Tropical and Subtropical Agroecosystems

Background: Terraces are structures consisting of ditches and embankments used to control erosion and increase land productivity. There is, however, little emphasis on the effects of the ditch dimensions on soil moisture and nutrient dynamics. Objective: To determine the effect of varying ditch depths on soil moisture and nutrient quantities and their variability within the terrace slope on hard-setting soils. Methodology: Soil samples were collected seasonally in 2014 and 2015 from terraces with different ditch depths (60, 30, and 0 [control] cm) for the determination of soil moisture content (SMC). The samples were collected from the upper, middle and lower slope positions of each terrace. Soil from the three slope positions of each terrace was also sampled at the end of the study and analyzed for total nitrogen (%TN), available phosphorous (Av. P), exchangeable potassium (K+) and % organic carbon (OC) contents. Data were subjected to a two-way analysis of variance and differences in means determined at a 95% level of confidence. Results: Significant interactions (P<0.001) in SMC were observed between seasons, ditch depths and slope positions. Higher SMC was found in treatments with 30 and 60 cm ditch depths in all the slope positions and seasons compared to the control. Soil moisture contents in the lower and upper slope positions were significantly different between the terraces with 30 and 60 cm ditch depths when rainfall was high and evenly distributed, but non-significant in poorly distributed rainfall seasons. Significant differences (P ≤ 0.05) in contents of total nitrogen and available phosphorous were found between the upper and lower slope positions of the terraces with ditches. Implications: The effect of ditch depths on moisture, total nitrogen and available phosphorous contents and their variability within the slope depended on the amount and distribution of rainfall. Conclusion: Construction of terraces with shallow ditch depths (of 30 cm) is recommended to conserve soil moisture and nutrients nitrogen and phosphorous on hard-setting soils in the marginal areas of semi-arid Eastern Kenya. 

Land productivity; ditch depth; variability; slope position; marginal areas

Amare, T., Terefe, A., Selassie, Y. G., Yitaferu, B., Wolfgramm, B. and Hurni, H., 2013. Soil Properties and crop yields along the terraces and toposequece of Anjeni watershed, Central highlands of Ethiopia. Journal of Agricultural Science, 5(2), pp. 1916-9760. https://doi.org/10.5539/jas.v5n2p134

Bai, J., Yang, S., Zhang, Y., Liu, X. and Guan, Y., 2019. Assessing the impact of terraces and vegetation on runoff and sediment routing using the Time-Area method in the Chinese Loess Plateau. Water, 11(4), p. 803. https://doi.org/10.3390/w11040803

Baptista, I., Fleskens, L., Ritsema, C., Querido, A., Tavares, J., Ferreira, A. D. and Varela, A., 2015. Soil and water conservation strategies in Cabo Verde and their impacts on livelihoods: An overview from the Ribeira Seca Watershed. Land, 4(1), pp. 22-44. http://doi.org/10.3390/land4010022

Bary?a, A. and Pierzgalski, E., 2008. Ridged terraces ? functions, construction and use. Journal of Environmental Engineering and Landscape Management, 16(2), pp. 104-109 https://doi.org/10.3846/1648-6897.2008.16.104-109

Bernoux M. and Chevallier T., 2014. Carbon in dryland soils. Multiple essential functions. Les dossiers thématiques du CSFD, No. 10. June 2014. CSFD/Agropolis International, Montpellier, France. pp. 40.

Biamah, E. K. and Stroosnijder, L., 2005. Coping with drought: Options of soil and water management in semi-arid Kenya. In: Wageningen University and Research Centre Publication. Tropical Resource Management Papers, 2005.

Binyam, A. Y. and Asmamaw, D., 2015. Rainwater harvesting: An option for dry land agriculture in arid and semi-arid Ethiopia. International Journal of Water Resources and Environmental Engineering, 7, pp. 17-28. http://dx.doi.org/10.5897/IJWREE2014.0539

Bremner, J. M. and Mulvaney, C. S., 1982. Nitrogen-total. In: Page, A. L., Miller, R. H. and Keeney, D. R. (eds). Methods of Soil Analysis, Part 2: Chemical and microbiological Properties, Second Edition, Soil Science Society of America, US. pp. 595-624.

