2573 rcm_icedfs kg/kg/s 33 A rcm_icedfs, Change in liquid due to ice
2574 u_T_cm cm s^{-1} 33 A u_T_cm, Ice crystal fallspeed
2575 rtm_bt kg kg^{-1} s^{-1 33 A rtm_bt, rtm budget: rtm time tendency
2576 rtm_ma kg kg^{-1} s^{-1 33 A rtm_ma, rtm budget: rtm vertical mean advection
2577 rtm_ta kg kg^{-1} s^{-1 33 A rtm_ta, rtm budget: rtm turbulent advection
2578 rtm_mfl kg kg^{-1} s^{-1 33 A rtm_mfl, rtm budget: rtm correction due to monotonic flux limiter
2579 rtm_tacl kg kg^{-1} s^{-1 33 A rtm_tacl, rtm budget: rtm correction due to ta term (wprtp) clipping
2580 rtm_cl kg kg^{-1} s^{-1 33 A rtm_cl, rtm budget: rtm clipping
2581 rtm_forcing kg kg^{-1} s^{-1 33 A rtm_forcing, rtm budget: rt forcing (includes rtm_mc)
2582 rtm_sdmp kg kg^{-1} s^{-1 33 A rtm_sdmp, rtm budget: rtm correction due to sponge damping
2583 rtm_mc kg kg^{-1} s^{-1 33 A rtm_mc, Change in rt due to microphysics (not in budget)
2584 rtm_pd kg kg^{-1} s^{-1 33 A rtm_pd, rtm budget: rtm positive definite adjustment
2585 rvm_mc kg/(kg s) 33 A rvm_mc, Time tendency of vapor mixing ratio due to microphysics
2586 rcm_mc kg/kg/s 33 A rcm_mc, Time tendency of liquid water mixing ratio due microphysics
2587 rcm_sd_mg_morr kg kg^{-1} s^{-1 33 A rcm_sd_mg_morr, rcm sedimentation when using morrision or MG microphysics (not in budget, included i
2588 thlm_bt K s^{-1} 33 A thlm_bt, thlm budget: thlm time tendency
2589 thlm_ma K s^{-1} 33 A thlm_ma, thlm budget: thlm vertical mean advection
2590 thlm_ta K s^{-1} 33 A thlm_ta, thlm budget: thlm turbulent advection
2591 thlm_mfl K s^{-1} 33 A thlm_mfl, thlm budget: thlm correction due to monotonic flux limiter
2592 thlm_tacl K s^{-1} 33 A thlm_tacl, thlm budget: thlm correction due to ta term (wpthlp) clipping
2593 thlm_cl K s^{-1} 33 A thlm_cl, thlm budget: thlm_cl
2594 thlm_forcing K s^{-1} 33 A thlm_forcing, thlm budget: thetal forcing (includes thlm_mc and radht)
2595 thlm_sdmp K s^{-1} 33 A thlm_sdmp, thlm budget: thlm correction due to sponge damping
2596 thlm_mc K s^{-1} 33 A thlm_mc, Change in thlm due to microphysics (not in budget)
2597 thlm_old K 33 A thlm_old, Thlm at previous timestep
2598 thlm_without_ta K 33 A thlm_without_ta, Thlm without turbulent advection contribution
2599 thlm_mfl_min K 33 A thlm_mfl_min, Minimum allowable thlm
2600 thlm_mfl_max K 33 A thlm_mfl_max, Maximum allowable thlm
2601 thlm_enter_mfl K 33 A thlm_enter_mfl, Thlm before flux-limiter
2602 thlm_exit_mfl K 33 A thlm_exit_mfl, Thlm exiting flux-limiter
2603 rtm_old kg/kg 33 A rtm_old, Rtm at previous timestep
2604 rtm_without_ta kg/kg 33 A rtm_without_ta, Rtm without turbulent advection contribution
2605 rtm_mfl_min kg/kg 33 A rtm_mfl_min, Minimum allowable rtm
2606 rtm_mfl_max kg/kg 33 A rtm_mfl_max, Maximum allowable rtm
2607 rtm_enter_mfl kg/kg 33 A rtm_enter_mfl, Rtm before flux-limiter
2608 rtm_exit_mfl kg/kg 33 A rtm_exit_mfl, Rtm exiting flux-limiter
2609 um_bt m s^{-2} 33 A um_bt, um budget: um time tendency
2610 um_ma m s^{-2} 33 A um_ma, um budget: um vertical mean advection
2611 um_gf m s^{-2} 33 A um_gf, um budget: um geostrophic forcing
2612 um_cf m s^{-2} 33 A um_cf, um budget: um coriolis forcing
2613 um_ta m s^{-2} 33 A um_ta, um budget: um turbulent advection
2614 um_f m s^{-2} 33 A um_f, um budget: um forcing
2615 um_sdmp m s^{-2} 33 A um_sdmp, um budget: um sponge damping
2616 um_ndg m s^{-2} 33 A um_ndg, um budget: um nudging
2617 vm_bt m s^{-2} 33 A vm_bt, vm budget: vm time tendency
2618 vm_ma m s^{-2} 33 A vm_ma, vm budget: vm vertical mean advection
2619 vm_gf m s^{-2} 33 A vm_gf, vm budget: vm geostrophic forcing
2620 vm_cf m s^{-2} 33 A vm_cf, vm budget: vm coriolis forcing
2621 vm_ta m s^{-2} 33 A vm_ta, vm budget: vm turbulent transport
2622 vm_f m s^{-2} 33 A vm_f, vm budget: vm forcing
2623 vm_sdmp m s^{-2} 33 A vm_sdmp, vm budget: vm sponge damping
2624 vm_ndg m s^{-2} 33 A vm_ndg, vm budget: vm nudging
2625 wp3_bt m^{3} s^{-4} 33 A wp3_bt, wp3 budget: wp3 time tendency
2626 wp3_ma m^{3} s^{-4} 33 A wp3_ma, wp3 budget: wp3 vertical mean advection
2627 wp3_ta m^{3} s^{-4} 33 A wp3_ta, wp3 budget: wp3 turbulent advection
2628 wp3_tp m^{3} s^{-4} 33 A wp3_tp, wp3 budget: wp3 turbulent transport
2629 wp3_ac m^{3} s^{-4} 33 A wp3_ac, wp3 budget: wp3 accumulation term
2630 wp3_bp1 m^{3} s^{-4} 33 A wp3_bp1, wp3 budget: wp3 buoyancy production
2631 wp3_pr_turb m^{3} s^{-4} 33 A wp3_pr_turb, wp3 budget: wp3 pressure-turbulence correlation term
2632 wp3_pr_dfsn m^{3} s^{-4} 33 A wp3_pr_dfsn, wp3 budget: wp3 pressure diffusion term
2633 wp3_pr1 m^{3} s^{-4} 33 A wp3_pr1, wp3 budget: wp3 pressure term 1
2634 wp3_pr2 m^{3} s^{-4} 33 A wp3_pr2, wp3 budget: wp3 pressure term 2
2635 wp3_dp1 m^{3} s^{-4} 33 A wp3_dp1, wp3 budget: wp3 dissipation term 1
2636 wp3_cl m^{3} s^{-4} 33 A wp3_cl, wp3 budget: wp3 clipping term
2637 mixt_frac count 33 A mixt_frac, pdf parameter: mixture fraction
2638 w_1 m/s 33 A w_1, pdf parameter: mean w of component 1
2639 w_2 m/s 33 A w_2, pdf paramete: mean w of component 2
2640 varnce_w_1 m^2/s^2 33 A varnce_w_1, pdf parameter: w variance of component 1
2641 varnce_w_2 m^2/s^2 33 A varnce_w_2, pdf parameter: w variance of component 2
2642 thl_1 K 33 A thl_1, pdf parameter: mean thl of component 1
2643 thl_2 K 33 A thl_2, pdf parameter: mean thl of component 2
2644 varnce_thl_1 K^2 33 A varnce_thl_1, pdf parameter: thl variance of component 1
2645 varnce_thl_2 K^2 33 A varnce_thl_2, pdf parameter: thl variance of component 2
2646 rt_1 kg/kg 33 A rt_1, pdf parameter: mean rt of component 1
2647 rt_2 kg/kg 33 A rt_2, pdf parameter: mean rt of component 2
2648 varnce_rt_1 (kg^2)/(kg^2) 33 A varnce_rt_1, pdf parameter: rt variance of component 1
2649 varnce_rt_2 (kg^2)/(kg^2) 33 A varnce_rt_2, pdf parameter: rt variance of component 2
2650 rc_1 kg/kg 33 A rc_1, pdf parameter: mean rc of component 1
2651 rc_2 kg/kg 33 A rc_2, pdf parameter: mean rc of component 2
2652 rsatl_1 kg/kg 33 A rsatl_1, pdf parameter: sat mix rat based on tl1
2653 rsatl_2 kg/kg 33 A rsatl_2, pdf parameter: sat mix rat based on tl2
2654 cloud_frac_1 - 33 A cloud_frac_1, pdf parameter cloud_frac_1
2655 cloud_frac_2 - 33 A cloud_frac_2, pdf parameter cloud_frac_2
2656 a3_coef_zt count 33 A a3_coef_zt, The a3 coefficient interpolated the the zt grid
2657 wp3_on_wp2_zt m/s 33 A wp3_on_wp2_zt, Smoothed version of wp3 / wp2
2658 chi_1 kg/kg 33 A chi_1, pdf parameter: Mellor's s (extended liq) for component 1
2659 chi_2 kg/kg 33 A chi_2, pdf parameter: Mellor's s (extended liq) for component 2
2660 stdev_chi_1 kg/kg 33 A stdev_chi_1, pdf parameter: Std dev of chi_1
2661 stdev_chi_2 kg/kg 33 A stdev_chi_2, pdf parameter: Std dev of chi_2
2662 stdev_eta_1 kg/kg 33 A stdev_eta_1, Standard dev. of eta(t) (1st PDF component)
2663 stdev_eta_2 kg/kg 33 A stdev_eta_2, Standard dev. of eta(t) (2nd PDF component)
2664 covar_chi_eta_1 kg^2/kg^2 33 A covar_chi_eta_1, Covariance of chi(s) and eta(t) (1st PDF component)
2665 covar_chi_eta_2 kg^2/kg^2 33 A covar_chi_eta_2, Covariance of chi(s) and eta(t) (2nd PDF component)
2666 corr_chi_eta_1 - 33 A corr_chi_eta_1, Correlation of chi (s) and eta (t) (1st PDF component)
2667 corr_chi_eta_2 - 33 A corr_chi_eta_2, Correlation of chi (s) and eta (t) (2nd PDF component)
2668 corr_rt_thl_1 - 33 A corr_rt_thl_1, Correlation of rt and thl (1st PDF component)
2669 crt_1 - 33 A crt_1, Coefficient on rt in chi/eta equations (1st PDF comp.)
