pro ts_mean_T, sEXP1, sEXP2, year1, year2, s_iodir_data, POSTSCRIPT = postscript, _extra = ex compile_opt idl2, strictarrsubs @common @initorca2 std_iodir_climato = '/Users/sflod/idl_PLOTS/CLIMATOLOGIES/' ; std_iodir_interan = '/Users/sflod/idl_PLOTS/INTERAN/' std_iodir_data = '/Users/sflod/idl_PLOTS/INTERAN/mercure/' if KEYWORD_SET(POSTSCRIPT) then begin openps, sEXP1+'_Temperature_mean.ps', portrait = 1 endif masknp = read_ncdf('tmaskutil', file = 'mesh_mask_partial.nc', /nostruct) filename = std_iodir_climato+'data_1y_potential_temperature_nomask.nc' Lev = read_ncdf('votemper', filename = filename, /nostruct ) Lev_xyz = moyenne(Lev, 'xyz', mask2d = masknp) Lev_z = moyenne(Lev, 'xy', mask2d = masknp,/KEEPBOTTOM) ts_Temp = 0. ts_Temp_2 = 0. ts_Temp_Lev = 0. ts_Temp_Lev_2 = 0. ts_Time = 0. ts_z = fltarr(jpk) ts_z_2 = fltarr(jpk) for year=year1,year2 do begin date1 = year * 10000L + 101L date2 = year * 10000L + 1231L print,s_iodir_data filename = getname(s_iodir_data,sEXP1,'1Y','grid_T',date1) filename2 = getname(s_iodir_data,sEXP2,'1Y','grid_T',date1) if filename eq '' then stop Temp = read_ncdf('thetao',date1 ,date2 , filename = filename, /nostruct) Temp_2 = read_ncdf('thetao',date1 ,date2 , filename = filename2, /nostruct) SSH = read_ncdf('zos',date1 ,date2 , filename = filename, /nostruct) SSH_2 = read_ncdf('zos',date1 ,date2 , filename = filename2, /nostruct) ts_Temp = [ ts_Temp, moyenne(Temp, 'xyz', mask2d = masknp,ssh = SSH) ] ts_Temp_2 = [ ts_Temp_2, moyenne(Temp_2, 'xyz', mask2d = masknp,ssh = SSH_2) ] ts_Temp_Lev = [ ts_Temp_Lev, moyenne(Temp, 'xyz', mask2d = masknp,ssh = SSH) - Lev_xyz ] ts_Temp_Lev_2 = [ ts_Temp_Lev_2, moyenne(Temp_2, 'xyz', mask2d = masknp,ssh = SSH_2) - Lev_xyz ] ts_Time = [ ts_Time, Time] ; Time = date ts_z = [ [ts_z], [moyenne(Temp, 'xy', mask2d = masknp,/KEEPBOTTOM, ssh = SSH)- Lev_z] ] ts_z_2 = [ [ts_z_2], [moyenne(Temp_2, 'xy', mask2d = masknp,/KEEPBOTTOM, ssh = SSH_2)- Lev_z] ] endfor ts_Temp = ts_Temp[1:*] ; remove first record of 0 ts_Temp_2 = ts_Temp_2[1:*] ; remove first record of 0 ts_Temp_Lev = ts_Temp_Lev[1:*] ; remove first record of 0 ts_Temp_Lev_2 = ts_Temp_Lev_2[1:*] ; remove first record of 0 ts_z = ts_z[*,1:*] ; remove first record of 0 ts_z_2 = ts_z_2[*,1:*] ; remove first record of 0 Time = ts_Time[1:*] ; remove first record of 0 jpt = n_elements(Time) title = sEXP1+' Global Annual Mean Temperature --- year '+strtrim(year1,1)+' - '+strtrim(year2,1) pltt, ts_Temp, 't', 1., 4.5, INTER = .5, year1 * 10000L + 101, year2 * 10000L + 1231 , /REMPLI $ , small = [1,2,1], YTITLE='Deg C', TITLE = title, FORMAT = '(I3)', /PORTRAIT, _extra = ex title = sEXP1+' Global Annual Mean Temperature - Levitus --- year '+strtrim(year1,1)+' - '+strtrim(year2,1) pltt,ts_Temp_Lev, 't', -1., 1., INTER = .25, year1 * 10000L + 101, year2 * 10000L + 1231 , /REMPLI $ , small = [1,2,2], YTITLE='Deg C', TITLE = title, FORMAT = '(I3)', /NOERASE, _extra = ex ;;;;;;;;;;;;;;;;; new page ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ERASE title = sEXP1+' ZT-plot Temperature Mean (0-1500m) - Levitus --- year '+strtrim(year1,1)+' - '+strtrim(year2,1) pltt,ts_z ,'zt', -2., 2., year1 * 10000L + 101, year2 * 10000L + 1231 , /REMPLI $ , small = [1,2,1], YTITLE='Deg C', TITLE = title, boxzoom = 1500., /NOERASE, _extra = ex title = sEXP1+' ZT-plot Temperature Mean (0-6000m) - Levitus --- year '+strtrim(year1,1)+' - '+strtrim(year2,1) pltt,ts_z ,'zt', -2., 2., year1 * 10000L + 101, year2 * 10000L + 1231 , /REMPLI $ , small = [1,2,2], YTITLE='Deg C', TITLE = title, boxzoom = 6000., /NOERASE, _extra = ex if sEXP2 ne sEXP1 then begin ERASE title = sEXP1+' - '+sEXP2+' Global Annual Mean Temperature --- year '+strtrim(year1,1)+' - '+strtrim(year2,1) pltt, ts_Temp - ts_Temp_2, 't', -1., 1., year1 * 10000L + 101, year2 * 10000L + 1231 , /REMPLI $ , COLOR = 250, small = [1,2,1], YTITLE='Deg C', TITLE = title, FORMAT = '(I3)', /PORTRAIT, _extra = ex endif if KEYWORD_SET(POSTSCRIPT) then begin closeps endif return end