Journal of
Soil Science and Environmental Management

  • Abbreviation: J. Soil Sci. Environ. Manage.
  • Language: English
  • ISSN: 2141-2391
  • DOI: 10.5897/JSSEM
  • Start Year: 2010
  • Published Articles: 307

Full Length Research Paper

Assessment of selected soil physicochemical properties on different land-use systems and landscape positions at Hamesa watershed, Wolayita zone, Southern Ethiopia

Markos Mathewos
  • Markos Mathewos
  • Department of Biosystem Engineering, Institute of Technology, Hawassa University, Ethiopia.
  • Google Scholar


  •  Received: 05 August 2019
  •  Accepted: 11 September 2019
  •  Published: 31 August 2020

References

Ahmed H (2002). Assessment of spatial variability of some physicochemical properties of soils under different elevations and land use systems in the western slopes of mount Chilalo, Arsi. MSc Thesis. Alemaya University, Ethiopia.

 

Ahn P (1993). Tropical soils and fertilizer use. Intermediate tropical agriculture serious. Longman group UK limited, Malaysia, 264p.

 

Benning TL, Seastedt TR (1995). Landscape-level interactions between topographic features and nitrogen limitation in tall grass prairie. Landscape Ecology 10(6):337-348.
Crossref

 

Beyene S (2017). Topographic positions and land use impacted soil properties along Humbo Larena-Ofa Sere toposequence, Southern Ethiopia. Journal of Soil Science and Environmental Management 8(8):135-147.
Crossref

 

Bizuhoraho T, Kayiranga A, Manirakiza N, Mourad Khaldoon A (2018). The effect of land use systems on soil properties; A case study from Rwanda. Sustainable Agriculture Research 7(2):30-40.
Crossref

 

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

 

Brubaker SC, Jones AJ, Lewis DT, Frank K (1993). Soil properties associated with landscape positions. Soil Science Society of America Journal 57(1):235-239.
Crossref

 

BSI (1975). Methods of testing soils for civil engineering purpose. British Standards 1377. British standard institution, London.

 

Cade-Menun BJ, Bainard LD, LaForge K, Schellenberg M, Houston B (2017). Long-term agricultural land use affects chemical and physical properties of soils from southwest Saskatchewan. Canadian journal of soil science 97(4):650-666.
Crossref

 

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(2):270-277.
Crossref

 

Chen ZS, Hsieh CF, Jiang FY, Hsieh TH, Sun IF (1997). Relations of soil properties to topography and vegetation in a subtropical rain forest in southern Taiwan. Plant Ecology 132(2):229-241.
Crossref

 

Dessalegn D, Beyene S, Ram N, Walley F, Gala TS (2014). Effects of topography and land use on soil characteristics along the toposequence of Ele watershed in southern Ethiopia. Catena 115:47-54.
Crossref

 

Elliot EA (1986). Aggregate structure and carbon, nitrogen and phosphorus in native and cultivated soils. Soil science society of America journal 50(3):627-633.
Crossref

 

Ethiopian Mapping Authority (1998). National Atlas of Ethiopia, Addis Abeba, Ethiopia.

 

Ezeaku P, Eze FU (2014). Effect of land use in relation to slope position on soil properties in a semi-humid Nsukka area, Southeastern Nigeria. Journal Agricultural Research 52(3):369-381.

 

Fetene EM, Amera MY (2018). The effects of land use types and soil depth on soil properties of Agedit watershed, Northwest Ethiopia. Ethiopian Journal of Science and Technology 11(1):39-56.
Crossref

 

Guzman JG, Al-Kaisi MM (2011). Landscape position effect on selected soil physical properties of reconstructed prairies in South Central Iowa. Journal of soil and water conservation 66(3):183-191.
Crossref

 

Hanawalt R, Whittaker R (1976). Altitudinally coordinated patterns of soils and vegetation in-the San Jacinto Mountains, California. Soil Science 121(2):114-124.
Crossref

 

Havlin JL, JD Beaton, SL Tisdale, WL Nilson (1999). Soil fertility and fertilizers: an introduction to nutrient management, 6th ed. Prentice-Hall. Upper Saddle River, New jersey.

 

Heluf GK, 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(2):177-197.

 

Hu C, AL Wright, Lian G (2019). Estimating the Spatial Distribution of Soil Properties Using Environmental Variables at a Catchment Scale in the Loess Hilly Area, China. International journal of environmental research and public health 16(3):1-14.
Crossref

 

Jackson ML (1958). Soil chemical analysis. Prentice Hall, Inc., Engle Wood Cliffs. New Jersy, USA. 582p.

 

Kiflu A (2007). Effects of different land use systems and topography on selected soil properties at Delbo watershed, Wolayita Zone, south Ethiopia. MSc Thesis. Hawassa University, Ethiopia.