2670 crt_2 - 33 A crt_2, Coefficient on rt in chi/eta equations (2nd PDF comp.)
2671 cthl_1 kg/kg/K 33 A cthl_1, Coefficient on theta-l in chi/eta equations (1st PDF comp.)
2672 cthl_2 kg/kg/K 33 A cthl_2, Coefficient on theta-l in chi/eta equations (2nd PDF comp.)
2673 precip_frac - 33 A precip_frac, Precipitation Fraction
2674 precip_frac_1 - 33 A precip_frac_1, Precipitation Fraction (1st PDF component)
2675 precip_frac_2 - 33 A precip_frac_2, Precipitation Fraction (2nd PDF component)
2676 Ncnm num/kg 33 A Ncnm, Cloud nuclei concentration (PDF)
2677 wp2_zt m^2/s^2 33 A wp2_zt, w'^2 interpolated to thermodynamic levels
2678 thlp2_zt K^2 33 A thlp2_zt, thl'^2 interpolated to thermodynamic levels
2679 wpthlp_zt (m K)/s 33 A wpthlp_zt, w'thl' interpolated to thermodynamic levels
2680 wprtp_zt (m kg)/(s kg) 33 A wprtp_zt, w'rt' interpolated to thermodynamic levels
2681 rtp2_zt (kg/kg)^2 33 A rtp2_zt, rt'^2 interpolated to thermodynamic levels
2682 rtpthlp_zt (kg K)/kg 33 A rtpthlp_zt, rt'thl' interpolated to thermodynamic levels
2683 up2_zt m^2/s^2 33 A up2_zt, u'^2 interpolated to thermodynamic levels
2684 vp2_zt m^2/s^2 33 A vp2_zt, v'^2 interpolated to thermodynamic levels
2685 upwp_zt m^2/s^2 33 A upwp_zt, u'w' interpolated to thermodynamic levels
2686 vpwp_zt m^2/s^2 33 A vpwp_zt, v'w' interpolated to thermodynamic levels
2687 C11_Skw_fnc count 33 A C11_Skw_fnc, C_11 parameter with Sk_w applied
2688 wp2 m^2/s^2 33 A w'^2, Variance of vertical air velocity
2689 rtp2 (kg/kg)^2 33 A rt'^2, Variance of total water, rt
2690 thlp2 K^2 33 A thl'^2, Variance of theta_l
2691 rtpthlp (kg K)/kg 33 A rt'thl', Covariance of rt and theta_l
2692 wprtp (m kg)/(s kg) 33 A w'rt', Vertical turbulent flux of total water, rt
2693 wpthlp (m K)/s 33 A w'thl', Vertical turbulent flux of theta_l
2694 wp4 (m^4)/(s^4) 33 A w'^4, Fourth-order moment of vertical air velocity
2695 up2 m^2/s^2 33 A u'^2, Variance of eastward (u) wind
2696 vp2 m^2/s^2 33 A v'^2, Variance of northward (v) wind
2697 wpthvp K m/s 33 A w'thv', Buoyancy flux
2698 rtpthvp (kg/kg) K 33 A rt'thv', Covariance of rt and theta_v
2699 thlpthvp K^2 33 A thl'thv', Covariance of theta_l and theta_v
2700 tau_zm s 33 A tau_zm, Time-scale tau on momentum levels
2701 Kh_zm m^2/s 33 A Kh_zm, Eddy diffusivity on momentum levels
2702 wprcp (m/s) (kg/kg) 33 A w'rc'
2703 wm_zm m/s 33 A wm_zm, Vertical (w) wind
2704 thlprcp K (kg/kg) 33 A thl'rc'
2705 rtprcp (kg^2)/(kg^2) 33 A rt'rc'
2706 rcp2 (kg^2)/(kg^2) 33 A rc'^2, Variance of cloud water mixing ratio
2707 upwp m^2/s^2 33 A u'w', Vertical turbulent flux of eastward (u) wind
2708 vpwp m^2/s^2 33 A v'w', Vertical turbulent flux of northward (v) wind
2709 rho_zm kg m^{-3} 33 A rho_zm, Density on momentum levels
2710 sigma_sqd_w - 33 A sigma_sqd_w, Nondim w variance of Gaussian component
2711 Skw_velocity m/s 33 A Skw_velocity, Skewness velocity
2712 gamma_Skw_fnc - 33 A gamma_Skw_fnc, Gamma as a function of skewness
2713 C6rt_Skw_fnc - 33 A C6rt_Skw_fnc, C_6rt parameter with Sk_w applied
2714 C6thl_Skw_fnc - 33 A C6thl_Skw_fnc, C_6thl parameter with Sk_w applied
2715 C7_Skw_fnc - 33 A C7_Skw_fnc, C_7 parameter with Sk_w applied
2716 C1_Skw_fnc - 33 A C1_Skw_fnc, C_1 parameter with Sk_w applied
2717 a3_coef count 33 A a3_coef, Quantity in formula 25 from Equations for CLUBB
2718 wp3_on_wp2 m/s 33 A w'^3_on_w'^2, Smoothed version of wp3 / wp2
2719 rcm_zm kg/kg 33 A rcm_zm, Total water mixing ratio
2720 rtm_zm kg/kg 33 A rtm_zm, Total water mixing ratio
2721 thlm_zm K 33 A thlm_zm, Liquid potential temperature
2722 cloud_frac_zm - 33 A cloud_frac_zm, Cloud fraction
2723 rho_ds_zm kg m^{-3} 33 A rho_ds_zm, Dry static, base-state density
2724 thv_ds_zm K 33 A thv_ds_zm, Dry, base-state theta_v
2725 em m^2/s^2 33 A em, Turbulent kinetic energy, usu. 0.5*(u'^2+v'^2+w'^2)
2726 mean_w_up m/s 33 A mean_w_up, Mean w >= w_ref
2727 mean_w_down m/s 33 A mean_w_down, Mean w <= w_ref
2728 shear m^2/s^3 33 A shear, Wind shear production term
2729 wp3_zm (m^3)/(s^3) 33 A w'^3_zm, w'^3 interpolated to moment. levels
2730 Frad W/m^2 33 A Frad, Total (sw+lw) net (up+down) radiative flux
2731 Frad_LW W/m^2 33 A Frad_LW, Net long-wave radiative flux
2732 Frad_SW W/m^2 33 A Frad_SW, Net short-wave radiative flux
2733 Frad_LW_up W/m^2 33 A Frad_LW_up, Long-wave upwelling radiative flux
2734 Frad_SW_up W/m^2 33 A Frad_SW_up, Short-wave upwelling radiative flux
2735 Frad_LW_down W/m^2 33 A Frad_LW_down, Long-wave downwelling radiative flux
2736 Frad_SW_down W/m^2 33 A Frad_SW_down, Short-wave downwelling radiative flux
2737 Fprec W/m^2 33 A Fprec, Rain flux
2738 Fcsed kg/(s*m^2) 33 A Fcsed, cloud water sedimentation flux
2739 wp2_bt m^2/s^3 33 A w'^2_bt, wp2 budget: wp2 time tendency
2740 wp2_ma m^2/s^3 33 A w'^2_ma, wp2 budget: wp2 vertical mean advection
2741 wp2_ta m^2/s^3 33 A w'^2_ta, wp2 budget: wp2 turbulent advection
2742 wp2_ac m^2/s^3 33 A w'^2_ac, wp2 budget: wp2 accumulation term
2743 wp2_bp m^2/s^3 33 A w'^2_bp, wp2 budget: wp2 buoyancy production
2744 wp2_pr1 m^2/s^3 33 A w'^2_pr1, wp2 budget: wp2 pressure term 1
2745 wp2_pr2 m^2/s^3 33 A w'^2_pr2, wp2 budget: wp2 pressure term 2
2746 wp2_pr3 m^2/s^3 33 A w'^2_pr3, wp2 budget: wp2 pressure term 3
2747 wp2_dp1 m^2/s^3 33 A w'^2_dp1, wp2 budget: wp2 dissipation term 1
2748 wp2_dp2 m^2/s^3 33 A w'^2_d'^2, wp2 budget: wp2 dissipation term 2
2749 wp2_cl m^2/s^3 33 A w'^2_cl, wp2 budget: wp2 clipping term
2750 wp2_pd m2/s3 33 A w'^2_pd, wp2 budget: wp2 positive definite adjustment
2751 wp2_sf m2/s3 33 A w'^2_sf, wp2 budget: wp2 surface variance
2752 vp2_bt m^2/s^3 33 A v'2_bt, vp2 budget: vp2 time tendency
2753 vp2_ma m^2/s^3 33 A v'^2_ma, vp2 budget: vp2 mean advection
2754 vp2_ta m^2/s^3 33 A v'^2_ta, vp2 budget: vp2 turbulent advection
2755 vp2_tp m^2/s^3 33 A v'^2_tp, vp2 budget: vp2 turbulent production
2756 vp2_dp1 m^2/s^3 33 A v'^2_dp1, vp2 budget: vp2 dissipation term 1
2757 vp2_dp2 m^2/s^3 33 A v'^2_dp2, vp2 budget: vp2 dissipation term 2
2758 vp2_pr1 m^2/s^3 33 A v'^2_pr1, vp2 budget: vp2 pressure term 1
2759 vp2_pr2 m^2/s^3 33 A v'^2_pr2, vp2 budget: vp2 pressure term 2
2760 vp2_cl m^2/s^3 33 A v'^2_cl, vp2 budget: vp2 clipping
2761 vp2_pd m^2/s^3 33 A v'^2_pd, vp2 budget: vp2 positive definite adjustment
