IDENTIFICATION OF SOIL ERODIBILITIES FOR AN APPLICATION OF WEPP MODEL WITH BIOLOGICAL GROUND COVER BY ALGAE AND FUNGI

It has been recognized that dynamics of water and the associated materials such as sediment and nutrients are important to conserve ecosystem existing in a watershed. Among others, excess soil and nutrients transports toward the coastal zones and deposition on corals are one of the major environment...

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Veröffentlicht in:	Doboku Gakkai Ronbunshu. G, Kankyo = Journal of Japan Society of Civil Engineers. Ser. G, Environmental Research Ser. G (Environmental Research), 2018, Vol.74(5), pp.I_233-I_239
Hauptverfasser:	KOJIMA, Rui, OSAWA, Kazutoshi, MATSUURA, Maki, FUJISAWA, Hisako, TOMISAKA, Mineto, MATSUI, Hiroyuki
Format:	Artikel
Sprache:	jpn
Schlagworte:	Algae Biological Soil Crust(BSC) Coastal zone Coastal zones Computer simulation Corals Ecosystems Erodibility Erosion mechanisms Erosion rates Fluid flow Fungi Ground cover Mineral nutrients Nutrients Okinawa Parameter identification Rain Raindrops Rainfall Rainfall intensity Reduction Rill erosion Sediment Sediment yield Sediments Shear stress Soil conservation Soil erosion Soil microorganisms Soil stresses Water erosion Watersheds WEPP
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container_title	Doboku Gakkai Ronbunshu. G, Kankyo = Journal of Japan Society of Civil Engineers. Ser. G, Environmental Research
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creator	KOJIMA, Rui OSAWA, Kazutoshi MATSUURA, Maki FUJISAWA, Hisako TOMISAKA, Mineto MATSUI, Hiroyuki
description	It has been recognized that dynamics of water and the associated materials such as sediment and nutrients are important to conserve ecosystem existing in a watershed. Among others, excess soil and nutrients transports toward the coastal zones and deposition on corals are one of the major environmental problems in Okinawa, Japan, in which agricultural area is the major source of sediment yield. In this study, we focused on a soil erosion reduction measure by using biological ground cover by algae and fungi, called Biological Soil Crust, BSC. As the results of erosion experiments, interrill and rill erosion rate increased with increasing rainfall intensity and flow shear stress acting on the soil particles under the bare ground condition. These erosion rates decreased under the ground covered condition with BSC. Significantly, rill erosion did not occur while the soil is covered with BSC. The reduction effect of BSC was sustained even though the surface cover was detached by rain drops. Soil erodibities were identified from measured erosion rates, and the parameters of soil erodibilities were input into the Water Erosion Prediction Project, WEPP model. Simulation results of WEPP model revealed that the sediment yield under the ground covered condition with BSC decreased by around 90% of that under the bare ground condition.
doi_str_mv	10.2208/jscejer.74.I_233
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subjects	Algae Biological Soil Crust(BSC) Coastal zone Coastal zones Computer simulation Corals Ecosystems Erodibility Erosion mechanisms Erosion rates Fluid flow Fungi Ground cover Mineral nutrients Nutrients Okinawa Parameter identification Rain Raindrops Rainfall Rainfall intensity Reduction Rill erosion Sediment Sediment yield Sediments Shear stress Soil conservation Soil erosion Soil microorganisms Soil stresses Water erosion Watersheds WEPP
title	IDENTIFICATION OF SOIL ERODIBILITIES FOR AN APPLICATION OF WEPP MODEL WITH BIOLOGICAL GROUND COVER BY ALGAE AND FUNGI
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