Bresson L-M, LeBissonnais Y. and Andrieux, P., 2006. Soil surface crusting and structure slumping in Europe. In: Boardman, J. and Poesen, J. (eds) Soil erosion in Europe. Wiley, London. pp. 489-500.

Dagnachew, M., Moges, A., Kebede, A. and Abebe, A., 2020. Effects of soil and water conservation measures on soil quality indicators: The case of Geshy sub-catchment, Gojeb river catchment, Ethiopia. Applied and Environmental Soil Science, 2020, 16 p. ID 1868792, 16 p. https://doi.org/10.1155/2020/1868792.

Daniells, I. G., 2012. hard-setting soils: a review. Soil Research, 50(5), pp. 349-359. CSIRO Publishing Soils Journal. Article http://dx.doi.org/10.1071/SR11102

Dejene, T., 2017. The effectiveness of stone bund to maintain soil physical and chemical properties: The case of Weday watershed, East Hararge Zone, Oromia, Ethiopia. Civil and Environmental Research, 9(12), pp. 9-18.

Deng, C., Zhang, G., Liu, Y., Nie, X., Li, Z., Liu, J. and Zhu, D., 2021. Advantages and disadvantages of terracing: A comprehensive review. International Soil and Water Conservation Research Journal, 9, pp. 344-359. https://doi.org/10.1016/j.iswcr.2021.03.002

Dercon, G., Deckers, J., Govers, G., Poesen, J., Sanchez, H. and Vanegas, R., 2003. Spatial variability in soil properties on slow forming terraces in the Andes region of Ecuador. Soil and Tillage Research, 72, pp. 31-41. https://doi.org/10.5539/jas.v5n2p134

Dorren, L. and Rey, F., 2004. A review of the effect of terracing on erosion. In: Boix-Fayons, C. and Imeson, A. (eds). Briefing papers of the Second Soil Conservation and Protection for Europe (SCAPE) Workshop Cinque Terre, Italy. pp. 97-108. https://www.ecorisq.org/docs/Dorren_Rey

FAO/UNESCO., 1997. Food and Agriculture Organization of the United Nations/United Nation Educational, Scientific and Cultural Organization. Soil Map of the World. Revised Legend. World Soil Resources, Report 60. FAO: Rome, pp.1997. 41.

Gachene, C. K. and Baaru, M., 2011. Effects of vegetative macro contour lines on moisture conservation and crop performance in Kathekakai, Machakos District. A paper presented during the Fourth National Conference for dissemination of research results and Exhibition Innovation. National Council of Science and Technology. Nairobi, Kenya. 3rd–6th May 2011.

GENSTAT., 2016. Release 14.2. Lawes Agricultural Trust-IACR. Rothamsted Experimental Station, U.K.

Gichuki, F. N., 1991. Environmental change and dryland management in Machakos District, Kenya 1930-90. Conservation profile. Results of ODI Research presented in preliminary form for discussion and critical comment. Nairobi. http://www.cabdirect.org/abstracts/19926714762.html

Hammad, A. A., Haugen, L. E. and Borresen T., 2004. Effects of stone-walled terracing techniques on soil-water conservation and wheat production under Mediterranean conditions. Environmental Management Journal, 34. https://doi.org/10.1007/s00267-00-0278-9

Hussein, M. H., Amien, I. M. and Kariemb, T. H., 2016. Designing terraces for the rainfed farming region in Iraq using the RUSLE and hydraulic principles. International Soil and Water Conservation Research Journal, 4, pp. 39-44.

Ifejika, S. C., 2010. Resilient adaptation to climate change in African agriculture / Chinwe Ifejika Speranza. – Bonn: DIE, 2010. (Studies/Deutsches Institut für Entwicklungspolitik; 54).

Jaetzold, R., Schmidt, H., Hornet, Z. B. and Shisanya, C. A., 2006., Farm Management Handbook of Kenya Vol. 11/C, Natural Conditions and Farm Information 2nd Ed. Eastern Province. Ministry of agriculture, Kenya, in Cooperation with the German Agency for Technical Cooperation (GTZ), Nairobi, Kenya.