2762 vp2_sf m^2/s^3 33 A v'^2_sf, vp2 budget: vp2 surface variance
2763 up2_bt m^2/s^3 33 A u'^2_bt, up2 budget: up2 time tendency
2764 up2_ma m^2/s^3 33 A u'^2_ma, up2 budget: up2 mean advection
2765 up2_ta m^2/s^3 33 A u'^2_ta, up2 budget: up2 turbulent advection
2766 up2_tp m^2/s^3 33 A u'^2_tp, up2 budget: up2 turbulent production
2767 up2_dp1 m^2/s^3 33 A u'^2_dp1, up2 budget: up2 dissipation term 1
2768 up2_dp2 m^2/s^3 33 A u'^2_d'^2, up2 budget: up2 dissipation term 2
2769 up2_pr1 m^2/s^3 33 A u'^2_pr1, up2 budget: up2 pressure term 1
2770 up2_pr2 m^2/s^3 33 A u'^2_pr2, up2 budget: up2 pressure term 2
2771 up2_cl m^2/s^3 33 A u'^2_cl, up2 budget: up2 clipping
2772 up2_pd m^2/s^3 33 A u'^2_pd, up2 budget: up2 positive definite adjustment
2773 up2_sf m^2/s^3 33 A u'^2_sf, up2 budget: up2 surface variance
2774 wprtp_bt (m kg)/(s^2 kg) 33 A w'rt'_bt, wprtp budget: wprtp time tendency
2775 wprtp_ma (m kg)/(s^2 kg) 33 A w'rt'_ma, wprtp budget: wprtp mean advection
2776 wprtp_ta (m kg)/(s^2 kg) 33 A w'rt'_ta, wprtp budget: wprtp turbulent advection
2777 wprtp_tp (m kg)/(s^2 kg) 33 A w'rt'_t', wprtp budget: wprtp turbulent production
2778 wprtp_ac (m kg)/(s^2 kg) 33 A w'rt'_ac, wprtp budget: wprtp accumulation term
2779 wprtp_bp (m kg)/(s^2 kg) 33 A w'rt'_b', wprtp budget: wprtp buoyancy production
2780 wprtp_pr1 (m kg)/(s^2 kg) 33 A w'rt'_pr1, wprtp budget: wprtp pressure term 1
2781 wprtp_pr2 (m kg)/(s^2 kg) 33 A w'rt'_pr2, wprtp budget: wprtp pressure term 2
2782 wprtp_pr3 (m kg)/(s^2 kg) 33 A w'rt'_pr3, wprtp budget: wprtp pressure term 3
2783 wprtp_dp1 (m kg)/(s^2 kg) 33 A w'rt'_dp1, wprtp budget: wprtp dissipation term 1
2784 wprtp_mfl (m kg)/(s^2 kg) 33 A w'rt'_mfl, wprtp budget: wprtp monotonic flux limiter
2785 wprtp_cl (m kg)/(s^2 kg) 33 A w'rt'_cl, wprtp budget: wprtp clipping term
2786 wprtp_pd (m kg)/(s^2 kg) 33 A w'rt'_pd, wprtp budget: wprtp flux corrected trans. term
2787 wprtp_forcing (m kg/kg)/s^2 33 A w'rt'_forcing, wprtp budget: wprtp forcing (includes microphysics tendency)
2788 wprtp_mc (m kg/kg)/s^2 33 A w'rt'_mc, Microphysics tendency for wprtp (not in budget)
2789 wpthlp_bt (m K)/s^2 33 A w'thl'_bt, wpthlp budget
2790 wpthlp_ma (m K)/s^2 33 A w'thl'_ma, wpthlp budget: wpthlp mean advection
2791 wpthlp_ta (m K)/s^2 33 A w'thl'_ta, wpthlp budget: wpthlp turbulent advection
2792 wpthlp_tp (m K)/s^2 33 A w'thl'_tp, wpthlp budget: wpthlp turbulent production
2793 wpthlp_ac (m K)/s^2 33 A w'thl'_ac, wpthlp budget: wpthlp accumulation term
2794 wpthlp_bp (m K)/s^2 33 A w'thl'_b', wpthlp budget: wpthlp buoyancy production
2795 wpthlp_pr1 (m K)/s^2 33 A w'thl'_pr1, wpthlp budget: wpthlp pressure term 1
2796 wpthlp_pr2 (m K)/s^2 33 A w'thl'_pr2, wpthlp budget: wpthlp pressure term 2
2797 wpthlp_pr3 (m K)/s^2 33 A w'thl'_pr3, wpthlp budget: wpthlp pressure term 3
2798 wpthlp_dp1 (m K)/s^2 33 A w'thl'_dp1, wpthlp budget: wpthlp dissipation term 1
2799 wpthlp_mfl (m K)/s^2 33 A w'thl'_mfl, wpthlp budget: wpthlp monotonic flux limiter
2800 wpthlp_cl (m K)/s^2 33 A w'thl'_cl, wpthlp budget: wpthlp clipping term
2801 wpthlp_forcing (m K)/s^2 33 A w'thl'_forcing, wpthlp budget: wpthlp forcing (includes microphysics tendency)
2802 wpthlp_mc (m K)/s^2 33 A w'thl'_mc, Microphysics tendency for wpthlp (not in budget)
2803 rtp2_bt (kg^2)/(kg^2 s) 33 A rt'^2_bt, rt'2 budget: rtp2 time tendency
2804 rtp2_ma (kg^2)/(kg^2 s) 33 A rt'^2_ma, rtp2 budget: rtp2 mean advection
2805 rtp2_ta (kg^2)/(kg^2 s) 33 A rt'^2_ta, rtp2 budget: rtp2 turbulent advection
2806 rtp2_tp (kg^2)/(kg^2 s) 33 A rt'^2_tp, rtp2 budget: rtp2 turbulent production
2807 rtp2_dp1 (kg^2)/(kg^2 s) 33 A rt'^2_dp1, rtp2 budget: rtp2 dissipation term 1
2808 rtp2_dp2 (kg^2)/(kg^2 s) 33 A rt'^2_dp2, rtp2 budget: rtp2 dissipation term 2
2809 rtp2_cl (kg^2)/(kg^2 s) 33 A rt'^2_cl, rtp2 budget: rtp2 clipping term
2810 rtp2_pd (kg^2)/(kg^2 s) 33 A rt'^2_pd, rtp2 budget: rtp2 positive definite adjustment
2811 rtp2_sf (kg^2)/(kg^2 s) 33 A rt'^2_sf, rtp2 budget: rtp2 surface variance
2812 rtp2_forcing (kg/kg)^2/s 33 A rt'^2_forcing, rtp2 budget: rtp2 forcing (includes microphysics tendency)
2813 rtp2_mc (kg/kg)^2/s 33 A rt'^2_mc, Microphysics tendency for rtp2 (not in budget)
2814 thlp2_bt (K^2)/s 33 A thl'^2_bt, thlp2 budget: thlp2 time tendency
2815 thlp2_ma (K^2)/s 33 A thl'^2_ma, thlp2 budget: thlp2 mean advection
2816 thlp2_ta (K^2)/s 33 A thl'^2_ta, thlp2 budget: thlp2 turbulent advection
2817 thlp2_tp (K^2)/s 33 A thl'^2_t', thlp2 budget: thlp2 turbulent production
2818 thlp2_dp1 (K^2)/s 33 A thl'^2_dp1, thlp2 budget: thlp2 dissipation term 1
2819 thlp2_dp2 (K^2)/s 33 A thl'^2_dp2, thlp2 budget: thlp2 dissipation term 2
2820 thlp2_cl (K^2)/s 33 A thl'^2_cl, thlp2 budget: thlp2 clipping term
2821 thlp2_pd K^2/s 33 A thl'^2_pd, thlp2 budget: thlp2 positive definite adjustment
2822 thlp2_sf K^2/s 33 A thl'^2_sf, thl'^2 budget: thlp2 surface variance
2823 thlp2_forcing K^2/s 33 A thlp2 budget: thlp2 forcing (includes microphysics tendency) [K^2/s]
2824 thlp2_mc K^2/s 33 A thl'^2_mc, Microphysics tendency for thlp2 (not in budget)
2825 rtpthlp_bt (kg K)/(kg s) 33 A rt'thl'_bt, rtpthlp budget: rtpthlp time tendency
2826 rtpthlp_ma (kg K)/(kg s) 33 A rt'thl'_ma, rtpthlp budget: rtpthlp mean advection
2827 rtpthlp_ta (kg K)/(kg s) 33 A rt'thl'_ta, rtpthlp budget: rtpthlp turbulent advection
2828 rtpthlp_tp1 (kg K)/(kg s) 33 A rt'thl'_tp1, rtpthlp budget: rtpthlp turbulent production 1
2829 rtpthlp_tp2 (kg K)/(kg s) 33 A rt'thl'_t'^2, rtpthlp budget: rtpthlp turbulent production 2
2830 rtpthlp_dp1 (kg K)/(kg s) 33 A rt'thl'_d'1, rtpthlp budget: rtpthlp dissipation term 1
2831 rtpthlp_dp2 (kg K)/(kg s) 33 A rt'thl'_dp2, rtpthlp budget: rtpthlp dissipation term 2
2832 rtpthlp_cl (kg K)/(kg s) 33 A rt'thl'_cl, rtpthlp budget: rtpthlp clipping term
2833 rtpthlp_sf (kg K)/(kg s) 33 A rt'thl'_sf, rtpthlp budget: rtpthlp surface variance
2834 rtpthlp_forcing (K kg/kg)/s 33 A rt'thl'_forcing, rtpthlp budget: rtpthlp forcing (includes microphysics tendency)
2835 rtpthlp_mc (K kg/kg)/s 33 A rt'thl'_mc, Microphysics tendency for rtpthlp (not in budget)
2836 wpthlp_enter_mfl (m K)/s 33 A w'thl'_enter_mfl, Wpthlp entering flux limiter
2837 wpthlp_exit_mfl (m K)/s 33 A w'thl'_exit_mfl, Wpthlp exiting flux limiter
