Index: /issm/trunk-jpl/examples/SlrGRACE/runme.m
===================================================================
--- /issm/trunk-jpl/examples/SlrGRACE/runme.m	(revision 22811)
+++ /issm/trunk-jpl/examples/SlrGRACE/runme.m	(revision 22812)
@@ -3,5 +3,5 @@
 addpath('../Data','../Functions');
 
-steps=[7]; % [0:7]; 
+steps=[0]; % [0:7]; 
 
 if any(steps==0) % Download GRACE land_mass data {{{
@@ -178,5 +178,7 @@
 	sol1 = md.slr.deltathickness*100; % WEH cm 
 	sol2 = md.results.SealevelriseSolution.Sealevel*1000; % [mm] 
+	
 	sol_name={'Change in water equivalent height [cm]', 'Relative sea-level [mm]'}; 
+	fig_name={'Fig_dH.pdf','Fig_slr.pdf'}; 
 
 	res = 1.0; % degree 
@@ -227,5 +229,5 @@
 		c1=colorbar;
 		colormap('haxby'); 
-		caxis([-floor(min(abs(min(sol)),abs(max(sol)))) floor(min(abs(min(sol)),abs(max(sol))))])
+		caxis([-floor(min(abs(min(sol)),abs(max(sol)))) floor(min(abs(min(sol)),abs(max(sol))))]); 
 		xlim([-180 180]); 
 		ylim([-90 90]); 
@@ -235,5 +237,5 @@
 		set(gcf,'color','w');
 
-		%export_fig('Fig5.pdf'); 
+		%export_fig(fig_name{kk}); 
 	end
 
@@ -294,5 +296,5 @@
 	end
 	sol_name = {'Change in water equivalent height [cm]', 'Relative sea-level [mm]'}; 
-	movie_name = {'movie_loads.avi','movie_fingerprints.avi'}; 
+	movie_name = {'Movie_dH.avi','Movie_slr.avi'}; 
 
 	res = 1.0; % degree 
@@ -348,5 +350,5 @@
 			c1=colorbar;
 			colormap('haxby'); 
-			caxis([-floor(min(abs(min(min(sol))),abs(max(max(sol))))) floor(min(abs(min(min(sol))),abs(max(max(sol)))))])
+			caxis([-floor(min(abs(min(min(sol))),abs(max(max(sol))))) floor(min(abs(min(min(sol))),abs(max(max(sol)))))]); 
 			xlim([-180 180]); 
 			ylim([-90 90]);