Experimental studies on rain splash erosion of forest soils after clearing in Okinawa using an artificial rainfall apparatus |
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| Authors: | Email author" target="_blank">Yasuhiro?OhnukiEmail author Akira?Shimizu |
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| Institution: | (1) Forestry and Forest Products Research Institute, 1 Matsunosato, Tsukuba, 305-8687, Japan |
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| Abstract: | The main island of Okinawa, in southwestern Japan, is characterized by a subtropical climate, coral reefs, and  reddish soils, which contain Acrisols and Cambisols (FAO/UNESCO classifications). Recently, due to soil erosion on hilly lands, the coral reefs have been damaged by an inflow of reddish soil. Forest clearing is thought to one of the factors increasing rain splash erosion rates on hilly lands, because it is believed that clearing disturbs the forest floor and causes the supply of litter to stop. After clearing, A0, A and B horizons will be denuded, one after the other, by rain splash. In this study, we measured rain splash erosion rates of undisturbed samples of A0, A and B horizons using an artificial rainfall apparatus. The results of experiments on rain splash erosion clarified several aspects of the erosion process in a clearing site. First, it was found that the rain splash erosion rates were higher in fresh litter than in decomposed litter, in decomposed litter than in the A horizon, and in the A horizon than in the B horizon. Thus, the erosion rate increases with soil depth. Secondly, surface-gleyed red and yellow soils are mostly vulnerable to rain splash erosion. The erosion rates of these soils are two to three times higher than those of the red soil and the yellow soils. Thirdly, the erosion rates are affected mainly by bulk density and saturated hydraulic conductivity, not by clay ratio and dispersion ratio. Lastly, the difference between erosion rates of surface-gleyed red and yellow soils and other soils will be even greater if a soil crust has formed, because the formation of a soil crust increases the rain splash erosion rate. |
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| Keywords: | Erosion Clearing Rain splash Forest soil Artificial rainfall |
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