2838 wprtp_enter_mfl (m kg)/(s kg) 33 A w'rt'_enter_mfl, Wprtp entering flux limiter
2839 wprtp_exit_mfl (m kg)/(s kg) 33 A w'rt'_exit_mfl, Wprtp exiting flux limiter
2840 wpthlp_mfl_min (m K)/s 33 A w'thl'_mfl_min, Minimum allowable wpthlp
2841 wpthlp_mfl_max (m K)/s 33 A w'thl'_mfl_max, Maximum allowable wpthlp
2842 wprtp_mfl_min (m kg)/(s kg) 33 A w'rt'_mfl_min, Minimum allowable wprtp
2843 wprtp_mfl_max (m kg)/(s kg) 33 A w'rt'_mfl_max, Maximum allowable wprtp
2844 TROP_P Pa 1 A Tropopause Pressure
2845 TROP_T K 1 A Tropopause Temperature
2846 TROP_Z m 1 A Tropopause Height
2847 TROP_DZ m 32 A Relative Tropopause Height
2848 TROP_PD probability 32 A Tropopause Probabilty
2849 TROP_FD probability 1 A Tropopause Found
2850 TROPP_P Pa 1 A Tropopause Pressure (primary)
2851 TROPP_T K 1 A Tropopause Temperature (primary)
2852 TROPP_Z m 1 A Tropopause Height (primary)
2853 TROPP_DZ m 32 A Relative Tropopause Height (primary)
2854 TROPP_PD probability 32 A Tropopause Distribution (primary)
2855 TROPP_FD probability 1 A Tropopause Found (primary)
2856 TROPF_P Pa 1 A Tropopause Pressure (cold point)
2857 TROPF_T K 1 A Tropopause Temperature (cold point)
2858 TROPF_Z m 1 A Tropopause Height (cold point)
2859 TROPF_DZ m 32 A Relative Tropopause Height (cold point)
2860 TROPF_PD probability 32 A Tropopause Distribution (cold point)
2861 TROPF_FD probability 1 A Tropopause Found (cold point)
2862 hstobie_trop fraction of mode 32 I Lowest level with stratospheric chemsitry
2863 hstobie_linoz fraction of mode 32 I Lowest possible Linoz level
2864 hstobie_tropop fraction of mode 32 I Troposphere boundary calculated in chemistry
2865 DADADJ_PD probability 32 A dry adiabatic adjustment probability
2866 dgnd_a01 m 32 A dry dgnum, interstitial, mode 01
2867 dgnw_a01 m 32 A wet dgnum, interstitial, mode 01
2868 wat_a1 m 32 A aerosol water, interstitial, mode 01
2869 dgnd_a02 m 32 A dry dgnum, interstitial, mode 02
2870 dgnw_a02 m 32 A wet dgnum, interstitial, mode 02
2871 wat_a2 m 32 A aerosol water, interstitial, mode 02
2872 dgnd_a03 m 32 A dry dgnum, interstitial, mode 03
2873 dgnw_a03 m 32 A wet dgnum, interstitial, mode 03
2874 wat_a3 m 32 A aerosol water, interstitial, mode 03
2875 dgnd_a04 m 32 A dry dgnum, interstitial, mode 04
2876 dgnw_a04 m 32 A wet dgnum, interstitial, mode 04
2877 wat_a4 m 32 A aerosol water, interstitial, mode 04
2878 PM25 kg/m3 32 A PM2.5 concentration
2879 PM25_SRF kg/m3 1 A surface PM2.5 concentration
2880 Q_qneg3 kg/kg 32 I Specific humidity QNEG3 error (cell)
2881 Q_qneg3_col kg/kg 1 I Specific humidity QNEG3 error (column)
2882 CLDLIQ_qneg3 kg/kg 32 I Grid box averaged cloud liquid amount QNEG3 error (cell)
2883 CLDLIQ_qneg3_col kg/kg 1 I Grid box averaged cloud liquid amount QNEG3 error (column)
2884 CLDICE_qneg3 kg/kg 32 I Grid box averaged cloud ice amount QNEG3 error (cell)
2885 CLDICE_qneg3_col kg/kg 1 I Grid box averaged cloud ice amount QNEG3 error (column)
2886 NUMLIQ_qneg3 kg/kg 32 I Grid box averaged cloud liquid number QNEG3 error (cell)
2887 NUMLIQ_qneg3_col kg/kg 1 I Grid box averaged cloud liquid number QNEG3 error (column)
2888 NUMICE_qneg3 kg/kg 32 I Grid box averaged cloud ice number QNEG3 error (cell)
2889 NUMICE_qneg3_col kg/kg 1 I Grid box averaged cloud ice number QNEG3 error (column)
2890 RAINQM_qneg3 kg/kg 32 I Grid box averaged rain amount QNEG3 error (cell)
2891 RAINQM_qneg3_col kg/kg 1 I Grid box averaged rain amount QNEG3 error (column)
2892 SNOWQM_qneg3 kg/kg 32 I Grid box averaged snow amount QNEG3 error (cell)
2893 SNOWQM_qneg3_col kg/kg 1 I Grid box averaged snow amount QNEG3 error (column)
2894 NUMRAI_qneg3 kg/kg 32 I Grid box averaged rain number QNEG3 error (cell)
2895 NUMRAI_qneg3_col kg/kg 1 I Grid box averaged rain number QNEG3 error (column)
2896 NUMSNO_qneg3 kg/kg 32 I Grid box averaged snow number QNEG3 error (cell)
2897 NUMSNO_qneg3_col kg/kg 1 I Grid box averaged snow number QNEG3 error (column)
2898 bc_a1_qneg3 kg/kg 32 I bc_a1 QNEG3 error (cell)
2899 bc_a1_qneg3_col kg/kg 1 I bc_a1 QNEG3 error (column)
2900 bc_a4_qneg3 kg/kg 32 I bc_a4 QNEG3 error (cell)
2901 bc_a4_qneg3_col kg/kg 1 I bc_a4 QNEG3 error (column)
2902 DMS_qneg3 kg/kg 32 I DMS QNEG3 error (cell)
2903 DMS_qneg3_col kg/kg 1 I DMS QNEG3 error (column)
2904 dst_a1_qneg3 kg/kg 32 I dst_a1 QNEG3 error (cell)
2905 dst_a1_qneg3_col kg/kg 1 I dst_a1 QNEG3 error (column)
2906 dst_a2_qneg3 kg/kg 32 I dst_a2 QNEG3 error (cell)
2907 dst_a2_qneg3_col kg/kg 1 I dst_a2 QNEG3 error (column)
2908 dst_a3_qneg3 kg/kg 32 I dst_a3 QNEG3 error (cell)
2909 dst_a3_qneg3_col kg/kg 1 I dst_a3 QNEG3 error (column)
2910 H2O2_qneg3 kg/kg 32 I H2O2 QNEG3 error (cell)
2911 H2O2_qneg3_col kg/kg 1 I H2O2 QNEG3 error (column)
2912 H2SO4_qneg3 kg/kg 32 I H2SO4 QNEG3 error (cell)
2913 H2SO4_qneg3_col kg/kg 1 I H2SO4 QNEG3 error (column)
2914 ncl_a1_qneg3 kg/kg 32 I ncl_a1 QNEG3 error (cell)
2915 ncl_a1_qneg3_col kg/kg 1 I ncl_a1 QNEG3 error (column)
2916 ncl_a2_qneg3 kg/kg 32 I ncl_a2 QNEG3 error (cell)
2917 ncl_a2_qneg3_col kg/kg 1 I ncl_a2 QNEG3 error (column)
2918 ncl_a3_qneg3 kg/kg 32 I ncl_a3 QNEG3 error (cell)
2919 ncl_a3_qneg3_col kg/kg 1 I ncl_a3 QNEG3 error (column)
2920 num_a1_qneg3 kg/kg 32 I num_a1 QNEG3 error (cell)
2921 num_a1_qneg3_col kg/kg 1 I num_a1 QNEG3 error (column)
2922 num_a2_qneg3 kg/kg 32 I num_a2 QNEG3 error (cell)
2923 num_a2_qneg3_col kg/kg 1 I num_a2 QNEG3 error (column)
2924 num_a3_qneg3 kg/kg 32 I num_a3 QNEG3 error (cell)
2925 num_a3_qneg3_col kg/kg 1 I num_a3 QNEG3 error (column)
2926 num_a4_qneg3 kg/kg 32 I num_a4 QNEG3 error (cell)
2927 num_a4_qneg3_col kg/kg 1 I num_a4 QNEG3 error (column)
2928 pom_a1_qneg3 kg/kg 32 I pom_a1 QNEG3 error (cell)
2929 pom_a1_qneg3_col kg/kg 1 I pom_a1 QNEG3 error (column)
2930 pom_a4_qneg3 kg/kg 32 I pom_a4 QNEG3 error (cell)
2931 pom_a4_qneg3_col kg/kg 1 I pom_a4 QNEG3 error (column)
2932 SO2_qneg3 kg/kg 32 I SO2 QNEG3 error (cell)
2933 SO2_qneg3_col kg/kg 1 I SO2 QNEG3 error (column)
2934 so4_a1_qneg3 kg/kg 32 I so4_a1 QNEG3 error (cell)
2935 so4_a1_qneg3_col kg/kg 1 I so4_a1 QNEG3 error (column)
2936 so4_a2_qneg3 kg/kg 32 I so4_a2 QNEG3 error (cell)
2937 so4_a2_qneg3_col kg/kg 1 I so4_a2 QNEG3 error (column)
2938 so4_a3_qneg3 kg/kg 32 I so4_a3 QNEG3 error (cell)
2939 so4_a3_qneg3_col kg/kg 1 I so4_a3 QNEG3 error (column)
