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ocean_albedo.F90 @ 3871

Last change on this file since 3871 was 2740, checked in by lguez, 8 years ago
Added output of nudging coefficients for temperature and humidity, along those for the wind.
File size: 10.1 KB

Rev	Line
[2227]	1	!
	2	! $Id$
	3	!
	4
[2677]	5	SUBROUTINE ocean_albedo(knon,zrmu0,knindex,pwind,SFRWL,alb_dir_new,alb_dif_new)
	6	!!
[2227]	7	!!**** ALBEDO_RS14
	8	!!
	9	!! PURPOSE
	10	!! -------
[2677]	11	!! computes the direct & diffuse albedo over open water
	12	!!
[2227]	13	!!** METHOD
	14	!! ------
[2677]	15	!!
[2227]	16	!! EXTERNAL
	17	!! --------
	18	!!
	19	!! IMPLICIT ARGUMENTS
	20	!! ------------------
	21	!!
	22	!! REFERENCE
	23	!! ---------
	24	!!
	25	!! AUTHOR
	26	!! ------
	27	!! R. Séférian * Meteo-France *
	28	!!
	29	!! MODIFICATIONS
	30	!! -------------
	31	!! Original 03/2014
[2677]	32	!! 05/2014 R. Séférian & B. Decharme :: Adaptation to spectral
	33	!! computation for diffuse and direct albedo
	34	!! 08/2014 S. Baek :: for wider wavelength range 200-4000nm and
	35	!! adaptation to LMDZ + whitecap effect by Koepke + chrolophyll
	36	!! map from climatology file
	37	!! 10/2016 O. Boucher :: some optimisation following R.
	38	!! Seferian's work in the CNRM Model
	39	!!
[2227]	40	!-------------------------------------------------------------------------------
	41	!
	42	!* DECLARATIONS
	43	! ------------
	44	!
	45	USE ocean_albedo_para
[2677]	46	USE dimphy
	47	USE phys_state_var_mod, ONLY : chl_con
[2227]	48	!
	49	!
	50	IMPLICIT NONE
	51	!
	52	!* 0.1 declarations of arguments
	53	! -------------------------
	54	!
	55	include "clesphys.h"
	56	!
[2677]	57	INTEGER, INTENT(IN) :: knon
	58	INTEGER, DIMENSION(klon), INTENT(IN) :: knindex
	59	REAL, DIMENSION(klon), INTENT(IN) :: zrmu0 !--cos(SZA) on full vector
	60	REAL, DIMENSION(klon), INTENT(IN) :: pwind !--wind speed on compressed vector
	61	REAL, DIMENSION(6),INTENT(IN) :: SFRWL
	62	REAL, DIMENSION(klon,nsw), INTENT(OUT) :: alb_dir_new, alb_dif_new
	63	!
[2227]	64	!* 0.2 declarations of local variables
	65	! -------------------------
	66	!
[2677]	67	REAL, DIMENSION(klon) :: ZCHL ! surface chlorophyll
	68	REAL, DIMENSION(klon) :: ZCOSZEN ! Cosine of the zenith solar angle
[2227]	69	!
[2677]	70	INTEGER :: JWL, INU ! indexes
[2709]	71	INTEGER :: JI
[2677]	72	REAL :: ZWL ! input parameter: wavelength and diffuse/direct fraction of light
[2697]	73	REAL:: ZCHLABS, ZAW, ZBW, ZREFM, ZYLMD, ZUE, ZUE2 ! scalar computation variables
[2677]	74	!
	75	REAL, DIMENSION(klon) :: ZAP, ZXX2, ZR00, ZRR0, ZRRR ! computation variables
[2697]	76	REAL, DIMENSION(klon) :: ZR22, ZR11DF ! computation variables
[2677]	77	REAL, DIMENSION(klon) :: ZBBP, ZNU, ZHB ! computation variables
	78	REAL, DIMENSION(klon) :: ZR11, ZRW, ZRWDF, ZRDF ! 4 components of the OSA
	79	REAL, DIMENSION(klon) :: ZSIG, ZFWC, ZWORK1, ZWORK2, ZWORK3
[2227]	80	!