Kannan, N., Senthivel, T., Rayar, A. J. and Mutesa, F., 2009. Analysis of soil moisture conservation techniques with dry season maize crop on hill land at Rubirizi, Rwanda. Paper presented at GLOBELICS 2009, Seventh International Conference. Dakar, Senegal. 6th - 8th October, 2009.

Li, J., Zhang, W. J., Zhang, J. P., 2012. Comparative analysis of water reduction benefits between terrace and slope land in Southern area of Ningxia: Taking Haoshuichuan Watershed as an example. Applied Mechanics and Materials, 212-213, pp. 83-87. https://doi.org/10.4028/www.scientific.net/amm.212-213.83

Mati, B. M., 2005. Overview of water and soil nutrient management under smallholder rainfed agriculture in East Africa. Working Paper 105. Colombo, Sri Lanka: International Water Management Institute (IWMI). 11, 81 [IWMI Working Paper 105]

Mati, B. M., 2012. Soil and Water Conservation Structures for Smallholder Agriculture. Training Manual 5. Nile Basin Initiative (NBI), Nile Equatorial Lakes Subsidiary Action Programme (NELSAP) - Regional Agricultural and Trade Programme (RATP), Bujumbura, Burundi.

Million, A., 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, MSc. Thesis, Alemaya University, Alemaya, Ethiopia. 134 p

Miriti, J. M., Kironchi, G., Gachene, C. K. K., Heng, L. K. and Mwangi, D. M., 2013. The effects of tillage systems on soil physical properties and water conservation in a sandy loam soil in Eastern Kenya. Journal of Soil Science and Environmental Management, 4(7), pp. 146-154. https://doi.org/10.5897/JSSEM2013.0395

Mutunga, K., 1999. Water conservation, harvesting and management - Kenyan experience. In: Stott, D. E., Mohtar, R. H. and Steinhardt, G. C. (eds.) Sustaining the Global Farm, Selected papers from the Tenth International Soil Conservation Organization Meeting, May 24-29, 1999, West Lafayette, IN. 2001, 1139-1143. http://topsoil.nserl.purdue.edu/nserlweb/destott/default.htm

Nelson, E. W. and Sommers, L. E., 1982. Total carbon, organic carbon, and organic matter. In: Page, A. L., Miller, R. H. and Keeney, D. R. (eds) Methods of soil analysis: Chemical methods, Part 3. Soil Science Society of America. Madison WI, USA. pp. 542-560.

Nyamadzawo, G., Wuta, M., Nyamangara, J. and Gumbo, D., 2013. Opportunities for optimization of in-field water harvesting to cope with changing climate in semi-arid smallholder farming areas of Zimbabwe. SpringerPlus, 2, art. No. 100. http://doi.org/10.1186/2193-1801-2-100

Ofori, E., Atakora, E. T., Kyei-Baffour, N. and Antwi, B. O., 2013. Relationship between landscape positions and selected soil properties at a Sawah site in Ghana. African Journal of Agricultural Research, 8(27), pp. 3646-3652 https://doi.org/10.5897/AJAR12.150

Olsen, S. R. and Sommers, L. E., 1982. Phosphorus. In: Page, A. L., Miller, R. H. and Keeney, D. R. (eds). Methods of soil analysis, Part 2. Chemical and microbiological properties, 2nd Ed. Soil Science Society of America. USA. pp. 403-427.

Plaza-Bonilla, D., Arrúe, J. L., Cantero-Martínez, C. Fanlo, R., Iglesias, A. and Álvaro-Fuentes, J., 2015. Carbon management in dryland agricultural systems. A review. Agronomy for Sustainable Development, 35, pp. 1319–1334. https://doi.org/10.1007/s13593-015-0326-x

Posthumus, H. and Stroosnijder, L., 2010. To terrace or not: The short-term impact of bench terraces on soil properties and crop response in the Peruvian Andes. Journal of Environment, Development and Sustainability, 12(2), pp. 263-276. https://dx.doi.org/10.1007/s10668-009-9193-4

Ruto, A. C., Gachene, C. K., Gicheru, P. T. Mburu, D. M. and Zeinab, K., 2017. Soil moisture variability and uptake of selected nutrients by maize along the toposequence of terraced Andosols in Narok Kenya. Journal of Agricultural Science and Food Technology, 3(5), pp. 78-87. http://pearlresearchjournals.org/journals/jasft/index.html

Ruto, A. C., 2015. Optimizing moisture and nutrient variability under different cropping patterns in terraced farms for improved crop performance in Narok County, Kenya. PhD Thesis. University of Nairobi.