2940 soa_a1_qneg3 kg/kg 32 I soa_a1 QNEG3 error (cell)
2941 soa_a1_qneg3_col kg/kg 1 I soa_a1 QNEG3 error (column)
2942 soa_a2_qneg3 kg/kg 32 I soa_a2 QNEG3 error (cell)
2943 soa_a2_qneg3_col kg/kg 1 I soa_a2 QNEG3 error (column)
2944 SOAE_qneg3 kg/kg 32 I SOAE QNEG3 error (cell)
2945 SOAE_qneg3_col kg/kg 1 I SOAE QNEG3 error (column)
2946 SOAG_qneg3 kg/kg 32 I SOAG QNEG3 error (cell)
2947 SOAG_qneg3_col kg/kg 1 I SOAG QNEG3 error (column)
2948 qflux_exceeded kg/m^2/s 1 I qflux excess (QNEG4)
2949 UTEND_DCONV m/s2 32 A Zonal wind tendency by deep convection
2950 VTEND_DCONV m/s2 32 A Meridional wind tendency by deep convection
2951 UTEND_SHCONV m/s2 32 A Zonal wind tendency by shallow convection
2952 VTEND_SHCONV m/s2 32 A Meridional wind tendency by shallow convection
2953 UTEND_MACROP m/s2 32 A Zonal wind tendency by macrophysics
2954 VTEND_MACROP m/s2 32 A Meridional wind tendency by macrophysics
2955 UTEND_VDIFF m/s2 32 A Zonal wind tendency by vert. diffus.
2956 VTEND_VDIFF m/s2 32 A Meridional wind tendency by vert. diffus.
2957 UTEND_RAYLEIGH m/s2 32 A Zonal wind tendency by Rayleigh Fric.
2958 VTEND_RAYLEIGH m/s2 32 A Meridional wind tendency by Rayleigh Fric.
2959 UTEND_GWDTOT m/s2 32 A Zonal wind tendency by all GWs
2960 VTEND_GWDTOT m/s2 32 A Meridional wind tendency by all GWs
2961 UTEND_QBORLX m/s2 32 A Zonal wind tendency by QBO relaxation
2962 VTEND_QBORLX m/s2 32 A Meridional wind tendency by QBO relaxation
2963 UTEND_LUNART m/s2 32 A Zonal wind tendency by lunar tides
2964 VTEND_LUNART m/s2 32 A Meridional wind tendency by lunar tides
2965 UTEND_IONDRG m/s2 32 A Zonal wind tendency by ion drag
2966 VTEND_IONDRG m/s2 32 A Meridional wind tendency by ion drag
2967 UTEND_NDG m/s2 32 A Zonal wind tendency by nudging
2968 VTEND_NDG m/s2 32 A Meridional wind tendency by nudging
2969 UTEND_CORE m/s2 32 A Zonal wind tendency due to dynamical core
2970 VTEND_CORE m/s2 32 A Meridional wind tendency due to dynamical core
2971 TDIFF K 32 A difference from observed temp
2972 UDIFF K 32 A difference from observed u wind
2973 VDIFF K 32 A difference from observed v wind
2974 TOBS K 32 A observed temp
2975 QDIFF kg/kg 32 A difference from observed water
2976 QOBS kg/kg 32 A observed water
2977 PRECOBS mm/day 32 A Total (convective and large-scale) precipitation rate
2978 DIVQ kg/kg/s 32 A Q advection tendency (horizontal)
2979 DIVQ3D kg/kg/s 32 A Q advection tendency (horiz/vert combined)
2980 DIVV m/s2 32 A V advection tendency (horizontal)
2981 DIVU m/s2 32 A U advection tendency (horizontal)
2982 DIVT K/s 32 A T advection tendency (horizontal)
2983 DIVT3D K/s 32 A T advection tendency (horiz/vert combined)
2984 DIVU3D K/s 32 A U advection tendency (horiz/vert combined)
2985 DIVV3D K/s 32 A V advection tendency (horiz/vert combined)
2986 SHFLXOBS W/m2 1 A Obs Surface sensible heat flux
2987 LHFLXOBS W/m2 1 A Obs Surface latent heat flux
2988 TRELAX K 32 A t relaxation amount
2989 QRELAX kg/kg 32 A q relaxation amount
2990 TAURELAX seconds 32 A relaxation time constant
2991 TTEN_XYADV K/s 32 I T horizontal advective forcing
2992 UTEN_XYADV m/s^2 32 I U horizontal advective forcing
2993 VTEN_XYADV m/s^2 32 I V horizontal advective forcing
2994 QVTEN_XYADV kg/kg/s 32 I QV horizontal advective forcing
2995 QLTEN_XYADV kg/kg/s 32 I QL horizontal advective forcing
2996 QITEN_XYADV kg/kg/s 32 I QI horizontal advective forcing
2997 NLTEN_XYADV #/kg/s 32 I NL horizontal advective forcing
2998 NITEN_XYADV #/kg/s 32 I NI horizontal advective forcing
2999 TTEN_ZADV K/s 32 I T vertical advective forcing
3000 UTEN_ZADV m/s^2 32 I U vertical advective forcing
3001 VTEN_ZADV m/s^2 32 I V vertical advective forcing
3002 QVTEN_ZADV kg/kg/s 32 I QV vertical advective forcing
3003 QLTEN_ZADV kg/kg/s 32 I QL vertical advective forcing
3004 QITEN_ZADV kg/kg/s 32 I QI vertical advective forcing
3005 NLTEN_ZADV #/kg/s 32 I NL vertical advective forcing
3006 NITEN_ZADV #/kg/s 32 I NI vertical advective forcing
3007 TTEN_PHYS K/s 32 I T vertical advective forcing
3008 UTEN_PHYS m/s^2 32 I U vertical advective forcing
3009 VTEN_PHYS m/s^2 32 I V vertical advective forcing
3010 QVTEN_PHYS kg/kg/s 32 I QV vertical advective forcing
3011 QLTEN_PHYS kg/kg/s 32 I QL vertical advective forcing
3012 QITEN_PHYS kg/kg/s 32 I QI vertical advective forcing
3013 NLTEN_PHYS #/kg/s 32 I NL vertical advective forcing
3014 NITEN_PHYS #/kg/s 32 I NI vertical advective forcing
intht:nfmaster= 3014
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FLDLST: History stream 1 contains 802 fields
Write frequency: 1
Filename specifier: %c.cam.h%t%f.%y-%m-%d-%s.nc
Output precision: single
Number of time samples per file: 5000
Fields are represented on global grids:
101
100
Included fields are:
1 AEROD_v 1 1 I Total Aerosol Optical Depth in visible band
2 AODDUST 1 I Aerosol optical depth 550 nm from dust, day only
3 AODDUST01 1 I Aerosol optical depth, day only, 550 nm mode 1 from dust
4 AODDUST03 1 I Aerosol optical depth, day only, 550 nm mode 3 from dust
5 AODVIS 1 I Aerosol optical depth 550 nm
6 APRL m/s 1 A Average Stratiform Precip Rate over efficiency calculation
7 CDNUMC 1/m2 1 I Vertically-integrated droplet concentration
8 CLDHGH fraction 1 I Vertically-integrated high cloud from 5000. to 40000. Pa
9 CLDLOW fraction 1 I Vertically-integrated low cloud from 70000. to 120000. Pa
10 CLDMED fraction 1 I Vertically-integrated mid-level cloud from 40000. to 70000. Pa
11 CLDTOT fraction 1 I Vertically-integrated total cloud
12 DF_DMS kg/m2/s 1 I dry deposition flux
13 DF_H2O2 kg/m2/s 1 I dry deposition flux
14 DF_H2SO4 kg/m2/s 1 I dry deposition flux
15 DF_SO2 kg/m2/s 1 I dry deposition flux
16 DF_SOAG kg/m2/s 1 I dry deposition flux
17 DMS_SRF mol/mol 1 I DMS in bottom layer
18 FLDS W/m2 1 I Downwelling longwave flux at surface
19 FLNS W/m2 1 I Net longwave flux at surface
20 FLNSC W/m2 1 I Clearsky net longwave flux at surface
21 FLNT W/m2 1 I Net longwave flux at top of model
22 FLNTC W/m2 1 I Clearsky net longwave flux at top of model
23 FLNTCLR W/m2 1 I Clearsky ONLY points net longwave flux at top of model
24 FLUT W/m2 1 A Upwelling longwave flux at top of model
25 FLUTC W/m2 1 I Clearsky upwelling longwave flux at top of model
26 FREQCLR Frac 1 I Frequency of Occurrence of Clearsky
