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LUCI_SEEA.RUSLEAccScen.pyt.xml
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LUCI_SEEA.RUSLEAccScen.pyt.xml
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<metadata xml:lang="en"><Esri><CreaDate>20200309</CreaDate><CreaTime>11034200</CreaTime><ArcGISFormat>1.0</ArcGISFormat><SyncOnce>TRUE</SyncOnce><ModDate>20210521</ModDate><ModTime>11382200</ModTime><scaleRange><minScale>150000000</minScale><maxScale>5000</maxScale></scaleRange><ArcGISProfile>ItemDescription</ArcGISProfile></Esri><tool name="RUSLEAccScen" displayname="Calculate soil loss accounts using two scenario folders" toolboxalias="LUCI" xmlns=""><arcToolboxHelpPath>c:\program files (x86)\arcgis\desktop10.6\Help\gp</arcToolboxHelpPath><parameters><param name="Output_folder" displayname="Output folder" type="Required" direction="Input" datatype="Folder" expression="Output_folder"><dialogReference><DIV STYLE="text-align:Left;"><DIV><P><SPAN>Specify the path and folder name where output from this tool should be stored.</SPAN></P></DIV></DIV></dialogReference></param><param name="YearA_ScenarioFolder" displayname="Year A: Scenario folder" type="Required" direction="Input" datatype="Folder" expression="YearA_ScenarioFolder"><dialogReference><DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>Specify the path an</SPAN><SPAN>d</SPAN><SPAN> folder where the output from the </SPAN><SPAN STYLE="font-style:italic;">Preprocess data</SPAN><SPAN>tool is stored</SPAN><SPAN>for the first year/scenario</SPAN><SPAN>.</SPAN></P></DIV></DIV></DIV></dialogReference></param><param name="YearB_ScenarioFolder" displayname="Year B: Scenario folder" type="Required" direction="Input" datatype="Folder" expression="YearB_ScenarioFolder"><dialogReference><DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>Specify the path an</SPAN><SPAN>d</SPAN><SPAN> folder where the output from the </SPAN><SPAN STYLE="font-style:italic;">Preprocess data</SPAN><SPAN>tool is stored</SPAN><SPAN>for the second year/scenario</SPAN><SPAN>.</SPAN></P></DIV></DIV></DIV></dialogReference></param><param name="LS_option" displayname="LS-factor: Method option" type="Required" direction="Input" datatype="String" expression="Calculate based on slope and length only | Include upslope contributing area"><dialogReference><DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>This tool has two options to estimate the effect of slope length and steepness:</SPAN></P><UL><LI><P><SPAN STYLE="font-style:italic;">Calculate based on slope and length only</SPAN><SPAN>: This method only accounts for slope length and steepness as specified by Morgan [1].</SPAN></P></LI><LI><P><SPAN STYLE="font-style:italic;">Include upslope contributing area</SPAN><SPAN>: This method includes slope length, steepness, and upslope contributing area as specified by </SPAN><SPAN>Moore and Burch [2]</SPAN><SPAN>. This method may require more processing time if the study area is large or the DEM is high-resolution.</SPAN></P></LI></UL><P><SPAN>Default is Calculate based on slope and length only.</SPAN></P><P><SPAN>[1] Morgan, R. P. C. (2005) Soil Erosion and Conservation. National Soil Resources Institute, Cranfield University.</SPAN></P><P><SPAN>[2] Moore, I. D., &amp; Burch, G. J. (1986). Physical Basis of the Length-slope Factor in the Universal Soil Loss Equation. Soil Science Society of America Journal, 50(5), 1294–1298.</SPAN></P></DIV></DIV></DIV></dialogReference></param><param name="LSfactor_cutoff_angle" displayname="LS-factor: Cutoff slope angle (degrees)" type="Required" direction="Input" datatype="Double" expression="LSfactor_cutoff_angle"><dialogReference><DIV STYLE="text-align:Left;"><DIV><P><SPAN>Specify the cutoff angle for calculating the LS-factor. Beyond this slope angle, only rock is expected to be found with no soil on the surface.The value of 26.6 degrees or 50% was suggested by [1]</SPAN><SPAN>.