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Effects of land use and land cover on selected soil quality indicators in the headwater area of the Blue Nile basin of Ethiopia

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Abstract

Understanding changes in soil quality resulting from land use and land management changes is important to design sustainable land management plans or interventions. This study evaluated the influence of land use and land cover (LULC) on key soil quality indicators (SQIs) within a small watershed (Jedeb) in the Blue Nile Basin of Ethiopia. Factor analysis based on principal component analysis (PCA) was used to determine different SQIs. Surface (0–15 cm) soil samples with four replications were collected from five main LULC types in the watershed (i.e., natural woody vegetation, plantation forest, grassland, cultivated land, and barren land) and at two elevation classes (upland and midland), and 13 soil properties were measured for each replicate. A factorial (2 × 5) multivariate analysis of variance (MANOVA) showed that LULC and altitude together significantly affected organic matter (OM) levels. However, LULC alone significantly affected bulk density and altitude alone significantly affected bulk density, soil acidity, and silt content. Afforestation of barren land with eucalypt trees can significantly increase the soil OM in the midland part but not in the upland part. Soils under grassland had a significantly higher bulk density than did soils under natural woody vegetation indicating that de-vegetation and conversion to grassland could lead to soil compaction. Thus, the historical LULC change in the Jedeb watershed has resulted in the loss of soil OM and increased soil compaction. The study shows that a land use and management system can be monitored if it degrades or maintains or improves the soil using key soil quality indicators.

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References

  • Alem, S., & Pavlis, J. (2014). Conversion of grazing land into Grevillea robusta plantation and exclosure: impacts on soil nutrients and soil organic carbon. Environ Monit Assess, 186(7), 4331–4341.

    Article  Google Scholar 

  • BCEOM. (1998a). Abbay River Basin Integrated Development Master Plan-Phase 2 – Data Collection - Site Investigation Survey and Analysis – Volume I - Natural Resources -Geology (p. pp. 144). Ethiopia: Addis Ababa.

    Google Scholar 

  • BCEOM. (1998b). Abbay River Basin Integrated Development Master Plan-Phase 2 – Data Collection - Site Investigation Survey and Analysis – Volume VIII - Land Resources Development - Reconnaissance Soil Survey (p. pp. 144). Ethiopia: Addis Ababa.

    Google Scholar 

  • Behera, N., & Sahani, U. (2003). Soil microbial biomass and activity in response to Eucalyptus plantation and natural regeneration on tropical soil. For Ecol Manage, 174(1), 1–11.

    Article  Google Scholar 

  • Bewket, W., & Stroosnijder, L. (2003). Effects of agroecological land use succession on soil properties in Chemoga watershed, Blue Nile basin, Ethiopia. Geoderma, 111(1), 85–98. doi:10.1016/S0016-7061(1002)00255-00250.

    Article  CAS  Google Scholar 

  • Bewket, W., & Teferi, E. (2009). Assessment of soil erosion hazard and prioritization for treatment at the watershed level: case study in the Chemoga watershed, Blue Nile Basin, Ethiopia. Land Degrad Dev, 20(6), 609–622. doi:10.1002/ldr.944.

  • 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 Degrad Dev, 24(1), 90–102. doi:10.1002/ldr.1116.

  • Campos, A. C., Etchevers, J. B., Oleschko, K. L., & Hidalgo, C. M. (2013). Soil microbial biomass and nitrogen mineralization rates along an altitudinal gradient on the Cofre de Perote. Volcano (Mexico): The importance of landscape position and land use. Land Degradation & Development. doi:10.1002/ldr.2185.

    Google Scholar 

  • CSA (2007). Summary and Statistical report of the 2007 population and housing census. Addis Abeba: Federal Democratic Republic of Ethiopia.

  • Demessie, A., Singh, B. R., Lal, R., & Børresen, T. (2012). Effects of eucalyptus and coniferous plantations on soil properties in Gambo District, southern Ethiopia. Acta Agric Scand Sect B Soil Plant Sci, 62(5), 455–466.

    Google Scholar 

  • Field, A. (2009). Discovering statistics using SPSS. London: Sage Publications.