27 FSDS W/m2 1 I Downwelling solar flux at surface
28 FSDSC W/m2 1 I Clearsky downwelling solar flux at surface
29 FSNS W/m2 1 I Net solar flux at surface
30 FSNSC W/m2 1 I Clearsky net solar flux at surface
31 FSNT W/m2 1 I Net solar flux at top of model
32 FSNTC W/m2 1 I Clearsky net solar flux at top of model
33 FSNTOA W/m2 1 I Net solar flux at top of atmosphere
34 FSNTOAC W/m2 1 I Clearsky net solar flux at top of atmosphere
35 FSUTOA W/m2 1 I Upwelling solar flux at top of atmosphere
36 H2O2_SRF mol/mol 1 I H2O2 in bottom layer
37 H2O_CLXF molec/cm2/s 1 I vertically intergrated external forcing for H2O
38 H2O_CMXF kg/m2/s 1 I vertically intergrated external forcing for H2O
39 H2O_SRF mol/mol 1 I water vapor in bottom layer
40 H2SO4_SRF mol/mol 1 I H2SO4 in bottom layer
41 ICEFRAC fraction 1 I Fraction of sfc area covered by sea-ice
42 LANDFRAC fraction 1 I Fraction of sfc area covered by land
43 LHFLX W/m2 1 I Surface latent heat flux
44 LWCF W/m2 1 A Longwave cloud forcing
45 MEG_SOAE kg/m2/sec 1 I SOAE MEGAN emissions flux
46 OCNFRAC fraction 1 I Fraction of sfc area covered by ocean
47 PBLH m 1 I PBL height
48 PE 1 1 A Stratiform Precipitation Efficiency (precip/cmeliq)
49 PEFRAC 1 1 A Fraction of timesteps precip efficiency reported
50 PHIS m2/s2 1 I Surface geopotential
51 PRECC m/s 1 A Convective precipitation rate (liq + ice)
52 PRECL m/s 1 A Large-scale (stable) precipitation rate (liq + ice)
53 PRECSC m/s 1 I Convective snow rate (water equivalent)
54 PRECSL m/s 1 I Large-scale (stable) snow rate (water equivalent)
55 PRECT m/s 1 A Total (convective and large-scale) precipitation rate (liq + ice)
56 PS Pa 1 A Surface pressure
57 PSL Pa 1 I Sea level pressure
58 QFLX kg/m2/s 1 I Surface water flux
59 QREFHT kg/kg 1 I Reference height humidity
60 RACAU kg/kg/s 1 A Accretion/autoconversion ratio from vertical average
61 SFDMS kg/m2/s 1 I DMS surface flux
62 SFSO2 kg/m2/s 1 I SO2 surface flux
63 SFSOAE kg/m2/s 1 I SOAE surface flux
64 SFbc_a4 kg/m2/s 1 I bc_a4 surface flux
65 SFdst_a1 kg/m2/s 1 I dst_a1 surface flux
66 SFdst_a2 kg/m2/s 1 I dst_a2 surface flux
67 SFdst_a3 kg/m2/s 1 I dst_a3 surface flux
68 SFncl_a1 kg/m2/s 1 I ncl_a1 surface flux
69 SFncl_a2 kg/m2/s 1 I ncl_a2 surface flux
70 SFncl_a3 kg/m2/s 1 I ncl_a3 surface flux
71 SFnum_a1 1/m2/s 1 I num_a1 surface flux
72 SFnum_a2 1/m2/s 1 I num_a2 surface flux
73 SFnum_a3 1/m2/s 1 I num_a3 surface flux
74 SFnum_a4 1/m2/s 1 I num_a4 surface flux
75 SFpom_a4 kg/m2/s 1 I pom_a4 surface flux
76 SFso4_a1 kg/m2/s 1 I so4_a1 surface flux
77 SFso4_a2 kg/m2/s 1 I so4_a2 surface flux
78 SHFLX W/m2 1 I Surface sensible heat flux
79 SNOWHICE m 1 I Snow depth over ice
80 SNOWHLND m 1 I Water equivalent snow depth
81 SO2_CLXF molec/cm2/s 1 I vertically intergrated external forcing for SO2
82 SO2_CMXF kg/m2/s 1 I vertically intergrated external forcing for SO2
83 SO2_SRF mol/mol 1 I SO2 in bottom layer
84 SOAE_SRF mol/mol 1 I SOAE in bottom layer
85 SOAG_SRF mol/mol 1 I SOAG in bottom layer
86 SOLIN W/m2 1 I Solar insolation
87 SWCF W/m2 1 A Shortwave cloud forcing
88 TAUBLJX N/m2 1 I Zonal integrated drag from Beljaars SGO
89 TAUBLJY N/m2 1 I Meridional integrated drag from Beljaars SGO
90 TAUGWX N m-2 1 I Zonal gravity wave surface stress
91 TAUGWY N m-2 1 I Meridional gravity wave surface stress
92 TAUX N/m2 1 I Zonal surface stress
93 TAUY N/m2 1 I Meridional surface stress
94 TFIX K/s 1 I T fixer (T equivalent of Energy correction)
95 TGCLDCWP kg/m2 1 I Total grid-box cloud water path (liquid and ice)
96 TGCLDIWP kg/m2 1 I Total grid-box cloud ice water path
97 TGCLDLWP kg/m2 1 I Total grid-box cloud liquid water path
98 TMQ kg/m2 1 A Total (vertically integrated) precipitable water
99 TREFHT K 1 I Reference height temperature
100 TS K 1 I Surface temperature (radiative)
101 TSMN K 1 I Minimum surface temperature over output period
102 TSMX K 1 I Maximum surface temperature over output period
103 U10 m/s 1 I 10m wind speed
104 VPRAO kg/kg/s 1 A Vertical average of accretion rate
105 VPRCO kg/kg/s 1 A Vertical average of autoconversion rate
106 WD_DMS kg/m2/s 1 I vertical integrated wet deposition flux
107 WD_H2O2 kg/m2/s 1 I vertical integrated wet deposition flux
108 WD_H2SO4 kg/m2/s 1 I vertical integrated wet deposition flux
109 WD_SO2 kg/m2/s 1 I vertical integrated wet deposition flux
110 WD_SOAG kg/m2/s 1 I vertical integrated wet deposition flux
111 bc_a1DDF kg/m2/s 1 I bc_a1 dry deposition flux at bottom (grav + turb)
112 bc_a1SFWET kg/m2/s 1 I Wet deposition flux at surface
113 bc_a1_SRF kg/kg 1 I bc_a1 in bottom layer
114 bc_a4DDF kg/m2/s 1 I bc_a4 dry deposition flux at bottom (grav + turb)
115 bc_a4SFWET kg/m2/s 1 I Wet deposition flux at surface
116 bc_a4_CLXF molec/cm2/s 1 I vertically intergrated external forcing for bc_a4
117 bc_a4_CMXF kg/m2/s 1 I vertically intergrated external forcing for bc_a4
118 bc_a4_SRF kg/kg 1 I bc_a4 in bottom layer
119 bc_c1SFWET kg/m2/s 1 I bc_c1 wet deposition flux at surface
120 bc_c4SFWET kg/m2/s 1 I bc_c4 wet deposition flux at surface
121 dst_a1DDF kg/m2/s 1 I dst_a1 dry deposition flux at bottom (grav + turb)
122 dst_a1SF kg/m2/s 1 I dst_a1 dust surface emission
123 dst_a1SFWET kg/m2/s 1 I Wet deposition flux at surface
124 dst_a1_SRF kg/kg 1 I dst_a1 in bottom layer
125 dst_a2DDF kg/m2/s 1 I dst_a2 dry deposition flux at bottom (grav + turb)
126 dst_a2SF kg/m2/s 1 I dst_a2 dust surface emission
127 dst_a2SFWET kg/m2/s 1 I Wet deposition flux at surface
128 dst_a2_SRF kg/kg 1 I dst_a2 in bottom layer
129 dst_a3DDF kg/m2/s 1 I dst_a3 dry deposition flux at bottom (grav + turb)
130 dst_a3SF kg/m2/s 1 I dst_a3 dust surface emission
131 dst_a3SFWET kg/m2/s 1 I Wet deposition flux at surface
132 dst_a3_SRF kg/kg 1 I dst_a3 in bottom layer
133 dst_c1SFWET kg/m2/s 1 I dst_c1 wet deposition flux at surface
134 dst_c2SFWET kg/m2/s 1 I dst_c2 wet deposition flux at surface
135 dst_c3SFWET kg/m2/s 1 I dst_c3 wet deposition flux at surface
136 ncl_a1DDF kg/m2/s 1 I ncl_a1 dry deposition flux at bottom (grav + turb)
137 ncl_a1SF kg/m2/s 1 I ncl_a1 seasalt surface emission
138 ncl_a1SFWET kg/m2/s 1 I Wet deposition flux at surface
139 ncl_a1_SRF kg/kg 1 I ncl_a1 in bottom layer
140 ncl_a2DDF kg/m2/s 1 I ncl_a2 dry deposition flux at bottom (grav + turb)