[2677]	81	!--initialisations-------------
[2227]	82	!
[2680]	83
	84	IF (knon==0) RETURN ! A verifier pourquoi on en a besoin...
	85
[2227]	86	alb_dir_new(:,:) = 0.
	87	alb_dif_new(:,:) = 0.
	88	!
[2677]	89	! Initialisation of chlorophyll content
	90	! ZCHL(:) = CHL_CON!0.05 ! averaged global values for surface chlorophyll
	91	IF (ok_chlorophyll) THEN
	92	ZCHL(1:knon)=CHL_CON(knindex(1:knon))
	93	ELSE
	94	ZCHL(1:knon) = 0.05
	95	ENDIF
[2227]	96
[2677]	97	! variables that do not depend on wavelengths
	98	! loop over the grid points
	99	! functions of chlorophyll content
	100	ZWORK1(1:knon)= EXP(LOG(ZCHL(1:knon))*0.65)
	101	ZWORK2(1:knon)= 0.416 * EXP(LOG(ZCHL(1:knon))*0.766)
	102	ZWORK3(1:knon)= LOG10(ZCHL(1:knon))
	103	! store the cosine of the solar zenith angle
	104	ZCOSZEN(1:knon) = zrmu0(knindex(1:knon))
	105	! Compute sigma derived from wind speed (Cox & Munk reflectance model)
	106	ZSIG(1:knon)=SQRT(0.003+0.00512*PWIND(1:knon))
	107	! original : correction for foam (Eq 16-17)
	108	! has to be update once we have information from wave model (discussion with G. Madec)
	109	ZFWC(1:knon)=3.97e-4PWIND(1:knon)*1.59 ! Salisbury 2014 eq(2) at 37GHz, value in fraction
[2227]	110	!
[2677]	111	DO JWL=1,NNWL ! loop over the wavelengths
	112	!
	113	!---------------------------------------------------------------------------------
	114	! 0- Compute baseline values
	115	!---------------------------------------------------------------------------------
[2227]	116
[2677]	117	! Get refractive index for the correspoding wavelength
	118	ZWL=XAKWL(JWL) !!!--------- wavelength value
	119	ZREFM= XAKREFM(JWL) !!!--------- refraction index value
[2227]	120
[2677]	121	!---------------------------------------------------------------------------------
	122	! 1- Compute direct surface albedo (ZR11)
	123	!---------------------------------------------------------------------------------
	124	!
	125	ZXX2(1:knon)=SQRT(1.0-(1.0-ZCOSZEN(1:knon)2)/ZREFM2)
	126	ZRR0(1:knon)=0.50(((ZXX2(1:knon)-ZREFMZCOSZEN(1:knon))/(ZXX2(1:knon)+ZREFMZCOSZEN(1:knon)))*2 + &
	127	((ZCOSZEN(1:knon)-ZREFMZXX2(1:knon))/(ZCOSZEN(1:knon)+ZREFMZXX2(1:knon)))**2)
	128	ZRRR(1:knon)=0.50(((ZXX2(1:knon)-1.34ZCOSZEN(1:knon))/(ZXX2(1:knon)+1.34ZCOSZEN(1:knon)))*2 + &
	129	((ZCOSZEN(1:knon)-1.34ZXX2(1:knon))/(ZCOSZEN(1:knon)+1.34ZXX2(1:knon)))**2)
	130	ZR11(1:knon)=ZRR0(1:knon)-(0.0152-1.7873ZCOSZEN(1:knon)+6.8972ZCOSZEN(1:knon)*2-8.5778ZCOSZEN(1:knon)**3+ &
	131	4.071ZSIG(1:knon)-7.6446ZCOSZEN(1:knon)ZSIG(1:knon)) &
	132	EXP(0.1643-7.8409ZCOSZEN(1:knon)-3.5639ZCOSZEN(1:knon)*2-2.3588ZSIG(1:knon)+ &
	133	10.0538ZCOSZEN(1:knon)ZSIG(1:knon))*ZRR0(1:knon)/ZRRR(1:knon)
	134	!
