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Effect of Bench Terreces on Selected Soil Physico Chemical Properties in Andit Tid Watershed, North Shoa, Ethiopia

Published in Frontiers (Volume 4, Issue 1)
Received: 4 December 2023     Accepted: 21 December 2023     Published: 8 January 2024
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Abstract

Land degradation is a major constraint to sustainable agricultural development in Ethiopia. This study was designed to investigate the effect of bench terrace on selected soil physical and chemical properties in Andit Tid watershed, North Shewa Zone. A total of 90 soil samples (2 treatments*3 replication of sample plot *5consecutive terraces* 3 position/zones:-(loss, middle Deposition zone) were collected from 0-20cm depth. Separate soil samples for bulk density determination were collected based on similar sampling design. Results showed that textural fractions of sand and silt (p=0.001), and soil pH (p=0.027) showed significant variation with treatments while variations in clay, SOM, bulk density, and CEC were not significant. Sand fraction was higher in soils under non-terraced while silt and soil pH were higher under terraced farmland. Soil moisture content showed significant variation (p=0.021) with position: higher at the deposition than the rest positions. Although not significant clay, SOM, and CEC values were found to be higher under farmland with terraces than the non-terraced. This indicated that terrace cultivated lands have improved aggregate stability and good moisture content and non terrace cultivated land have low pore space, low water holding capacity and organic matter content than terrace cultivated land. The higher mean moisture content on deposition zone could be related to the downward movement of clay fractions through erosion. Generally, terracing has a remarkable role in improving soil physical and chemical properties. In addition both terraced and non-terraced cultivated land also required integrated SWC measure for better result. Additional research need to be conducted on the effect of soil properties considering other variables like biological measure and other physical structures.

Published in Frontiers (Volume 4, Issue 1)
DOI 10.11648/j.frontiers.20240401.12
Page(s) 8-16
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Land Degradation, Position, Soil and Water Conservation, Soil Erosion