141 ncl_a2SF kg/m2/s 1 I ncl_a2 seasalt surface emission
142 ncl_a2SFWET kg/m2/s 1 I Wet deposition flux at surface
143 ncl_a2_SRF kg/kg 1 I ncl_a2 in bottom layer
144 ncl_a3DDF kg/m2/s 1 I ncl_a3 dry deposition flux at bottom (grav + turb)
145 ncl_a3SF kg/m2/s 1 I ncl_a3 seasalt surface emission
146 ncl_a3SFWET kg/m2/s 1 I Wet deposition flux at surface
147 ncl_a3_SRF kg/kg 1 I ncl_a3 in bottom layer
148 ncl_c1SFWET kg/m2/s 1 I ncl_c1 wet deposition flux at surface
149 ncl_c2SFWET kg/m2/s 1 I ncl_c2 wet deposition flux at surface
150 ncl_c3SFWET kg/m2/s 1 I ncl_c3 wet deposition flux at surface
151 num_a1DDF 1/m2/s 1 I num_a1 dry deposition flux at bottom (grav + turb)
152 num_a1SF kg/m2/s 1 I num_a1 dust surface emission
153 num_a1SFWET 1/m2/s 1 I Wet deposition flux at surface
154 num_a1_CLXF molec/cm2/s 1 I vertically intergrated external forcing for num_a1
155 num_a1_CMXF kg/m2/s 1 I vertically intergrated external forcing for num_a1
156 num_a1_SRF 1/kg 1 I num_a1 in bottom layer
157 num_a2DDF 1/m2/s 1 I num_a2 dry deposition flux at bottom (grav + turb)
158 num_a2SF kg/m2/s 1 I num_a2 dust surface emission
159 num_a2SFWET 1/m2/s 1 I Wet deposition flux at surface
160 num_a2_CLXF molec/cm2/s 1 I vertically intergrated external forcing for num_a2
161 num_a2_CMXF kg/m2/s 1 I vertically intergrated external forcing for num_a2
162 num_a2_SRF 1/kg 1 I num_a2 in bottom layer
163 num_a3DDF 1/m2/s 1 I num_a3 dry deposition flux at bottom (grav + turb)
164 num_a3SF kg/m2/s 1 I num_a3 dust surface emission
165 num_a3SFWET 1/m2/s 1 I Wet deposition flux at surface
166 num_a3_SRF 1/kg 1 I num_a3 in bottom layer
167 num_a4DDF 1/m2/s 1 I num_a4 dry deposition flux at bottom (grav + turb)
168 num_a4SFWET 1/m2/s 1 I Wet deposition flux at surface
169 num_a4_CLXF molec/cm2/s 1 I vertically intergrated external forcing for num_a4
170 num_a4_CMXF kg/m2/s 1 I vertically intergrated external forcing for num_a4
171 num_a4_SRF 1/kg 1 I num_a4 in bottom layer
172 num_c1SFWET 1/m2/s 1 I num_c1 wet deposition flux at surface
173 num_c2SFWET 1/m2/s 1 I num_c2 wet deposition flux at surface
174 num_c3SFWET 1/m2/s 1 I num_c3 wet deposition flux at surface
175 num_c4SFWET 1/m2/s 1 I num_c4 wet deposition flux at surface
176 pom_a1DDF kg/m2/s 1 I pom_a1 dry deposition flux at bottom (grav + turb)
177 pom_a1SFWET kg/m2/s 1 I Wet deposition flux at surface
178 pom_a1_SRF kg/kg 1 I pom_a1 in bottom layer
179 pom_a4DDF kg/m2/s 1 I pom_a4 dry deposition flux at bottom (grav + turb)
180 pom_a4SFWET kg/m2/s 1 I Wet deposition flux at surface
181 pom_a4_CLXF molec/cm2/s 1 I vertically intergrated external forcing for pom_a4
182 pom_a4_CMXF kg/m2/s 1 I vertically intergrated external forcing for pom_a4
183 pom_a4_SRF kg/kg 1 I pom_a4 in bottom layer
184 pom_c1SFWET kg/m2/s 1 I pom_c1 wet deposition flux at surface
185 pom_c4SFWET kg/m2/s 1 I pom_c4 wet deposition flux at surface
186 so4_a1DDF kg/m2/s 1 I so4_a1 dry deposition flux at bottom (grav + turb)
187 so4_a1SFWET kg/m2/s 1 I Wet deposition flux at surface
188 so4_a1_CLXF molec/cm2/s 1 I vertically intergrated external forcing for so4_a1
189 so4_a1_CMXF kg/m2/s 1 I vertically intergrated external forcing for so4_a1
190 so4_a1_SRF kg/kg 1 I so4_a1 in bottom layer
191 so4_a2DDF kg/m2/s 1 I so4_a2 dry deposition flux at bottom (grav + turb)
192 so4_a2SFWET kg/m2/s 1 I Wet deposition flux at surface
193 so4_a2_CLXF molec/cm2/s 1 I vertically intergrated external forcing for so4_a2
194 so4_a2_CMXF kg/m2/s 1 I vertically intergrated external forcing for so4_a2
195 so4_a2_SRF kg/kg 1 I so4_a2 in bottom layer
196 so4_a3DDF kg/m2/s 1 I so4_a3 dry deposition flux at bottom (grav + turb)
197 so4_a3SFWET kg/m2/s 1 I Wet deposition flux at surface
198 so4_a3_SRF kg/kg 1 I so4_a3 in bottom layer
199 so4_c1SFWET kg/m2/s 1 I so4_c1 wet deposition flux at surface
200 so4_c2SFWET kg/m2/s 1 I so4_c2 wet deposition flux at surface
201 so4_c3SFWET kg/m2/s 1 I so4_c3 wet deposition flux at surface
202 soa_a1DDF kg/m2/s 1 I soa_a1 dry deposition flux at bottom (grav + turb)
203 soa_a1SFWET kg/m2/s 1 I Wet deposition flux at surface
204 soa_a1_SRF kg/kg 1 I soa_a1 in bottom layer
205 soa_a2DDF kg/m2/s 1 I soa_a2 dry deposition flux at bottom (grav + turb)
206 soa_a2SFWET kg/m2/s 1 I Wet deposition flux at surface
207 soa_a2_SRF kg/kg 1 I soa_a2 in bottom layer
208 soa_c1SFWET kg/m2/s 1 I soa_c1 wet deposition flux at surface
209 soa_c2SFWET kg/m2/s 1 I soa_c2 wet deposition flux at surface
210 ADRAIN m 32 A Average rain effective Diameter
211 ADSNOW m 32 A Average snow effective Diameter
212 ANRAIN m-3 32 I Average rain number conc
213 ANSNOW m-3 32 I Average snow number conc
214 AQRAIN kg/kg 32 I Average rain mixing ratio
215 AQSNOW kg/kg 32 I Average snow mixing ratio
216 AREI Micron 32 I Average ice effective radius
217 AREL Micron 32 I Average droplet effective radius
218 AWNC m-3 32 I Average cloud water number conc
219 AWNI m-3 32 I Average cloud ice number conc
220 BERGO kg/kg/s 32 A Conversion of cloud water to cloud ice from bergeron
221 BERGSO kg/kg/s 32 A Conversion of cloud water to snow from bergeron
222 CCN3 #/cm3 32 I CCN concentration at S=0.1%
223 CLDICE kg/kg 32 A Grid box averaged cloud ice amount
224 CLDICEAP kg/kg 32 I CLDICE after physics
225 CLDICEBP kg/kg 32 I CLDICE before physics
226 CLDICETGW kg/kg/s 32 I CLDICE tendency - gravity wave drag
227 CLDLIQ kg/kg 32 A Grid box averaged cloud liquid amount
228 CLDLIQAP kg/kg 32 I CLDLIQ after physics
229 CLDLIQBP kg/kg 32 I CLDLIQ before physics
230 CLDLIQTGW kg/kg/s 32 I CLDLIQ tendency - gravity wave drag
231 CLOUD fraction 32 I Cloud fraction
232 CLOUDCOVER_CLUBB fraction 32 I Cloud Cover
233 CLOUDFRAC_CLUBB fraction 32 I Cloud Fraction
234 CME kg/kg/s 32 A Rate of cond-evap within the cloud
235 CMEIOUT kg/kg/s 32 A Rate of deposition/sublimation of cloud ice
236 CMFDICE kg/kg/s 32 I Cloud ice tendency - shallow convection
237 CMFDLIQ kg/kg/s 32 I Cloud liq tendency - shallow convection
238 CMFDQ kg/kg/s 32 I QV tendency - shallow convection
239 CMFDT K/s 32 I T tendency - shallow convection
240 CONCLD fraction 32 I Convective cloud cover
241 CT_H2O kg/kg/s 32 I H2O source/sink
242 DCCLDICE kg/kg/s 32 I CLDICE tendency due to moist processes
