1 | MODULE tropopause_m |
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2 | |
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3 | ! USE phys_local_var_mod, ONLY: ptrop => pr_tropopause |
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4 | IMPLICIT NONE |
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5 | PRIVATE |
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6 | PUBLIC :: dyn_tropopause |
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7 | |
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8 | CONTAINS |
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9 | |
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10 | !------------------------------------------------------------------------------- |
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11 | ! |
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12 | FUNCTION dyn_tropopause(t, ts, paprs, pplay, rot, thet0, pvor0) |
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13 | ! |
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14 | !------------------------------------------------------------------------------- |
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15 | USE assert_m, ONLY: assert |
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16 | USE assert_eq_m, ONLY: assert_eq |
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17 | USE dimphy, ONLY: klon, klev |
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18 | USE geometry_mod, ONLY: latitude_deg, longitude_deg |
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19 | USE vertical_layers_mod, ONLY: aps, bps, preff |
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20 | |
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21 | !------------------------------------------------------------------------------- |
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22 | ! Arguments: |
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23 | REAL :: dyn_tropopause(klon) !--- Pressure at tropopause |
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24 | REAL, INTENT(IN) :: t(:,:) !--- Cells-centers temperature |
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25 | REAL, INTENT(IN) :: ts(:) !--- Surface temperature |
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26 | REAL, INTENT(IN) :: paprs(:,:) !--- Cells-edges pressure |
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27 | REAL, INTENT(IN) :: pplay(:,:) !--- Cells-centers pressure |
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28 | REAL, INTENT(IN) :: rot(:,:) !--- Cells-centers relative vorticity |
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29 | REAL, INTENT(IN), OPTIONAL :: thet0, pvor0 |
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30 | !------------------------------------------------------------------------------- |
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31 | ! Local variables: |
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32 | include "YOMCST.h" |
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33 | CHARACTER(LEN=80) :: sub |
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34 | INTEGER :: i, k, kb, kt, kp, ib, ie, nw |
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35 | REAL :: al, th0, pv0 |
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36 | REAL, DIMENSION(klon,klev) :: tpot_cen, tpot_edg, pvor_cen |
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37 | REAL, PARAMETER :: sg0=0.75 !--- Start level for PV=cte search loop |
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38 | INTEGER, PARAMETER :: nadj=3 !--- Adjacent levs nb for thresholds detection |
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39 | REAL, PARAMETER :: w(5)=[0.1,0.25,0.3,0.25,0.1] !--- Vertical smoothing |
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40 | INTEGER, SAVE :: k0 |
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41 | LOGICAL, SAVE :: first=.TRUE. |
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42 | !$OMP THREADPRIVATE(k0,first) |
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43 | !------------------------------------------------------------------------------- |
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44 | sub='dyn_tropopause' |
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45 | CALL assert(SIZE(t ,1)==klon, TRIM(sub)//" t klon") |
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46 | CALL assert(SIZE(t ,2)==klev, TRIM(sub)//" t klev") |
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47 | CALL assert(SIZE(ts,1)==klon, TRIM(sub)//" ts klon") |
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48 | CALL assert(SHAPE(paprs)==[klon,klev+1],TRIM(sub)//" paprs shape") |
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49 | CALL assert(SHAPE(pplay)==[klon,klev ],TRIM(sub)//" pplay shape") |
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50 | CALL assert(SHAPE(rot) ==[klon,klev ],TRIM(sub)//" rot shape") |
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51 | |
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52 | !--- DEFAULT THRESHOLDS |
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53 | th0=380.; IF(PRESENT(thet0)) th0=thet0 !--- In kelvins |
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54 | pv0= 2.; IF(PRESENT(pvor0)) pv0=pvor0 !--- In PVU |
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55 | IF(first) THEN |
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56 | DO k0=1,klev; IF(aps(k0)/preff+bps(k0)<sg0) EXIT; END DO; first=.FALSE. |
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57 | END IF |
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58 | |
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59 | !--- POTENTIAL TEMPERATURE AT CELLS CENTERS AND INTERFACES |
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60 | DO i = 1,klon |
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61 | tpot_cen(i,1) = t(i,1)*(preff/pplay(i,1))**RKAPPA |
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62 | tpot_edg(i,1) = ts(i) *(preff/paprs(i,1))**RKAPPA |
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63 | DO k=2,klev |
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64 | al = LOG(pplay(i,k-1)/paprs(i,k))/LOG(pplay(i,k-1)/pplay(i,k)) |
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65 | tpot_cen(i,k) = t(i,k) *(preff/pplay(i,k))**RKAPPA |