References
[1] Alemayehu Assefa. 2007. Impact of Terrace Development and Management on Soil Properties in Anjeni Area, West Gojam. Master’s thesis, Addis Ababa University, Ethiopia. 72p.
[2] Ann, M., Clain, J. and Jeff, J. 2005. Soil and Water Management Module 1. The Montana State University Extension Service, Bozeman MT 59717.
[3] Assefa Derebe. 2009. Assessment of upland erosion processes and farmer’s Perception of land conservation in Debre-mewi watershed, near Lake Tana, Ethiopia. A Thesis Presented to the Faculty of Graduate School of Cornell University in Partial Fulfillment of the Requirements for the Degree of Masters of Professional Studies. 104p.
[4] Barauah, T. and H. Barthakulh. 1997. A textbook of soil analysis. Viskas Publishing House. New Delhi, India. 334p.
[5] Blake, G. 1965. Bulk density In Methods of Soil Analysis. Part I. (end. C. A. Black). Am. Society of Agronomy Monograph 9: 374-390.
[6] Bono, R and W. Seiler. 1984. The soils of the Andit Tid Research Unit (Ethiopia). Classification, Morphology and Ecology. Soil Conservation Research Project, Research Report 3. University of Bern, Bern.
[7] Bot, A., J. Benits. 2005. The Importance of Soil Organic Matter Key to Drought Resistant Soil and Sustained Food and Production, FAO, Rome, Italy. 78p.
[8] Chun-Chih, T., Zueng-Sang, C. and Chang-Fu, H. 2004. Relation-ships between soil properties and slope position in a lowland rain forest of southern. Geoderma, 123: 131–142.
[9] Constable, M. 1984. Ethiopian Highlands Reclamation Study: The Degradation of Resources and an Evaluation of Actions to combat it (Draft of Part II of the EHRS Rural Development Strategy). Addis Ababa, Ethiopia. 354p.
[10] Daniel Denano, N. Betru, J. Diribu, F. Berhanu. 2001. Soil and water conservation manual/guideline for Ethiopia, Soil and Water Conservation Team, Natural Resources Management and Regulatory Department, Ministry of Agriculture. Addis Ababa, Ethiopia. 134p.
[11] Dessalegn Rahmato and Taye Assefa. 2006. Land and the Challenge of Sustainable Development in Ethiopia. Forum for Social Studies. Addis Ababa. 197p.
[12] Fantaw Yimer, Stign Ledin, vAbdu Abdelkadir. 2006. Soil property variations in relation to topographic aspect and vegetation community in the south-eastern highlands of Ethiopia, Forest Ecology and Management 232: 90–99.
[13] Girma Tadesse. 2001. Land degradation a challenge to Ethiopia. Environmental management 27: 815-824.
[14] Grunder, M. and M. Zeleke. 1989. Excursion guide of the mid-conference tour, 6th International soil conservation conference on soil conservation for survival. Addis abeba, Ethiopia.
[15] Herweg, K. and Ludi. 1999. The performance of selected soil and water conservation measures case studies from Ethiopia and Eritrea, Catena 36: 99–114.
[16] Huo, Y and B. Zhu. 2013. Analysis on the Benefits of Level Terrace on Soil and Water Conservation in Loess Hilly Areas, Research of Soil and Water Conservation 20: 24-28.
[17] Hurni, H. 1988. Degradation and Conservation of the Resources in the Ethiopian Highlands: Mountain Research and Development. 8(2/3): p 123-30.
[18] Kebede Walka, Awdenegest Moges and Fantaw Yimer. 2011. Effects of level soil bunds and stone bunds on soil properties and its implications for crop production: the case of Bokole watershed, Dawuro zone, Southern Ethiopia, Agricultural science 2: 357–363.
[19] Khan F., Ahmad, W., Bhatti, A. U., Khattak, R. A and Shafiq, M. 2004. Effect of soil erosion on chemical properties of some soil series in NWFP. Science Technology and Development 23(4): 31-35.
[20] Kinati, C. 2006. The Effect of Integrated Soil and Water Conservation Measures On Soil Physical and Chemical Properties, A Case for Enebsie Sar Midir Wereda, Ethiopia. A Thesis Paper, Mekelle University, Mekelle, Ethiopia. 51p.
[21] Li, Y. and Lindstrom, M. J. 2001. Evaluating soil quality, soil redistribution relationship on terraces and steep hill slope. Soil Science Society of America Journal, 65: 1500–1508.
