diff --git a/src/MNH/init_salt.f90 b/src/MNH/init_salt.f90
index de95ce681e4751a7b4c244bec44bcbdfa0e6c9f8..8576133e95103e1c696a7ff7482cb590ddfdfa4a 100644
--- a/src/MNH/init_salt.f90
+++ b/src/MNH/init_salt.f90
@@ -42,7 +42,7 @@ XINIRADIUS_SLT=  (/0.009, 0.021, 0.045, 0.115, 0.415/)
 !Initial, standard deviation from  Ova et al., 2014
 XINISIG_SLT =  (/ 1.37, 1.5, 1.42, 1.53, 1.85 /)
 !Minimum allowed number concentration for any mode (#/m3)
-XN0MIN_SLT  = (/1.e1 , 1.e1, 1.e1, 1., 1.e-4 /)
+XN0MIN_SLT  = (/1. , 1., 1., 1., 1. /)
 
 
 ELSE IF ( NMODE_SLT == 3) THEN
diff --git a/src/MNH/modd_salt.f90 b/src/MNH/modd_salt.f90
index 907b95672080fb541fd8a47c907051f9fd893687..769ca39f17c464c2cf8503115eb4542dd04b9b07 100644
--- a/src/MNH/modd_salt.f90
+++ b/src/MNH/modd_salt.f90
@@ -68,7 +68,7 @@ CHARACTER(LEN=6),DIMENSION(15), PARAMETER  :: YPSALT_INI = &
                     'SLTM04','SLTM34','SLTM64',&
                     'SLTM05','SLTM35','SLTM65' /)
 
-INTEGER, DIMENSION(5),PARAMETER  :: JPSALTORDER = (/3, 2, 1, 5, 4/)
+INTEGER, DIMENSION(5),PARAMETER  :: JPSALTORDER = (/1, 2, 3, 4, 5/)
 
 !Test Thomas (definir rayons et sigma ici si on veut desactiver initialisation MACC)
 
@@ -79,7 +79,7 @@ REAL,DIMENSION(5)    :: XINIRADIUS_SLT=  (/0.009, 0.021, 0.045, 0.115, 0.415/)
 !Initial, standard deviation from  Ova et al., 2014
 REAL,DIMENSION(5)      :: XINISIG_SLT =  (/ 1.37, 1.5, 1.42, 1.53, 1.85 /)
 !Minimum allowed number concentration for any mode (#/m3)
-REAL,DIMENSION(5)  :: XN0MIN_SLT  = (/1.e1 , 1.e1, 1.e1, 1., 1.e-4 /)
+REAL,DIMENSION(5)  :: XN0MIN_SLT  = (/1. , 1., 1., 1., 1. /)
 
 !Test Thomas
 
diff --git a/src/MNH/saltlfin.f90 b/src/MNH/saltlfin.f90
index 3b637b2785bdb83d2d1002ef60ffa646c4963729..e99be7c7ae28aaa87a751dbbee645ab9dbde10f6 100644
--- a/src/MNH/saltlfin.f90
+++ b/src/MNH/saltlfin.f90
@@ -101,7 +101,7 @@ INTEGER :: IMOMENTS
 !-Marine
 INTEGER :: JI, JJ, JN, JK  ! loop counter
 INTEGER :: IMODEIDX  ! index mode
-REAL, PARAMETER  :: ZN_SALT=0.1 ! particles of sea salt/cm3 {air}
+REAL, PARAMETER  :: ZN_SALT=1E4 ! multiplcative factor for X0MIN
 REAL, PARAMETER  :: ZCLM=800. ! Marine Salt layer (m)
 REAL    :: ZN_SALTN
 !
@@ -182,30 +182,18 @@ DO JN=1,NMODE_SLT
 !+Marine : (reprendre XN0MIN_SLT de modd_salt.f90).
 ! Pas plus simple de fixer une dimension à ZN_SALT qui dépend de JN pour ne pas
 ! avoir à rappeler le schéma d'émission?
-
   IF(NMODE_SLT == 5)THEN
-
-
-    IF (JN == 1) ZN_SALTN = XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT *1E6
-    IF (JN == 2) ZN_SALTN = XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT *1E6
-    IF (JN == 3) ZN_SALTN = XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT *1E6
-    IF (JN == 4) ZN_SALTN = XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT *1E6
-    IF (JN == 5) ZN_SALTN = XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT *1E6
-
+    IF (JN == 1) ZN_SALTN = XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT 
+    IF (JN == 2) ZN_SALTN = XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT
+    IF (JN == 3) ZN_SALTN = XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT
+    IF (JN == 4) ZN_SALTN = XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT
+    IF (JN == 5) ZN_SALTN = XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT
   ELSE 
-!  IF (JN == 1) ZN_SALTN = 1E-4  *  ZN_SALT *1E6
-!  IF (JN == 2) ZN_SALTN = 1.   *  ZN_SALT *1E6
-!  IF (JN == 3) ZN_SALTN = 10 *  ZN_SALT *1E6
-
-    IF (JN == 1) ZN_SALTN =  XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT *1E6
-    IF (JN == 2) ZN_SALTN =  XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT *1E6
-    IF (JN == 3) ZN_SALTN =  XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT *1E6
-
+    IF (JN == 1) ZN_SALTN =  XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT 
+    IF (JN == 2) ZN_SALTN =  XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT
+    IF (JN == 3) ZN_SALTN =  XN0MIN_SLT(JPSALTORDER(JN)) *  ZN_SALT
   END IF
-
-
 !-Marine
-
   DO JK=1, SIZE(PSV,3) 
     DO JJ=1, SIZE(PSV,2) 
       DO JI=1, SIZE(PSV,1) 
diff --git a/src/SURFEX/modd_slt_surf.F90 b/src/SURFEX/modd_slt_surf.F90
index 589cfb655881a5efb184c08463b4ba564280a427..5a1c91c90cb2800bcd275d326c6305d6dfc37af5 100644
--- a/src/SURFEX/modd_slt_surf.F90
+++ b/src/SURFEX/modd_slt_surf.F90
@@ -15,7 +15,7 @@ REAL, PARAMETER  :: XDENSITY_SLT     = 2.1e3    ! [kg/m3] density of sea salt
 REAL, PARAMETER  :: XMOLARWEIGHT_SLT = 58.e-3   ! [kg/mol] molar weight sea salt
 !
 INTEGER, PARAMETER  :: NEMISMODES_MAX=5
-INTEGER, DIMENSION(NEMISMODES_MAX), PARAMETER :: JORDER_SLT=(/3,2,1,5,4/) !Dust modes in order of importance
+INTEGER, DIMENSION(NEMISMODES_MAX), PARAMETER :: JORDER_SLT=(/1,2,3,4,5/) !Dust modes in order of importance
 !Set emission related parameters
 REAL,DIMENSION(NEMISMODES_MAX)   :: XEMISRADIUS_INI_SLT          ! number madian radius initialization for sea salt mode (um)
 REAL,DIMENSION(NEMISMODES_MAX)   :: XEMISSIG_INI_SLT             ! dispersion initialization for sea salt mode