Ethiopia. Journal of Agricultural Science, 5(4). http://dx.doi.org/10.5539/jas.v5n4p112.

Zajícová, K., Chuman, T., 2019. Effect of land use on soil chemical properties after 190 years of forest to agricultural land conversion. Soil and Water Research, 14: 121–131.

Zeleke, T.B., Grevers, M.C.J., Si, B.C., Mermut, A.R., Beyene, S., 2004. Effect of residue incorporation on physical properties of the surface soil in the South Central Rift Valley of Ethiopia. Soil and Tillage Research, 77: 35–46.




DOI: http://dx.doi.org/10.17951/pjss.2022.55.1.19-35
Date of publication: 2022-06-27 10:25:04
Date of submission: 2021-04-02 10:21:57


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