</SPAN></P><P><SPAN /><SPAN>[1] Panagos, P., Borelli, P., &amp; Meusburger, K. (2015). </SPAN><A href="https://www.mdpi.com/2076-3263/5/2/117"><SPAN>A New European Slope Length and Steepness Factor (LS-factor) for Modeling Soil Erosion by Water</SPAN></A><SPAN>. </SPAN><SPAN STYLE="font-style:italic;">Geosciences</SPAN><SPAN>. 5(2). 117-126.</SPAN></P></DIV></DIV></dialogReference></param><param name="Rainfall_erosivity_A" displayname="R-factor for Year A: Rainfall erosivity dataset" type="Required" direction="Input" datatype="Raster Layer" expression="Rainfall_erosivity_A"><dialogReference><DIV STYLE="text-align:Left;"><DIV><P><SPAN>Specify the path and filename to the rainfall erosivity raster for the first year/scenario.</SPAN></P></DIV></DIV></dialogReference></param><param name="Rainfall_erosivity_B" displayname="R-factor for Year B: Rainfall erosivity dataset" type="Required" direction="Input" datatype="Raster Layer" expression="Rainfall_erosivity_B"><dialogReference><DIV STYLE="text-align:Left;"><DIV><P><SPAN>Specify the path and filename to the rainfall erosivity raster for the </SPAN><SPAN>second </SPAN><SPAN>year/scenario.</SPAN></P></DIV></DIV></dialogReference></param><param name="Pfactor_dataset_A" displayname="P-factor for Year A: Support practice dataset" type="Optional" direction="Input" datatype="Raster Layer" expression="{Pfactor_dataset_A}"><dialogReference><DIV STYLE="text-align:Left;"><DIV><P><SPAN>Specify the path and filename to the support practice (P-factor) raster for the first year/scenario.</SPAN></P></DIV></DIV></dialogReference></param><param name="Pfactor_dataset_B" displayname="P-factor for Year B: Support practice dataset" type="Optional" direction="Input" datatype="Raster Layer" expression="{Pfactor_dataset_B}"><dialogReference><DIV STYLE="text-align:Left;"><DIV><P><SPAN>Specify the path and filename to the support practice (P-factor) raster for the </SPAN><SPAN>second </SPAN><SPAN>year/scenario.</SPAN></P></DIV></DIV></dialogReference></param></parameters><summary><DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>This tool estimates the annual soil loss (tonnes/ha/yr) using the Revised Universal Soil Loss Equation (RUSLE) approach for two different scenario folders. These scenario folders are generated by the </SPAN><SPAN STYLE="font-style:italic;">Preprocess data</SPAN><SPAN>tool which runs consistency checks and reconditions the DEM if required. This tool also takes in the rainfall erosivity and optional support factor datasets for two different years.</SPAN></P><P><SPAN>The outputs from this tool are the soil loss estimates for both years and the difference between these years.</SPAN></P></DIV></DIV></DIV></summary></tool><dataIdInfo><idCitation><resTitle>Calculate soil loss accounts using two scenario folders</resTitle></idCitation><idAbs><DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>This tool estimates the annual soil loss (tonnes/ha/yr) using the Revised Universal Soil Loss Equation (RUSLE) approach for two different scenario folders. These scenario folders are generated by the </SPAN><SPAN STYLE="font-style:italic;">Preprocess data</SPAN><SPAN>tool which runs consistency checks and reconditions the DEM if required. This tool also takes in the rainfall erosivity and optional support factor datasets for two different years.</SPAN></P><P><SPAN>The outputs from this tool are the soil loss estimates for both years and the difference between these years.</SPAN></P></DIV></DIV></DIV></idAbs><searchKeys><keyword>LUCI</keyword><keyword>LUCI for SEEA</keyword></searchKeys></dataIdInfo><distInfo><distributor><distorFormat><formatName>ArcToolbox Tool</formatName></distorFormat></distributor></distInfo><mdHrLv><ScopeCd value="005"/></mdHrLv></metadata>