[22] Margesin and F. Schinner. 2005. Manual of Soil Analysis-Monitoring and Assessing Soil. Bioremediation. Springer-Verlag Berlin Heidelberg, Innsbruck, Austria. 5: 366 p.
[23] Million Alemayehu. 2003. Characterization of Indigenous stone bunding (Kab) and its effect on crop yield and soil productivity at Mesobit-Gedba, North Showa zone of Amhara Region. Master of Science thesis, Alemaya University, Ethiopia. P 45-54.
[24] Mulugeta Demelash and S. Karl. 2010. Assessment of integrated soil and water conservation measures on key soil properties in South Gonder, North-Western Highlands of Ethiopia. Journal of Soil Science and Environmental Management 1(7): 164-176.
[25] Mulugeta Lemenehi. 2004. Effects of land use changes on soil quality and native flora degradation and restoration in the highlands of Ethiopia: Implication for sustainable land management. PhD thesis Presented to Swedish University of Agricultural Sciences, Uppsala. Sweden. 64 p.
[26] Olaitan, S. O, Lombin, G and Onazi, O. C. 1984. Introduction to Tropical Soil Science. Macmillan Publishers: Hong Kong. 136p.
[27] Olu, O. 1996. Long-term effect of continuous cultivation of tropical ultisol in south western Nigeria. P. 207-215.
[28] Regina, C., C. Luiza, V. Fla, J. Luiz, Q. Romild, F. Paiva, Terezinha, S. Z. MonteiroLucine, Z. Sousa and K. Bart. 2004. Variation of carbon and nitrogen cycling processes along a topographic gradient in a central Amazonian forest. Global Change Biology 10: 592–600.
[29] Rejani, R and N. Yadukumar. 2010. Soil and water conservation techniques in cashew grown along steep hill slopes. Scientia Horticultural 126: 371-378.
[30] Sandor, J., P. Gersper, J. Hawley. 1986. Soils at prehistoric agricultural terracing sites: site placement soil morphology and classification, in NewMexico. Soil Scince society of amarican jurnal 50: 166–173.
[31] Soares, J. L. N., Espindola, C. R and Pereira, W. L. M. 2005. Physical properties of soils under intensive agricultural management. Scientia Agricola, 62(2): 165-172.
[32] Tadele Amdemariam, Yihenew Gebereselassie, Mitiku Haile and C., Yamoh. 2011. Effect of Soil and Water Conservation Measures on Selected Soil Physical and Chemical Properties and Barley (Hordeum spp.) Yield. Journal of Environmental Science and Engineering, 5: 1483-1495.
[33] Tesfahun Fanta and Osman Ali. 2003. Challenge and prospects of food security in Ethiopia, in Proceeding of the Food Security Conference, UNNCC, Addis Ababa, Ethiopia, 223p.
[34] Toy, T., G. Foster, K. Renard. 2002. Soil erosion: processes, prediction, measurement, and control. Wiley, New York. 338p.
[35] Wadera Lemma. 2013. Characterization and Evaluation of Improved Ston Bunds for Moisture Conservation, Soil Productivity and Crop Yield in Laelay Maychew Woreda of Central Tigray, M. Sc. Thesis. School of Graduate Studies, Haramaya University, Ethiopia. 84p.
[36] Walkley, A and I. A. Black. 1934. An examination of the Degtjareff method for determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Scince 37: 29-38.
[37] Woldeamlak Bewket and L. Stroosnijder. 2003. Effects of agro-ecological land use succession on soil properties in the Chemoga watershed, Blue Nile basin, Ethiopia. Geoderma 111(1-2): 85-98.
[38] Yihenew Gebreselassie. 2002. Selected chemical and physical characteristics of soils Adet Research Center and its Testing Sites in North-Western Ethiopia. Ethiopian Journal of Natural Resources 2: 199-215.
[39] Yohannes Geberemihale. 1989. Land use, Agricultural production and soil conservation methods in the Andit Tid area, Shewa Region. Soil Conservation Research Project, Research Report 17, Addis Ababa. 167P.
[40] Zhang, Y., N. Cao, M. Wu and F. Wu. 2005. Analysis on soil moisture character of level terrace on the south Loess Plateau, Chinese Agricultural Science Bulletin 21: 215-220.
Cite This Article
  • APA Style