    Google Scholar 

  • Garten, C. T., Jr., Post, W., III, Hanson, P. J., & Cooper, L. W. (1999). Forest soil carbon inventories and dynamics along an elevation gradient in the southern Appalachian Mountains. Biogeochemistry, 45(2), 115–145. doi:10.1007/BF01106778.

  • Griffiths, R., Madritch, M., & Swanson, A. (2009). The effects of topography on forest soil characteristics in the Oregon Cascade Mountains (USA): implications for the effects of climate change on soil properties. For Ecol Manage, 257(1), 1–7. doi:10.1016/j.foreco.2008.1008.1010.

    Article  Google Scholar 

  • Hansen, A., DeFries, R., Turner, W., et al. (2004). Land Use Change and Biodiversity. In G. Gutman, A. Janetos, C. Justice, E. Moran, J. Mustard, & R. Rindfuss (Eds.), Land Change Science (pp. 277–299). Netherlands, Springer: Remote Sensing and Digital Image Processing. doi:10.1007/978-1-4020-2562-4_16.

  • Haregeweyn, N., Poesen, J., Verstraeten, G., Govers, G., Vente, J., Nyssen, J., et al. (2013). Assessing the performance of a spatially distributed soil erosion and sediment delivery model (WATEM/SEDEM) in northern Ethiopia. Land Degrad Dev, 24(2), 188–204.

    Article  Google Scholar 

  • Hartemink, A. E. (2003). Soil fertility decline in the tropics with case studies on plantations. Wallingford: CAB International / ISRIC.

    Book  Google Scholar 

  • Hurni, H. (1988). Degradation and conservation of the resources in the Ethiopian highlands. Mt res dev, 8(2/3), 123–130.

    Article  Google Scholar 

  • Hurni, H. (1999). Agroecological Belts of Ethiopia. Switzerland/ Ethiopia: University of Bern in association with the Ministry of Agriculture.

  • Jagger, P., & Pender, J. (2003). The role of trees for sustainable management of less-favored lands: the case of eucalyptus in Ethiopia. Forest Policy and Economics, 5(1), 83–95. doi:10.1016/S1389-9341(01)00078-8.

    Article  Google Scholar 

  • Kaiser, H. F. (1960). The Application of Electronic Computers to Factor Analysis. Educ Psychol Meas, 20(1), 141–151. 110.1177/001316446002000116.

    Article  Google Scholar 

  • Kaiser, H. F. (1970). A second generation little jiffy. Psychometrika, 35, 401–415.

  • Klute, A. (1986). Methods of soil analysis. Part 1. Physical and mineralogical methods (Vol. Ed. 2). Madison, USA: American Society of Agronomy, Inc.

  • Lal, R. (2005). Forest soils and carbon sequestration. For Ecol Manage, 220(1), 242–258. 210.1016/j.foreco.2005.1008.1015.

    Article  Google Scholar 

  • Lal, R., Hall, G., & Miller, F. (1989). Soil degradation: I. Basic processes. Land Degrad Dev, 1(1), 51–69. doi:10.1002/ldr.3400010106.

    Article  Google Scholar 

  • Larson, W. E., & Pierce, F. J. (1994). The dynamics of soil quality as a measure of sustainable management. In D. C. C. J. W. Doran, D. F. Bezdicek, B. A. Stewart, & B. A. Stewart (Eds.), Defining soil quality for a sustainable environment (pp. 37–51). Madison, WI: SSSA and ASA.

    Google Scholar 

  • Leh, M., Bajwa, S., & Chaubey, I. (2013). Impact of land use change on erosion risk: an integrated remote sensing, geographic information system and modeling methodology. Land Degrad Dev, 24(5), 409–421. doi:10.1002/ldr.1137.

    Google Scholar 

  • Lemenih, M., & Itanna, F. (2004). Soil carbon stocks and turnovers in various vegetation types and arable lands along an elevation gradient in southern Ethiopia. Geoderma, 123(1), 177–188. 110.1016/j.geoderma.2004.1002.1004.

    Article  CAS  Google Scholar 

  • Liu, Z., Yao, Z., Huang, H., Wu, S., & Liu, G. (2012). Land use and climate changes and their impacts on runoff in the Varlung Zangbo river basin, China. Land Degradation & Development, doi:10.1002/ldr.1159.

