Index: ../trunk-jpl/src/c/analyses/HydrologyDCEfficientAnalysis.cpp
===================================================================
--- ../trunk-jpl/src/c/analyses/HydrologyDCEfficientAnalysis.cpp	(revision 17949)
+++ ../trunk-jpl/src/c/analyses/HydrologyDCEfficientAnalysis.cpp	(revision 17950)
@@ -415,11 +415,13 @@
 				transfer=0.0;
 			}
 			else{
-				transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity)/(sediment_thickness*leakage);
+				transfer=(sediment_transmitivity)/(sediment_thickness*leakage);
+				//				transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity)/(sediment_thickness*leakage);
 			}
 		}
 		else{
-			transfer=(sediment_storing*sediment_transmitivity)/(sediment_thickness*leakage);
+			transfer=(sediment_transmitivity)/(sediment_thickness*leakage);
+			//			transfer=(sediment_storing*sediment_transmitivity)/(sediment_thickness*leakage);
 		}
 		break;
 	default:
@@ -466,11 +468,13 @@
 				transfer=0.0;
 			}
 			else{
-				transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity*sediment_head)/(sediment_thickness*leakage);
+				transfer=(sediment_transmitivity*sediment_head)/(sediment_thickness*leakage);
+				//				transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity*sediment_head)/(sediment_thickness*leakage);
 			}
 		}
 		else{
-			transfer=(sediment_storing*sediment_transmitivity*sediment_head)/(sediment_thickness*leakage);
+			transfer=(sediment_transmitivity*sediment_head)/(sediment_thickness*leakage);
+			//			transfer=(sediment_storing*sediment_transmitivity*sediment_head)/(sediment_thickness*leakage);
 		}
 		break;
 	default:
Index: ../trunk-jpl/src/c/analyses/HydrologyDCInefficientAnalysis.cpp
===================================================================
--- ../trunk-jpl/src/c/analyses/HydrologyDCInefficientAnalysis.cpp	(revision 17949)
+++ ../trunk-jpl/src/c/analyses/HydrologyDCInefficientAnalysis.cpp	(revision 17950)
@@ -607,11 +607,13 @@
 				transfer=0.0;
 			}
 			else{
-				transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity)/(sediment_thickness*leakage);
+				transfer=(sediment_transmitivity)/(sediment_thickness*leakage);
+				//				transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity)/(sediment_thickness*leakage);
 			}
 		}
 		else{
-			transfer=(sediment_storing*sediment_transmitivity)/(sediment_thickness*leakage);
+			transfer=(sediment_transmitivity)/(sediment_thickness*leakage);
+			//			transfer=(sediment_storing*sediment_transmitivity)/(sediment_thickness*leakage);
 		}
 		break;
 	default:
@@ -662,11 +664,13 @@
 				transfer=0.0;
 			}
 			else{
-				transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity*epl_head)/(sediment_thickness*leakage);
+				transfer=(sediment_transmitivity*epl_head)/(sediment_thickness*leakage);
+				//				transfer=(epl_specificstoring*epl_thickness*sediment_transmitivity*epl_head)/(sediment_thickness*leakage);
 			}
 		}
 		else{
-			transfer=(sediment_storing*sediment_transmitivity*epl_head)/(sediment_thickness*leakage);
+			transfer=(sediment_transmitivity*epl_head)/(sediment_thickness*leakage);
+			//			transfer=(sediment_storing*sediment_transmitivity*epl_head)/(sediment_thickness*leakage);
 		}
 		break;
 	default: