Index: doc/wflow_sbm.rst
===================================================================
diff -u -r58bc7deccc76d943b9af6df97fafb2574554a6b4 -r84afc165a3f6c0a2ece3dd3a9e1a361680923629
--- doc/wflow_sbm.rst	(.../wflow_sbm.rst)	(revision 58bc7deccc76d943b9af6df97fafb2574554a6b4)
+++ doc/wflow_sbm.rst	(.../wflow_sbm.rst)	(revision 84afc165a3f6c0a2ece3dd3a9e1a361680923629)
@@ -143,6 +143,7 @@
 
     Cmax(leaves)  = Sl  * LAI
 
+The table below shows lookup table for Sl (as determined from Pitman 1986, Lui 1998).
 
 ::
 
@@ -164,10 +165,10 @@
     15 	0.0	    Snow and Ice
     16 	0.04	Barren or Sparsely Vegetated
 
-The table above shows lookup table for Sl (as determined from Pitman 1986, Lui 1998).
 
+
 To get to total storage (Cmax) the woody part of the vegetation also needs to be added. This is done via a simple
- lookup table between land cover the Cmax(wood):
+lookup table between land cover the Cmax(wood):
 
 .. digraph:: cmax
 
@@ -179,6 +180,7 @@
     "Cmax (wood)"-> add;
     add -> Cmax;
 
+The  table below relates the land cover map to the woody part of the Cmax.
 
 ::
 
@@ -201,10 +203,9 @@
     16 	0.04	Barren or Sparsely Vegetated
 
 
-The above table relates the land cover map to the woody part of the Cmax.
 
 
-The canopy gap fraction is determined using the K k: extinction coefficient (van Dijk and Bruijnzeel 2001):
+The canopy gap fraction is determined using the  k: extinction coefficient (van Dijk and Bruijnzeel 2001):
 
 .. math::