    Tadese, G., Shiferaw, A. (2024). Effect of Bench Terreces on Selected Soil Physico Chemical Properties in Andit Tid Watershed, North Shoa, Ethiopia. Frontiers, 4(1), 8-16. https://doi.org/10.11648/j.frontiers.20240401.12

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    ACS Style

    Tadese, G.; Shiferaw, A. Effect of Bench Terreces on Selected Soil Physico Chemical Properties in Andit Tid Watershed, North Shoa, Ethiopia. Frontiers. 2024, 4(1), 8-16. doi: 10.11648/j.frontiers.20240401.12

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    AMA Style

    Tadese G, Shiferaw A. Effect of Bench Terreces on Selected Soil Physico Chemical Properties in Andit Tid Watershed, North Shoa, Ethiopia. Frontiers. 2024;4(1):8-16. doi: 10.11648/j.frontiers.20240401.12

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  • @article{10.11648/j.frontiers.20240401.12,
      author = {Gezahagn Tadese and Aneteneh Shiferaw},
      title = {Effect of Bench Terreces on Selected Soil Physico Chemical Properties in Andit Tid Watershed, North Shoa, Ethiopia},
      journal = {Frontiers},
      volume = {4},
      number = {1},
      pages = {8-16},
      doi = {10.11648/j.frontiers.20240401.12},
      url = {https://doi.org/10.11648/j.frontiers.20240401.12},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.frontiers.20240401.12},
      abstract = {Land degradation is a major constraint to sustainable agricultural development in Ethiopia. This study was designed to investigate the effect of bench terrace on selected soil physical and chemical properties in Andit Tid watershed, North Shewa Zone. A total of 90 soil samples (2 treatments*3 replication of sample plot *5consecutive terraces* 3 position/zones:-(loss, middle Deposition zone) were collected from 0-20cm depth. Separate soil samples for bulk density determination were collected based on similar sampling design. Results showed that textural fractions of sand and silt (p=0.001), and soil pH (p=0.027) showed significant variation with treatments while variations in clay, SOM, bulk density, and CEC were not significant. Sand fraction was higher in soils under non-terraced while silt and soil pH were higher under terraced farmland. Soil moisture content showed significant variation (p=0.021) with position: higher at the deposition than the rest positions. Although not significant clay, SOM, and CEC values were found to be higher under farmland with terraces than the non-terraced. This indicated that terrace cultivated lands have improved aggregate stability and good moisture content and non terrace cultivated land have low pore space, low water holding capacity and organic matter content than terrace cultivated land. The higher mean moisture content on deposition zone could be related to the downward movement of clay fractions through erosion. Generally, terracing has a remarkable role in improving soil physical and chemical properties. In addition both terraced and non-terraced cultivated land also required integrated SWC measure for better result. Additional research need to be conducted on the effect of soil properties considering other variables like biological measure and other physical structures.
    },
     year = {2024}
    }
    

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  • TY  - JOUR
    T1  - Effect of Bench Terreces on Selected Soil Physico Chemical Properties in Andit Tid Watershed, North Shoa, Ethiopia
    AU  - Gezahagn Tadese
    AU  - Aneteneh Shiferaw
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    N1  - https://doi.org/10.11648/j.frontiers.20240401.12
    DO  - 10.11648/j.frontiers.20240401.12
    T2  - Frontiers
    JF  - Frontiers
    JO  - Frontiers
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    PB  - Science Publishing Group
    SN  - 2994-7197
    UR  - https://doi.org/10.11648/j.frontiers.20240401.12
    AB  - Land degradation is a major constraint to sustainable agricultural development in Ethiopia. This study was designed to investigate the effect of bench terrace on selected soil physical and chemical properties in Andit Tid watershed, North Shewa Zone. A total of 90 soil samples (2 treatments*3 replication of sample plot *5consecutive terraces* 3 position/zones:-(loss, middle Deposition zone) were collected from 0-20cm depth. Separate soil samples for bulk density determination were collected based on similar sampling design. Results showed that textural fractions of sand and silt (p=0.001), and soil pH (p=0.027) showed significant variation with treatments while variations in clay, SOM, bulk density, and CEC were not significant. Sand fraction was higher in soils under non-terraced while silt and soil pH were higher under terraced farmland. Soil moisture content showed significant variation (p=0.021) with position: higher at the deposition than the rest positions. Although not significant clay, SOM, and CEC values were found to be higher under farmland with terraces than the non-terraced. This indicated that terrace cultivated lands have improved aggregate stability and good moisture content and non terrace cultivated land have low pore space, low water holding capacity and organic matter content than terrace cultivated land. The higher mean moisture content on deposition zone could be related to the downward movement of clay fractions through erosion. Generally, terracing has a remarkable role in improving soil physical and chemical properties. In addition both terraced and non-terraced cultivated land also required integrated SWC measure for better result. Additional research need to be conducted on the effect of soil properties considering other variables like biological measure and other physical structures.
    
    VL  - 4
    IS  - 1
    ER  - 

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Author Information
  • Natural Resource Department, Alage ATVET College, Ziway, Ethiopia

  • Natural Resource Department, Alage ATVET College, Ziway, Ethiopia

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