题名

飛濺沖蝕量估算公式之研發

并列篇名

Development of Splash Erosion Estimation Equation

DOI

10.29417/JCSWC.202306_54(2).0004

作者

吳振遠(Zhen-Yuan Wu);吳嘉俊(Chia-Chun Wu);謝政運(Jheng-Yun Sie);林欣潔(Xin-Jie Lin)

关键词

飛濺沖蝕 ; 水滴粒徑 ; 土壤體積含水量 ; 土壤性質 ; 水團粒穩定度 ; Splash erosion ; Waterdrop diameter ; Volumetric soil water content ; Soil properties ; Water aggregate stability

期刊名称

中華水土保持學報

卷期/出版年月

54卷2期(2023 / 06 / 01)

页次

130 - 140

内容语文

繁體中文;英文
中文摘要

水蝕始於雨滴的撞擊,雖然雨滴粒徑所代表的降雨沖蝕潛能、土壤機械組成與團粒穩定度所代表之土壤沖蝕性看似相互獨立,但兩者之間的交叉影響,甚至土壤體積水分含量,關係著飛濺沖蝕的發展與飛濺沖蝕量的多寡。本研究利用水滴產生器,在不同土壤體積水分含量及土壤機械組成情況下,探討水滴粒徑、土壤體積水分含量,以及土壤機械組成與團粒穩定度對飛濺沖蝕量之影響。研究結果顯示,飛濺沖蝕量與水滴粒徑、修正版顆粒粒徑參數、土壤體積水分含量及水團粒穩定度具有高度相關。藉由迴歸分析,本研究進一步獲得飛濺沖蝕量估算公式,調整後之判定係數(adjusted coefficient of determination)R^2達0.804,各參數皆達顯著水準。
英文摘要