  • Mekuria, W., & Aynekulu, E. (2013). Exclosure land management for restoration of the soils in degraded communal grazing lands in northern Ethiopia. Land Degrad Dev, 24(6), 528–538.

    Article  Google Scholar 

  • Michelsen, A., Lisanework, N., & Friis, I. (1993). Impacts of tree plantations in the Ethiopian highland on soil fertility, shoot and root growth, nutrient utilisation and mycorrhizal colonisation. For Ecol Manage, 61(3), 299–324. doi:10.1016/0378-1127(93)90208-5.

    Article  Google Scholar 

  • Misra, R. V., Lesschen, J. P., Smaling, E., & Roy, R. N. (2003). Assessment of soil nutrient balance: approaches and methodologies (Vol. 14, FAO Fertilizer & Plant Nutrition Bulletin). Rome, Italy: FAO.

    Google Scholar 

  • Muñoz-Rojas, M., Jordán, A., Zavala, L. M., La Rosa, D. D., Abd-Elmabod, S. K., & Anaya-Romero, M. (2012). Impact of land use and land cover changes on organic carbon stocks in mediterranean soils. Land Degradation & Development, doi:10.1002/ldr.2194.

  • Neill, C., Melillo, J. M., Steudler, P. A., Cerri, C. C., de Moraes, J. F., Piccolo, M. C., et al. (1997). Soil carbon and nitrogen stocks following forest clearing for pasture in the southwestern Brazilian Amazon. Ecol Appl, 7(4), 1216–1225. 1210.1890/1051-0761(1997)1007[1216:SCANSF].

    Article  Google Scholar 

  • Nosrati, K. (2013). Assessing soil quality indicator under different land use and soil erosion using multivariate statistical techniques. Environ Monit Assess, 185(4), 2895–2907.

    Article  CAS  Google Scholar 

  • Shukla, M., Lal, R., & Ebinger, M. (2006). Determining soil quality indicators by factor analysis. Soil Tillage Res, 87(2), 194–204. 110.1016/j.still.2005.1003.1011.

    Article  Google Scholar 

  • Singh, A., Bordoloi, L., Kumar, M., Hazarika, S., & Parmar, B. (2014). Land use impact on soil quality in eastern Himalayan region of India. Environ Monit Assess, 186(4), 2013–2024.

    Article  CAS  Google Scholar 

  • Sparks, D. L., Page, A., Helmke, P., Loeppert, R., Soltanpour, P., Tabatabai, M., et al. (1996). Methods of soil analysis. Part 3-Chemical methods. Madison, USA: Soil Science Society of America Inc.

  • Teferi, E., Bewket, W., Uhlenbrook, S., & Wenninger, J. (2013). Understanding recent land use and land cover dynamics in the source region of the Upper Blue Nile, Ethiopia: Spatially explicit statistical modeling of systematic transitions. Agr Ecosyst Environ, 165, 98–117. doi:10.1016/j.agee.2012.11.007.

    Article  Google Scholar 

  • Tesfahunegn, G. B. (2013). Soil Quality Indicators Response to Land Use and Soil Management Systems in Northern Ethiopia’s Catchment. Land Degradation & Development, doi: 10.1002/ldr.2245.

  • Zhang, J. J., Fu, M. C., Zeng, H., Geng, Y. H., & Hassani, F. P. (2013). Variations in ecosystem service values and local economy in response to land use: a case study of Wu’an. China Land Degrad Dev, 24(3), 236–249. doi:10.1002/ldr.1120.

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Acknowledgments

The authors are grateful for the Netherlands Fellowship Programs (NFP) for providing financial support for this study. We also thank the anonymous reviewers whose comments helped to improve the manuscript.

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Correspondence to Ermias Teferi.

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Teferi, E., Bewket, W. & Simane, B. Effects of land use and land cover on selected soil quality indicators in the headwater area of the Blue Nile basin of Ethiopia. Environ Monit Assess 188, 83 (2016). https://doi.org/10.1007/s10661-015-5086-1

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  • DOI: https://doi.org/10.1007/s10661-015-5086-1

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