[GRASS-SVN] r58406 - grass/trunk/raster/r.topmodel

[svn_grass at osgeo.org]

Author: hcho
Date: 2013-12-07 15:11:34 -0800 (Sat, 07 Dec 2013)
New Revision: 58406

Modified:
   grass/trunk/raster/r.topmodel/r.topmodel.html
Log:
Added a reference

Modified: grass/trunk/raster/r.topmodel/r.topmodel.html
===================================================================
--- grass/trunk/raster/r.topmodel/r.topmodel.html	2013-12-07 23:04:56 UTC (rev 58405)
+++ grass/trunk/raster/r.topmodel/r.topmodel.html	2013-12-07 23:11:34 UTC (rev 58406)
@@ -22,7 +22,7 @@
 # qs0 [m/h]:	Initial subsurface flow per unit area
 #		  "The first streamflow input is assumed to represent
 #		  only the subsurface flow contribution in the watershed."
-#								- S. C. Liaw
+#								- Liaw (1988)
 # lnTe [ln(m^2/h)]: Areal average of ln(T0) = ln(Te)
 # m [m]:	Scaling parameter
 # Sr0 [m]:	Initial root zone storage deficit
@@ -138,13 +138,17 @@
 
 <h2>REFERENCES</h2>
 
-K. Beven, R. Lamb, P. Quinn, R. Romanowicz, and J. Freer.
-TOPMODEL, in V.P. Singh (Ed.). Computer Models of Watershed Hydrology.
-Water Resources Publications, 1995.
+Cho, H., 2000. GIS Hydrological Modeling System by Using Programming Interface
+of GRASS. Master's Thesis, Department of Civil Engineering, Kyungpook National
+University, Korea.
 <p>
-S.C. Liaw, Streamflow simulation using a physically based hydrologic
-model in humid forested watersheds (Dissertation).
-Colorado State University, CO. p163, 1988.
+Beven K., R. Lamb, P. Quinn, R. Romanowicz, and J. Freer, 1995.  TOPMODEL, in
+V.P. Singh (Ed.). Computer Models of Watershed Hydrology.  Water Resources
+Publications.
+<p>
+Liaw, S.C., 1988. Streamflow Simulation Using a Physically Based Hydrologic
+Model in Humid Forested Watersheds. Dissertation, Colorado State University,
+CO. p163.
 
 
 <h2>SEE ALSO</h2>