Water erosion starts with raindrops impact. Raindrop impact (which reflects the erosivity of precipitation) has been treated as independent mechanism with respect to the constitution of primary particles and stability of soil aggregate (which characterizes soil erodibility), but they interact; even volumetric soil water content may affect the process as well as the amount of soil loss from splash erosion. This study uses waterdrop generator to study the splash erosion at different volumetric soil water contents and soil properties. Results indicate that amount of splash erosion is highly correlated with waterdrop diameters, modified particle-size parameter, volumetric soil water content, and water aggregate stability. A splash erosion estimation equation was developed, in which all principal physical parameters were embedded, the adjusted coefficient of determination R^2 reaches 0.804, and all parameters reach statistic significant level.
主题分类 生物農學 > 農業
生物農學 > 森林
生物農學 > 畜牧
生物農學 > 漁業
生物農學 > 生物環境與多樣性
工程學 > 土木與建築工程
工程學 > 市政與環境工程
参考文献
  1. Arnold, K.(1986).Methods of Soil Analysis Part: 1, Physical and Mineralogical Methods.American Society of Agronomy USA.
  2. Beczek, M.,Ryżak, M.,Sochan, A.,Mazur, R.,Polakowski, C.,Bieganowski, A.(2021).A new approach to kinetic energy calculation of two-phase soil splashed material.Geoderma,396,115087.
  3. Choo, H.,Park, K.-H.,Won, J.,Burns, S.E.(2018).Resistance of coarse-grained particles against raindrop splash and its relation with splash erosion.Soil & tillage research,184,1-10.
  4. Ellison, W.D.(1952).Raindrop energy and soil erosion.Empire Journal of Experimental Agriculture,20,81-97.
  5. Flanagan, D.C.,Ascough, J.C., II,Nearing, M.A.,Laflen, J.M.(2001).Chapter 7: The Water Erosion Prediction Project (WEPP) Model.Landscape Erosion and Evolution Modeling,51,145-199.
  6. Fu, Y.,Li, G.,Zheng, T.,Zhao, Y.,Yang, M.(2020).Fragmentation of soil aggregates induced by secondary raindrop splash erosion.CATENA,185,104342.
  7. Hillel, D.(ed.)(1982).Introduction to Soil Physics.San Diego:Academic Press.
  8. Hudson, N.(1995).Soil Conservation.Iowa State Press.
  9. Lane, L.J.,Gilley, J.E.,Nearing, M.A.,Nicks, A.D.(1988).The USDA Water Erosion Prediction Project.ASCE National Conf. on Hydraulic Engineering,Colorado Springs, CO:
  10. Luk, S.H.(1985).Effect of antecedent soil moisture content on rainwash erosion.CATENA,12(2),129-139.
  11. Malizia, J.,Shakoor, A.(2018).Effect of water content and density on strength and deformation behavior of clay soils.Engineering Geology,244,125-131.
  12. Meyer, L.D.(1981).How rain intensity affects interrill erosion.Transactions of the ASAE,24(6),1472-1475.
  13. Morgan, R.P.C.(1981).Field measurement of splash erosion.IAHS Publ,133,373-382.
  14. Mutchler, C.K.,Hansen, L.M.(1970).Splash of a Waterdrop at Terminal Velocity.Science,169(3952),1311-1312.
  15. Page, A.L.(1983).Methods of soil analysis. Part 2. Chemical and microbiological properties.American Society of Agronomy.
  16. Renard, K.G.,Foster, G.R.,Weesies, G.A.,McCool, D.K.,Yoder, D.C.(1997).Predicting Soil Erosion by Water: A Guide to Conservtion Planning with the Revised Universal Soil Loss Equation (RUSLE).U.S. Department of Agriculture.
  17. Ryżak, M.,Bieganowski, A.,Polakowski, C.(2015).Effect of soil moisture content on the splash phenomenon reproducibility.PLoS One,10(3),e0119269.
  18. Salles, C.,Poesen, J.(2000).Rain properties controlling soil splash detachment.Hydrological Processes,14(2),271-282.
  19. Sparks, D.L.,Page, A.L.,Helmke, P.A.,Loeppert, R.H.,Soltanpour, P.N.,Tabatabai, M.A.,Johnston, C.T.,Sumner, M.E.(1996).Methods of soil analysis. Part 3 - chemical methods.American Society of Agronomy.
  20. Wang, B.,Steiner, J.,Zheng, F.,Gowda, P.(2017).Estimating the effect of rain splash on soil particle transport by using a modified model: Study on short hillslopes in Northern China.Earth Surf Process Landf,42,1833-1846.
  21. Wang, Y.,Yang, F.,Qi, S.,Cheng, J.(2020).Impact of rainfall pattern on interrill erosion process.Water,12,2318.
  22. Watson, D.A.,Laflen, J.M.(1986).Soil strength, slope, and rainfall intensity effects on interrill erosion.Transactions of the ASAE,29(1),98-102.
  23. Wischmeier, W.H.,Smith, D.D.(1978).Predicting Rainfall Erosion Losses: A Guide to Conservation Planning.U.S. Department of Agriculture.
  24. Zambon, N.,Johannsen, L.L.,Strauss, P.,Dostal, T.,Zumr, D.,Cochrane, T.A.,Klik, A.(2021).Splash erosion affected by initial soil moisture and surface conditions under simulated rainfall.CATENA,196,104827.
  25. 交通部中央氣象局=Central Weather Bureau(2020).2020 年氣候年報.Taiwan, ROC:交通部中央氣象局=Central Weather Bureau, Ministry of Transportation and Communications.
  26. 吳發啟, F.Q.,范文波, W.B.(2001)。土壤結皮與降雨濺蝕的關係研究。水土保持學報,15(3),1-3。
  27. 吳嘉俊, C.C.,王阿碧, A.P.(1996)。屏東老埤地區雨滴粒徑與沖蝕動能之研究。中華水土保持學報,27(2),151-165。
  28. 肖海, H.,劉剛, G.,趙金凡, J.F.,蒙蒂凱諾, D.K.N.,劉普靈, P.L.(2017)。雨滴機械打擊和消散作用對土壤團聚體的破壞特徵。土壤學報,54(4),827-835。
  29. 林春宏, C.H.(2001)。Taiwan, ROC,國立屏東科技大學水土保持系=National Pingtung University of Science and Technology。
  30. 相瑩敏, Y.M.,張洪江, H.C.,程金花, C.H.,鐘莉, L.,郭春梅, C.M.,劉銀山, Y.S.(2016)。華北土石山區土壤濺蝕影響因素分析。中國水土保持科學,14(2),120-126。
  31. 胡偉, W.,鄭粉莉, F.L.,邊鋒, F.(2016)。降雨能量對東北典型黑土區土壤濺蝕的影響。生態學報,36(15),4708-4717。
  32. 馬仁明, J.M.,蔡崇法, C.F.,李朝霞, C.H.,王軍光, C.K.,馮君園, C.Y.,吳新亮, H.L.,朱惠榮, H.J.(2014)。前期土壤含水率對紅壤團聚體穩定性及濺蝕的影響。農業工程學報,30(3),95-103。
  33. 陳春泉, C.C.,陳宗軒, T.H.(1984).屏東縣山坡地土壤調查報告.Taiwan, ROC:臺灣省政府農林廳山地農牧局=Soil and Water Conservation Bureau, Council of Agriculture, Executive Yuan.
  34. 經濟部水利署=Water Resources Agency(2021)。2021 年臺灣水文年報第一部分-雨量
  35. 趙曉光, H.K.,吳發啟, F.C.(2001)。單雨滴擊濺規律及其對濺蝕土粒的分選作用。水土保持學報,15(1),43-46。
print cancel