	135	!---------------------------------------------------------------------------------
	136	! 2- Compute surface diffuse albedo (ZRDF)
	137	!---------------------------------------------------------------------------------
	138	! Diffuse albedo from Jin et al., 2006 + estimation from diffuse fraction of
	139	! light (relying later on AOD). CNRM model has opted for Eq 5b
	140	ZRDF(1:knon)=-0.1482-0.012ZSIG(1:knon)+0.1609ZREFM-0.0244ZSIG(1:knon)ZREFM ! surface diffuse (Eq 5a)
	141	!!ZRDF(1:knon)=-0.1479+0.1502ZREFM-0.0176ZSIG(1:knon)*ZREFM ! surface diffuse (Eq 5b)
	142
	143	!---------------------------------------------------------------------------------
	144	! *- Determine absorption and backscattering
	145	! coefficients to determine reflectance below the surface (Ro) once for all
	146	!
	147	! *.1- Absorption by chlorophyll
	148	ZCHLABS= XAKACHL(JWL)
	149	! *.2- Absorption by seawater
	150	ZAW= XAKAW3(JWL)
	151	! *.3- Backscattering by seawater
	152	ZBW= XAKBW(JWL)
	153	! *.4- Backscattering by chlorophyll
	154	ZYLMD = EXP(0.014*(440.0-ZWL))
	155	ZAP(1:knon) = 0.06ZCHLABSZWORK1(1:knon) +0.2(XAW440+0.06ZWORK1(1:knon))*ZYLMD
[2227]	156
[2709]	157	!! WHERE ( ZCHL(1:knon) > 0.02 )
	158	!! ZNU(:)=MIN(0.0,0.5*(ZWORK3(:)-0.3))
	159	!! ZBBP(:)=(0.002+0.01(0.5-0.25ZWORK3(:))(ZWL/550.)ZNU(:))ZWORK2(:)
	160	!! ELSEWHERE
	161	!! ZBBP(:)=0.019(550./ZWL)ZWORK2(:) !ZBBPf=0.0113 at chl<=0.02
	162	!! ENDWHERE
	163
	164	do JI = 1, knon
	165	IF (ZCHL(JI) > 0.02) THEN
	166	ZNU(JI)=MIN(0.0,0.5*(ZWORK3(JI)-0.3))
	167	ZBBP(JI)=(0.002+0.01(0.5-0.25ZWORK3(JI))(ZWL/550.)*ZNU(JI)) &
	168	*ZWORK2(JI)
	169	ELSE
	170	ZBBP(JI)=0.019(550./ZWL)ZWORK2(JI) !ZBBPf=0.0113 at chl<=0.02
	171	ENDIF
	172	ENDDO
	173
[2677]	174	! Morel-Gentili(1991), Eq (12)
	175	! ZHB=h/(h+2ZBBPf(1.-h))
	176	ZHB(1:knon)=0.5ZBW/(0.5ZBW+ZBBP(1:knon))
[2227]	177
[2677]	178	!---------------------------------------------------------------------------------
	179	! 3- Compute direct water-leaving albedo (ZRW)
	180	!---------------------------------------------------------------------------------
	181	! Based on Morel & Gentilli 1991 parametrization
	182	ZR22(1:knon)=0.48168549-0.014894708ZSIG(1:knon)-0.20703885ZSIG(1:knon)**2
[2227]	183
[2677]	184	! Use Morel 91 formula to compute the direct reflectance
	185	! below the surface
	186	ZR00(1:knon)=(0.5ZBW+ZBBP(1:knon))/(ZAW+ZAP(1:knon)) &
	187	(0.6279-0.2227ZHB(1:knon)-0.0513ZHB(1:knon)**2 + &
	188	(-0.3119+0.2465ZHB(1:knon))ZCOSZEN(1:knon))
	189	ZRW(1:knon)=ZR00(1:knon)(1.-ZR22(1:knon))/(1.-ZR00(1:knon)ZR22(1:knon))
	190
	191	!---------------------------------------------------------------------------------
