Dataset {
    Float32 T[T = 634];
    String loc[loc = 3];
    String port[port = 14];
    Float32 T_01[T_01 = 694];
    Float32 T_02[T_02 = 857];
    Float32 T_03[T_03 = 312];
    Grid {
     ARRAY:
        Float32 absorbed_solar_radiation[T = 634];
     MAPS:
        Float32 T[T = 634];
    } absorbed_solar_radiation;
    Structure {
        Structure {
            Grid {
             ARRAY:
                Float32 primary_production[T = 634];
             MAPS:
                Float32 T[T = 634];
            } primary_production;
        } CDM;
        Structure {
            Structure {
                Grid {
                 ARRAY:
                    Float32 NO3[T = 634];
                 MAPS:
                    Float32 T[T = 634];
                } NO3;
            } CDM;
            Structure {
                Grid {
                 ARRAY:
                    Float32 NO3[T = 634];
                 MAPS:
                    Float32 T[T = 634];
                } NO3;
            } Conc*TrujUp_CDM;
            Structure {
                Grid {
                 ARRAY:
                    Float32 NO3[T = 634];
                 MAPS:
                    Float32 T[T = 634];
                } NO3;
            } Conc*TrujUp_VDM;
            Structure {
                Grid {
                 ARRAY:
                    Float32 NO3[T = 634];
                 MAPS:
                    Float32 T[T = 634];
                } NO3;
            } VDM;
        } flux_derived;
        Structure {
            Grid {
             ARRAY:
                Float32 primary_production[T = 634];
             MAPS:
                Float32 T[T = 634];
            } primary_production;
        } VDM;
    } coastal;
    Grid {
     ARRAY:
        Float32 lasker_events[T = 634];
     MAPS:
        Float32 T[T = 634];
    } lasker_events;
    Grid {
     ARRAY:
        Float32 mean_relat_cld_cvr[T = 634];
     MAPS:
        Float32 T[T = 634];
    } mean_relat_cld_cvr;
    Grid {
     ARRAY:
        Float32 NO3[T = 634][loc = 3];
     MAPS:
        Float32 T[T = 634];
        String loc[loc = 3];
    } NO3;
    Structure {
        Structure {
            Grid {
             ARRAY:
                Float32 primary_production[T = 634];
             MAPS:
                Float32 T[T = 634];
            } primary_production;
        } CDM;
        Structure {
            Structure {
                Grid {
                 ARRAY:
                    Float32 NO3[T = 634];
                 MAPS:
                    Float32 T[T = 634];
                } NO3;
            } CDM;
            Structure {
                Grid {
                 ARRAY:
                    Float32 NO3[T = 634];
                 MAPS:
                    Float32 T[T = 634];
                } NO3;
            } Conc*Bakun_CDM;
            Structure {
                Grid {
                 ARRAY:
                    Float32 NO3[T = 634];
                 MAPS:
                    Float32 T[T = 634];
                } NO3;
            } Conc*Bakun_VDM;
            Structure {
                Grid {
                 ARRAY:
                    Float32 NO3[T = 634];
                 MAPS:
                    Float32 T[T = 634];
                } NO3;
            } VDM;
        } flux_derived;
        Structure {
            Grid {
             ARRAY:
                Float32 primary_production[T = 634];
             MAPS:
                Float32 T[T = 634];
            } primary_production;
        } VDM;
    } oceanic;
    Grid {
     ARRAY:
        Float32 primary_production[T = 634];
     MAPS:
        Float32 T[T = 634];
    } primary_production;
    Grid {
     ARRAY:
        Float32 rossby_radius[T = 634];
     MAPS:
        Float32 T[T = 634];
    } rossby_radius;
    Grid {
     ARRAY:
        Float32 sea_level[port = 14][T_01 = 694];
     MAPS:
        String port[port = 14];
        Float32 T_01[T_01 = 694];
    } sea_level;
    Grid {
     ARRAY:
        Float32 SOI[T = 634];
     MAPS:
        Float32 T[T = 634];
    } SOI;
    Grid {
     ARRAY:
        Float32 sst[port = 14][T = 634];
     MAPS:
        String port[port = 14];
        Float32 T[T = 634];
    } sst;
    Grid {
     ARRAY:
        Float32 thermocline_depth[T = 634];
     MAPS:
        Float32 T[T = 634];
    } thermocline_depth;
    Grid {
     ARRAY:
        Float32 turbulence[port = 14][T = 634];
     MAPS:
        String port[port = 14];
        Float32 T[T = 634];
    } turbulence;
    Grid {
     ARRAY:
        Float32 upwelling[port = 14][T = 634];
     MAPS:
        String port[port = 14];
        Float32 T[T = 634];
    } upwelling;
    Grid {
     ARRAY:
        Float32 velocity[T = 634];
     MAPS:
        Float32 T[T = 634];
    } velocity;
    Structure {
        Grid {
         ARRAY:
            Float32 sst[T_02 = 857];
         MAPS:
            Float32 T_02[T_02 = 857];
        } sst;
    } weekly;
    Grid {
     ARRAY:
        Float32 wind_velocity[port = 14][T = 634];
     MAPS:
        String port[port = 14];
        Float32 T[T = 634];
    } wind_velocity;
    Grid {
     ARRAY:
        Float32 xbtpc1[T_03 = 312];
     MAPS:
        Float32 T_03[T_03 = 312];
    } xbtpc1;
    Grid {
     ARRAY:
        Float32 xbtpc2[T_03 = 312];
     MAPS:
        Float32 T_03[T_03 = 312];
    } xbtpc2;
} environment;