Scott, E. M., Bellis, E. and Gethin-Jones, G. H., 1963. The soils of the Nairobi-Thika-Yatta-Machakos Area: Directorate of Overseas Surveys, Sheets D.O.S. 3013. 148/2, 148/4, 149/1-4, 150/1 and 153 and D.O.S. 3014, East sheet and West sheet. https://library.wur.nl/WebQuery/isric

Sheng, T. C., 2002. Bench terrace design made simple. In: Twelfth ISCO Conference. pp. 500–504. http://tucson.ars.ag.gov/isco/isco12/VolumeIV/BenchTerraceDesignMadeSimple.pdf

Shimbahri, M. G., Almeida, O. L. A., Yazew, E., Bresci, E. and Castelli, G., 2019. Spatial variability of soil moisture in newly implemented agricultural bench terraces in the Ethiopian Plateau. Water. 11(10) pp. 2134. http://doi.org/10.3390/w11102134

Shimeles, D., Tamene, L. and Vlek, P. L. G., 2012. Performance of farmland terraces in maintaining soil fertility: A case of Lake Maybar watershed in Wello, Northern highlands of Ethiopia. Journal of Life Sciences, 6(55), pp. 1251-1261. https://doi.org/10.17265/1934-7391/2012.11.010

Siriri, D., Tenywa, M. M., Raussen, T. and Zake, J. K., 2005. Crop and soil variability on terraces in the highlands of SW Uganda. Journal of Land Degradation and Development, 16(6), pp. 569-579. https://doi.org/10.1002/ldr.688

Stern, R., Rijks, D., Dale, I. and Knock, J., 2006. INSTAT climatic guide. Statistical services centre. The University of Reading, UK. pp. 230.

Tadele, A., Selassie, Y. G., Haile, M. and Yamoh, C., 2011. Effect of soil and water conservation measures on selected soil physical and chemical properties and barley (Hordeum spp.) yield, Geography, 5(11), pp. 1483-1495.

Tenge, A. J., De Graff, J. and Hella, J. P., 2005. Financial efficiency of major soil and water conservation measures in West Usambra highlands, Tanzania. Journal of Applied Geography, 25(4), pp. 348-366. https://doi.org/10.1016/j.apgeog.2005.08.003

Tenge, A. J., Sterk, G. and Okoba, B. O., 2011. Farmers’ preferences and physical effectiveness of soil and water conservation measures in the East African highland. Journal of Social Sciences, 2 (1), pp. 84-100.

Wairimu, H. M., 2015. Effect of soil moisture variability on crop performance in a terraced vertisol, Machakos County. MSc Thesis. University of Nairobi.

Wei, Z., Chen, D., Wang, L., Daryanto, S., Chen, L., Yang, Y., Lu, Y., Sun, G. and Tianjiao F., 2016. Global synthesis of the classifications, distributions, benefits and issues of terracing. In: Earth-Science Reviews. pp. 159. http://dx.doi.org/10.1016/j.earscirev.2016.06.010

Widomski, M. K. 2011. Terracing as a measure of soil erosion control and its effect on improvement of infiltration in eroded environment. In: Godone, D. (ed). Soil erosion issues in agriculture, Shanghai, China: InTech, 315-334. http://doi.org/10.5772/24683

Wolka, K., 2014. Effect of soil and water conservation measures and challenges for its adoption: Ethiopia in Focus. Journal of Environmental Science and Technology, 7, pp. 185-199. http://dx.doi.org/10.3923/jest.2014.185.199

Xu, Y., Zhu, G., Wan, Q., Yong, L., Ma, H., Sun, Z., Zhang, Z. and Qiu, D., 2020. Effect of terrace construction on soil moisture in rain-fed farming area of Loess Plateau. Journal of Hydrology, Regional Studies 37(2021), 100889. http://doi.org/10.1016/j.ejrh.2021.100889