Abstract
The non-point source pollution of agricultural nutrients (P and N) by surface water is not well quantified in the Ethiopia highlands. The objective of this study was to quantify soil nutrients (N and P) from an agricultural uplands area in upper Blue Nile basin. A small watershed (104.6 ha) and nested gully catchment were gauged for data collection. Two years (2015 and 2016) data of runoff, sediment, sediment-associated and dissolved soil nutrients loss were collected from two gagging stations. Both dissolved and sediment associated nutrients were computed for 2015 and 2016 rainy seasons. The result indicated that sediment associated nutrient loss was significantly higher than the dissolved nutrient loss. In 2015, the nutrients loss was 8.93 kg ha−1yr−1 N and 0.3 kg ha−1yr−1 P at the outlet of W-1 and 3.04 kg ha−1yr−1 N and 0.14 kg ha−1yr−1 P at the outlet of W-2. In 2016, 7.67 kg ha−1yr−1 N and 0.24 kg ha−1yr−1 P were lost at the outlet of W-1 and 8.44 kg ha−1yr−1 N and 0.57 kg ha−1yr−1 P were lost at the outlet of W-2. Nutrients losses with sediment were 91.3% and 45.6% of N and P, respectively. High amount of nitrogen was lost with sediment than in dissolved form indicating that soil erosion is an important process for soil nutrients losses in the highland. Therefore, soil and water conservation practices are practically significant to control soil nutrients loss.
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References
Sims, J., Simard, R., Joern, B.: Phosphorus loss in agricultural drainage: historical perspective and current research. J. Environ. Qual. 27(2), 277–293 (1998)
Haijin, Z., Jie, Y., Hongjiang, Z.: Field simulated experiment on erosion processes of different farm roads under a heavy rain in red soil region. Trans. Chin. Soc. Agric. Mach. 43(9), 85–90 (2012)
Flaig, E.G., Reddy, K.: Fate of phosphorus in the Lake Okeechobee watershed, Florida, USA: overview and recommendations. Ecol. Eng. 5(2–3), 127–142 (1995)
Daniel, T., et al.: Minimizing surface water eutrophication from agriculture by phosphorous management. J. Soil Water Conserv. 49(2), 30 (1994)
Sharpley, A.N., et al.: Managing agricultural phosphorus for protection of surface waters: Issues and options. J. Environ. Qual. 23(3), 437–451 (1994)
Sonzogni, W., et al.: Bioavailability of phosphorus inputs to lakes. J. Environ. Qual. 11(4), 555–563 (1982)
Logan, T.J.: Mechanisms for release of sediment-bound phosphate to water and the effects of agricultural land management on fluvial transport of particulate and dissolved phosphate. In: Sly, P.G. (ed.) Sediment/Freshwater Interaction. DIHY, vol. 9, pp. 519–530. Springer, Dordrecht (1982). https://doi.org/10.1007/978-94-009-8009-9_50
Carpenter, S.R., et al.: Nonpoint pollution of surface waters with phosphorus and nitrogen. Ecol. Appl. 8(3), 559–568 (1998)
Correll, D.L.: The role of phosphorus in the eutrophication of receiving waters: a review. J. Environ. Qual. 27(2), 261–266 (1998)
Sharpley, A., Menzel, R.: The impact of soil and fertilizer phosphorus on the environment. Adv. Agron. 41, 297–324 (1987)
Sharpley, A., Tiessen, H., Cole, C.: Soil phosphorus forms extracted by soil tests as a function of pedogenesis. Soil Sci. Soc. Am. J. 51(2), 362–365 (1987)
Taylor, A., Kilmer, V.: Agricultural phosphorus in the environment. In: The Role of Phosphorus in Agriculture, (Theroleofphosph), pp. 545–557 (1980)
Brown, C., Miller, S.: The impacts of local markets: a review of research on farmers markets and community supported agriculture (CSA). Am. J. Agric. Econ. 90(5), 1298–1302 (2008)
Hurni, H.: Applied soil conservation research in Ethiopia (1989)
Shiferaw, B., Holden, S.T.: Resource degradation and adoption of land conservation technologies in the Ethiopian highlands: a case study in Andit Tid, North Shewa. Agric. Econ. 18(3), 233–247 (1998)