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66 | tpot_edg(i,k) = (t(i,k-1)+al*(t(i,k)-t(i,k-1)))*(preff/paprs(i,k))**RKAPPA |
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67 | !--- FORCE QUANTITIES TO BE GROWING |
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68 | IF(tpot_edg(i,k)<tpot_edg(i,k-1)) tpot_edg(i,k)=tpot_edg(i,k-1)+1.E-5 |
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69 | IF(tpot_cen(i,k)<tpot_cen(i,k-1)) tpot_cen(i,k)=tpot_cen(i,k-1)+1.E-5 |
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70 | END DO |
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71 | !--- VERTICAL SMOOTHING |
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72 | tpot_cen(i,:)=smooth(tpot_cen(i,:),w) |
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73 | tpot_edg(i,:)=smooth(tpot_edg(i,:),w) |
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74 | END DO |
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75 | |
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76 | !--- ERTEL POTENTIAL VORTICITY AT CELLS CENTERS (except in top layer) |
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77 | DO i = 1, klon |
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78 | DO k= 1, klev-1 |
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79 | pvor_cen(i,k)=-1.E6*RG*(rot(i,k)+2.*ROMEGA*SIN(latitude_deg(i)*RPI/180.))& |
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80 | * (tpot_edg(i,k+1)-tpot_edg(i,k)) / (paprs(i,k+1)-paprs(i,k)) |
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81 | END DO |
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82 | !--- VERTICAL SMOOTHING |
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83 | pvor_cen(i,1:klev-1)=smooth(pvor_cen(i,1:klev-1),w) |
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84 | END DO |
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85 | |
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86 | !--- LOCATE TROPOPAUSE: LOWEST POINT BETWEEN THETA=380K AND PV=2PVU SURFACES. |
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87 | DO i = 1, klon |
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88 | !--- UPPER TROPOPAUSE: |PV|=2PVU POINT STARTING FROM TOP |
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89 | DO kt=klev-1,1,-1; IF(ALL(ABS(pvor_cen(i,kt-nadj:kt))<=pv0)) EXIT; END DO |
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90 | !--- LOWER TROPOPAUSE: |PV|=2PVU POINT STARTING FROM BOTTOM |
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91 | DO kb=k0,klev-1; IF(ALL(ABS(pvor_cen(i,kb:kb+nadj))> pv0)) EXIT; END DO; kb=kb-1 |
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92 | !--- ISO-THETA POINT: THETA=380K STARTING FROM TOP |
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93 | DO kp=klev-1,1,-1; IF(ALL(ABS(tpot_cen(i,kp-nadj:kp))<=th0)) EXIT; END DO |
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94 | !--- CHOOSE BETWEEN LOWER AND UPPER TROPOPAUSE |
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95 | IF(2*COUNT(ABS(pvor_cen(i,kb:kt))>pv0)>kt-kb+1) kt=kb |
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96 | !--- PV-DEFINED TROPOPAUSE |
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97 | al = (ABS(pvor_cen(i,kt+1))-pv0)/ABS(pvor_cen(i,kt+1)-pvor_cen(i,kt)) |
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98 | dyn_tropopause(i) = pplay(i,kt+1)*(pplay(i,kt)/pplay(i,kt+1))**al |
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99 | !--- THETA=380K IN THE TROPICAL REGION |
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100 | al = (tpot_cen(i,kp+1)-th0)/(tpot_cen(i,kp+1)-tpot_cen(i,kp)) |
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101 | dyn_tropopause(i) = MAX( pplay(i,kp+1)*(pplay(i,kp)/pplay(i,kp+1))**al, & |
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102 | dyn_tropopause(i) ) |
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103 | END DO |
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104 | |
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105 | END FUNCTION dyn_tropopause |
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106 | |
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107 | |
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108 | !------------------------------------------------------------------------------- |
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109 | ! |
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110 | FUNCTION smooth(v,w) |
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111 | ! |
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112 | !------------------------------------------------------------------------------- |
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113 | ! Arguments: |
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114 | REAL, INTENT(IN) :: v(:), w(:) |
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115 | REAL, DIMENSION(SIZE(v)) :: smooth |
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116 | !------------------------------------------------------------------------------- |
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117 | ! Local variables: |
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118 | INTEGER :: nv, nw, k, kb, ke, lb, le |
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119 | !------------------------------------------------------------------------------- |
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120 | nv=SIZE(v); nw=(SIZE(w)-1)/2 |
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121 | DO k=1,nv |
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122 | kb=MAX(k-nw,1 ); lb=MAX(2+nw -k,1) |
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123 | ke=MIN(k+nw,nv); le=MIN(1+nw+nv-k,1+2*nw) |
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124 | smooth(k)=SUM(v(kb:ke)*w(lb:le))/SUM(w(lb:le)) |
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125 | END DO |
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126 | |
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127 | END FUNCTION smooth |
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128 | ! |
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129 | !------------------------------------------------------------------------------- |
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130 | |
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131 | END MODULE tropopause_m |
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