 

Kiflu A, Beyene S (2013). Effects of different land use systems on selected soil properties in South Ethiopia. Journal of Soil Science and Environmental Management 4(5):100-107.
Crossref

 

Kosmas CS, Gerontidis S, Marathianou M (2000). The effect of land use change on soils and vegetation cover various lithological formations on Lesvos (Greece). Catena 40:51-68.
Crossref

 

London JR (Ed) (1991). Booker tropical soil manual: A handbook for soil survey and agricultural land evaluation in the tropics and subtropics. Longman Scientific and technical, Essex, New York 474 p.

 

Lauber CL, Strickland MS, Bradford MA, Fierer N (2008). The influence of soil properties on the structure of bacterial and fungal communities across land-use types. Soil Biology and Biochemistry 40(9):2407-2415.
Crossref

 

Lindsay W, Novell W (1969). Development of DTPA micronutrient soil test. In Agronomy, Abstract 84:1-11.

 

Lizaga I, Quijano L, Gaspar L, Ramos MC, Navas A (2019). Linking land use changes to variation in soil properties in a Mediterranean mountain agroecosystem. Catena 172:516-527.
Crossref

 

Mesfin A (1998). Nature and management of Ethiopian soils. Alemaya University of Agriculture, Harar, Ethiopia, 272p.

 

Mulugeta D (2006). Soils in Kindo Koye Watershed Catena, Damot Woyde Woreda, Wolayita Zone, Southern Ethiopia. MSc Thesis. Debub University, Awassa, Ethiopia. 141p.

 

Moges A, Holden NM (2008). Soil fertility in relation to slope positions and agricultural land use: a case study of Umbulo catchment in Southern Ethiopia. Environmental management 42(5):753-763.
Crossref

 

Negasa T, Ketema H, Legesse A, Sisay M, Temesgen H (2017). Variation in soil properties under different land use types managed by smallholder farmers along the toposequence in southern Ethiopia. Geoderma 290:40-50.
Crossref

 

Nigussie A, Kissi E (2012). The contribution of coffee agroecosystem to soil fertility in Southwestern Ethiopia. African Journal of Agricultural Research 7(1):74-81.
Crossref

 

Olsen SR, Cole CV, Watanabe FS, Dean LA (1954). Estimation of available phosphorus in soils by extraction with sodium bicarbonate. USDA Circular 939:1-19.

 

Panday D, Ojha RB, Chalise D, Das S, Twanabasu B (2019). Spatial variability of soil properties under different land use in the Dang district of Nepal. Cogent Food & Agriculture 5(1):1-19.
Crossref

 

Pastor J, Post WM (1986). Influence of climate, soil moisture, and succession on forest carbon-nitrogen cycles. Biogeochemistry 2: 3-27.
Crossref

 

Sahlemedhin S, Taye B (2000). Procedures for soil and plant analysis. National soil research center, EARO, technical paper no. 74, Addis Abeba, Ethiopia, 110p

 

Saikh H, Varadachari C, Ghosh K (1998). Effects of deforestation and cultivation on soil CEC and contents of exchangeable bases: A case study in Simplipal National park, India. Plant and Soil 204 (2):175-181.
Crossref

 

SAS (1997). SAS institute Inc., Cary, NC, USA.

 

Taffa T (2002). Soil and water conservation for sustainable agriculture CTA. Mega publishing agency, Addis Ababa.

 

Tellen VA, Yerima BP (2018). Effects of land use change on soil physicochemical properties in selected areas in the North West region of Cameroon. Environmental Systems Research 7(1):3.
Crossref

 

Van der Eijk D, Janssen BH, Oenema O (2006) Initial and residual effects of fertilizer phosphorus on soil phosphorus and maize yields on phosphorus fixing soils A case study in south-west Kenya. Agriculture, ecosystems & environment 116(1-2):104-120.
Crossref

 

Van R (1933). Procedures for soil analysis, 4th ed. International soil reference and information center, Netherlands.

 

Wakene N (2001). Assessment of important physicochemical properties of dystric udalf (dystric Nitosols) under different management systems in Bako area, Western Ethiopia. MSc Thesis. Alemaya University, Ethiopia.

 

Walkley A, Black CA (1934). An examination of DeGraff method for determining soil organic matter and proposed a modification of the chromic acid titration method. Soil science 37(1):29-38.
Crossref

 

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.
Crossref

 

Worku K, Debela A, Shanko D (2017). Characterization of the existing soil management in relation to some selected physico-chemical properties at Bulehora Woreda, West Guji Zone. International Journal of Agricultural Research, Innovation and Technology 7(2):43-48.
Crossref

 

Yimer F (2017). Effect of Landscape Positions on Soil Properties in an Agricultural Land A Transect Study in the Main Rift Valley Area of Ethiopia. Journal of Science and Development 5(1):21-31.

 

Yimer F, Ledin S, Abdelkadir A (2006). Soil property variations in relation to topographic aspect and vegetation community in the southeastern highlands of Ethiopia. Forest Ecology and Management 232(1):90-99.
Crossref