	192	! 4- Compute diffuse water-leaving albedo (ZRWDF)
	193	!---------------------------------------------------------------------------------
	194	! as previous water-leaving computation but assumes a uniform incidence of
	195	! shortwave at surface (ue)
	196	ZUE=0.676 ! equivalent u_unif for diffuse incidence
	197	ZUE2=SQRT(1.0-(1.0-ZUE2)/ZREFM2)
	198	ZRR0(1:knon)=0.50(((ZUE2-ZREFMZUE)/(ZUE2+ZREFMZUE))2 +((ZUE-ZREFMZUE2)/(ZUE+ZREFMZUE2))*2)
	199	ZRRR(1:knon)=0.50(((ZUE2-1.34ZUE)/(ZUE2+1.34ZUE))2 +((ZUE-1.34ZUE2)/(ZUE+1.34ZUE2))*2)
	200	ZR11DF(1:knon)=ZRR0(1:knon)-(0.0152-1.7873ZUE+6.8972ZUE*2-8.5778ZUE*3+4.071ZSIG(1:knon)-7.6446ZUEZSIG(1:knon)) * &
	201	EXP(0.1643-7.8409ZUE-3.5639ZUE*2-2.3588ZSIG(1:knon)+10.0538ZUEZSIG(1:knon))*ZRR0(1:knon)/ZRRR(1:knon)
	202
	203	! Use Morel 91 formula to compute the diffuse
	204	! reflectance below the surface
[2740]	205	ZR00(1:knon) = (0.5*ZBW+ZBBP(1:knon)) / (ZAW+ZAP(1:knon)) &
	206	* (0.6279-0.2227ZHB(1:knon)-0.0513ZHB(1:knon)**2 &
	207	+ (-0.3119+0.2465ZHB(1:knon))ZUE)
[2677]	208	ZRWDF(1:knon)=ZR00(1:knon)(1.-ZR22(1:knon))(1.-ZR11DF(1:knon))/(1.-ZR00(1:knon)*ZR22(1:knon))
[2227]	209
[2677]	210	! get waveband index inu for each nsw band
	211	SELECT CASE(nsw)
	212	CASE(2)
	213	IF (JWL.LE.49) THEN ! from 200 to 680 nm
	214	inu=1
	215	ELSE ! from 690 to 4000 nm
	216	inu=2
	217	ENDIF
	218	CASE(4)
	219	IF (JWL.LE.49) THEN ! from 200 to 680 nm
	220	inu=1
	221	ELSE IF (JWL.LE.99) THEN ! from 690 to 1180 nm
	222	inu=2
	223	ELSE IF (JWL.LE.218) THEN ! from 1190 to 2370 nm
	224	inu=3
	225	ELSE ! from 2380 to 4000 nm
	226	inu=4
	227	ENDIF
	228	CASE(6)
	229	IF (JWL.LE.5) THEN ! from 200 to 240 nm
	230	inu=1
	231	ELSE IF (JWL.LE.24) THEN ! from 250 to 430 nm
	232	inu=2
	233	ELSE IF (JWL.LE.49) THEN ! from 440 to 680 nm
	234	inu=3
	235	ELSE IF (JWL.LE.99) THEN ! from 690 to 1180 nm
	236	inu=4
	237	ELSE IF (JWL.LE.218) THEN ! from 1190 to 2370 nm
	238	inu=5
	239	ELSE ! from 2380 to 4000 nm
	240	inu=6
	241	ENDIF
	242	END SELECT
[2227]	243
[2677]	244	! partitionning direct and diffuse albedo
	245	! excluding diffuse albedo ZRW on ZDIR_ALB
[2227]	246
[2677]	247	!--direct
	248	alb_dir_new(1:knon,inu)=alb_dir_new(1:knon,inu) + &
	249	( XFRWL(JWL) * ((1.-ZFWC(1:knon)) * (ZR11(1:knon)+ZRW(1:knon)) + ZFWC(1:knon)*XRWC(JWL)) )/SFRWL(inu)
	250	!--diffuse
	251	alb_dif_new(1:knon,inu)=alb_dif_new(1:knon,inu) + &
	252	( XFRWL(JWL) * ((1.-ZFWC(1:knon)) * (ZRDF(1:knon)+ZRWDF(1:knon)) + ZFWC(1:knon)*XRWC(JWL)) )/SFRWL(inu)
[2227]	253
	254	ENDDO ! ending loop over wavelengths
	255
[2677]	256	END SUBROUTINE ocean_albedo

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