Nyssen, J., et al.: Érosion et conservation des sols en montagne sahélienne: le cas de l ‘Éthiopie du Nord. Science et changements planétaires/Sécheresse 15(1), 33–39 (2004)
Descheemaeker, K., et al.: Litter production and organic matter accumulation in exclosures of the Tigray highlands, Ethiopia. For. Ecol. Manag. 233(1), 21–35 (2006)
Hurni, H.: Land degradation, famine, and land resource scenarios in Ethiopia. In: World Soil Erosion and Conservation (1993)
Stoorvogel, J.J., Smaling, E.M.A.: Assessment of soil nutrient depletion in Sub-Saharan Africa: 1983-2000. Vol. 2: nutrient balances per crop and per land use systems. In: ISRIC (1990)
Stoorvogel, J., Smaling, E.A., Janssen, B.: Calculating soil nutrient balances in Africa at different scales. Fertil. Res. 35(3), 227–235 (1993)
Haileselassie, T., Skogsmyr, I.: Effects of nutrient level on maternal choice and siring success in Cucumis sativus (Cucurbitaceae). Evol. Ecol. 19(3), 275–288 (2005)
Yirga, C., Hassan, R.M.: Social costs and incentives for optimal control of soil nutrient depletion in the central highlands of Ethiopia. Agric. Syst. 103(3), 153–160 (2010)
Pimentel, D., et al.: Environmental and economic costs of soil erosion and conservation benefits. Science 267(5201), 1117–1122 (1995). AAAS-Weekly Paper Edition
Hoben, A.: Paradigms and politics: the cultural construction of environmental policy in Ethiopia. World Dev. 23(6), 1007–1021 (1995)
Nyssen, J., et al.: Soil and water conservation in Tigray (Northern Ethiopia): the traditional technique and its integration with introduced techniques. Land Degrad. Dev. 11, 199–208 (2000)
Sharpley, A., Meyer, M.: Minimizing agricultural nonpoint-source impacts: a symposium overview. J. Environ. Qual. 23(1), 1–3 (1994)
Tilahun, S.A., et al.: Revisiting storm runoff processes in the upper Blue Nile basin: the Debre Mawi watershed. Catena 143, 47–56 (2016)
Hach, C.C., Brayton, S.V., Kopelove, A.B.: A powerful Kjeldahl nitrogen method using peroxymonosulfuric acid. J. Agric. Food Chem. 33(6), 1117–1123 (1985)
Olsen, S.R.: Estimation of available phosphorus in soils by extraction with sodium bicarbonate. United States Department of Agriculture, Washington (1954)
Tebebu, T., et al.: Surface and subsurface flow effect on permanent gully formation and upland erosion near Lake Tana in the northern highlands of Ethiopia. Hydrol. Earth Syst. Sci. 14(11), 2207–2217 (2010)
Sharpley, A.N., et al.: Agricultural phosphorus and eutrophication. US Department of Agriculture, Agricultural Research Service, ARS–149, p. 44 (2003)
Girmay, G., et al.: Runoff and sediment-associated nutrient losses under different land uses in Tigray, Northern Ethiopia. J. Hydrol. 376, 70–80 (2009)
Erkossa, T., et al.: Linking soil erosion to on-site financial cost: lessons from watersheds in the Blue Nile basin. Solid Earth 6(2), 765–774 (2015)
Smith, R.A., Alexander, R.B.: Sources of Nutrients in the Nation’s Watersheds. US Geological Survey (2000)
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This research was supported by CGIAR Research Program on Water, Land and Ecosystem’s East Africa focal regional program.
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Bogale, A.G., Aynalem, D.W., Adem, A.A., Mekuria, W., Tilahun, S.A. (2019). Evaluating the Role of Runoff and Soil Erosion on Nutrient Loss in the Chenetale Watershed, Upper Blue Nile Basin, Ethiopia. In: Zimale, F., Enku Nigussie, T., Fanta, S. (eds) Advances of Science and Technology. ICAST 2018. Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, vol 274. Springer, Cham. https://doi.org/10.1007/978-3-030-15357-1_23
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