243 DCCLDLIQ kg/kg/s 32 I CLDLIQ tendency due to moist processes
244 DCQ kg/kg/s 32 I Q tendency due to moist processes
245 DFCLDICE kg/kg/s 32 I CLDICE tendency due to slt fixer
246 DFCLDLIQ kg/kg/s 32 I CLDLIQ tendency due to slt fixer
247 DFQ kg/kg/s 32 I Q tendency due to slt fixer
248 DMS mol/mol 32 I DMS concentration
249 DPDLFICE kg/kg/s 32 I Detrained ice from deep convection
250 DPDLFLIQ kg/kg/s 32 I Detrained liquid water from deep convection
251 DPDLFT K/s 32 I T-tendency due to deep convective detrainment
252 DTCOND K/s 32 I T tendency - moist processes
253 DTCORE K/s 32 I T tendency due to dynamical core
254 DTH K/s 32 I T horizontal diffusive heating
255 DTV K/s 32 I T vertical diffusion
256 EVAPPREC kg/kg/s 32 A Rate of evaporation of falling precip
257 EVAPQZM kg/kg/s 32 I Q tendency - Evaporation from Zhang-McFarlane moist convection
258 EVAPSNOW kg/kg/s 32 A Rate of evaporation of falling snow
259 EVAPTZM K/s 32 I T tendency - Evaporation/snow prod from Zhang convection
260 FICE fraction 32 I Fractional ice content within cloud
261 FREQI fraction 32 I Fractional occurrence of ice
262 FREQL fraction 32 I Fractional occurrence of liquid
263 FREQR fraction 32 A Fractional occurrence of rain
264 FREQS fraction 32 A Fractional occurrence of snow
265 FRZRDT W/kg 32 A Latent heating rate due to homogeneous freezing of rain
266 H2O mol/mol 32 I water vapor concentration
267 H2O2 mol/mol 32 I H2O2 concentration
268 H2SO4 mol/mol 32 I H2SO4 concentration
269 HOMOO kg/kg/s 32 A Homogeneous freezing of cloud water
270 HR K/s 32 I Heating rate needed for d(theta)/dt computation
271 ICIMR kg/kg 32 I Prognostic in-cloud ice mixing ratio
272 ICIMRST kg/kg 32 A Prognostic in-stratus ice mixing ratio
273 ICWMR kg/kg 32 I Prognostic in-cloud water mixing ratio
274 ICWMRST kg/kg 32 A Prognostic in-stratus water mixing ratio
275 INEGCLPTEND kg/kg/s 32 I Cloud ice tendency due to clipping neg values after microp
276 IWC kg/m3 32 I Grid box average ice water content
277 KTOOP K/s 32 I (Kappa*T)*(omega/P)
278 LNEGCLPTEND kg/kg/s 32 I Cloud liq tendency due to clipping neg values after microp
279 MELTO kg/kg/s 32 A Melting of cloud ice
280 MELTSDT W/kg 32 A Latent heating rate due to melting of snow
281 MELTSTOT kg/kg/s 32 I Melting of snow
282 MNUCCCO kg/kg/s 32 A Immersion freezing of cloud water
283 MNUCCDO kg/kg/s 32 A Homogeneous and heterogeneous nucleation from vapor
284 MNUCCDOhet kg/kg/s 32 A Heterogeneous nucleation from vapor
285 MNUCCRIO kg/kg/s 32 I Heterogeneous freezing of rain to ice
286 MNUCCRO kg/kg/s 32 I Heterogeneous freezing of rain to snow
287 MNUCCTO kg/kg/s 32 A Contact freezing of cloud water
288 MNUDEPO kg/kg/s 32 I Deposition Nucleation
289 MPDI2P kg/kg/s 32 I Ice <--> Precip tendency - Morrison microphysics
290 MPDI2V kg/kg/s 32 I Ice <--> Vapor tendency - Morrison microphysics
291 MPDI2W kg/kg/s 32 I Ice <--> Water tendency - Morrison microphysics
292 MPDICE kg/kg/s 32 A CLDICE tendency - Morrison microphysics
293 MPDLIQ kg/kg/s 32 A CLDLIQ tendency - Morrison microphysics
294 MPDQ kg/kg/s 32 A Q tendency - Morrison microphysics
295 MPDT W/kg 32 A Heating tendency - Morrison microphysics
296 MPDW2I kg/kg/s 32 I Water <--> Ice tendency - Morrison microphysics
297 MPDW2P kg/kg/s 32 I Water <--> Precip tendency - Morrison microphysics
298 MPDW2V kg/kg/s 32 I Water <--> Vapor tendency - Morrison microphysics
299 MSACWIO kg/kg/s 32 A Conversion of cloud water from rime-splintering
300 NUMICE 1/kg 32 I Grid box averaged cloud ice number
301 NUMLIQ 1/kg 32 I Grid box averaged cloud liquid number
302 NUMRAI 1/kg 32 I Grid box averaged rain number
303 NUMSNO 1/kg 32 I Grid box averaged snow number
304 OMEGA Pa/s 32 A Vertical velocity (pressure)
305 OMEGAT K Pa/s 32 I Vertical heat flux
306 PDFP_RTP2_CLUBB kg^2/kg^2 32 I PDF Rtot Variance
307 PRACSO kg/kg/s 32 A Accretion of rain by snow
308 PRAIO kg/kg/s 32 A Accretion of cloud ice to snow
309 PRAO kg/kg/s 32 A Accretion of cloud water by rain
310 PRCIO kg/kg/s 32 A Autoconversion of cloud ice to snow
311 PRCO kg/kg/s 32 A Autoconversion of cloud water
312 PRODPREC kg/kg/s 32 A Rate of conversion of condensate to precip
313 PSACWSO kg/kg/s 32 A Accretion of cloud water by snow
314 PTECLDICE kg/kg/s 32 I CLDICE total physics tendency
315 PTECLDLIQ kg/kg/s 32 I CLDLIQ total physics tendency
316 PTEQ kg/kg/s 32 I Q total physics tendency
317 PTTEND K/s 32 I T total physics tendency
318 Q kg/kg 32 I Specific humidity
319 QAP kg/kg 32 I Specific humidity (after physics)
320 QBP kg/kg 32 I Specific humidity (before physics)
321 QCRAT fraction 32 A Qc Limiter: Fraction of qc tendency applied
322 QCRESO kg/kg/s 32 A Residual condensation term for cloud water
323 QCSEDTEN kg/kg/s 32 A Cloud water mixing ratio tendency from sedimentation
324 QCSEVAP kg/kg/s 32 A Rate of evaporation of falling cloud water
325 QDIFF kg/kg 32 I difference from observed water
326 QIRESO kg/kg/s 32 A Residual deposition term for cloud ice
327 QISEDTEN kg/kg/s 32 A Cloud ice mixing ratio tendency from sedimentation
328 QISEVAP kg/kg/s 32 A Rate of sublimation of falling cloud ice
329 QRL K/s 32 I Longwave heating rate
330 QRS K/s 32 I Solar heating rate
331 QRSEDTEN kg/kg/s 32 I Rain mixing ratio tendency from sedimentation
332 QSSEDTEN kg/kg/s 32 I Snow mixing ratio tendency from sedimentation
333 QTGW kg/kg/s 32 I Q tendency - gravity wave drag
334 QVRES kg/kg/s 32 A Rate of residual condensation term
335 RAINQM kg/kg 32 I Grid box averaged rain amount
336 RAINQMAP kg/kg 32 I RAINQM after physics
337 RAINQMBP kg/kg 32 I RAINQM before physics
338 RCMINLAYER_CLUBB kg/kg 32 I Cloud Water in Layer
339 RCMTEND_CLUBB kg/kg /s 32 I Cloud Liquid Water Tendency
340 RCM_CLUBB kg/kg 32 I Cloud Water Mixing Ratio
341 RELHUM percent 32 I Relative humidity
342 RELVAR - 32 I Relative cloud water variance
343 RHO_CLUBB kg/m3 32 I Air Density
344 RHW percent 32 I Relative humidity with respect to liquid
345 RIMTEND_CLUBB kg/kg /s 32 I Cloud Ice Tendency
346 RTM_CLUBB kg/kg 32 I Total Water Mixing Ratio
347 RTP2_ZT_CLUBB kg^2/kg^2 32 I Moisture Variance on zt grid
348 RVMTEND_CLUBB kg/kg /s 32 I Water vapor tendency
349 SNOWQM kg/kg 32 I Grid box averaged snow amount
350 SNOWQMAP kg/kg 32 I SNOWQM after physics
351 SNOWQMBP kg/kg 32 I SNOWQM before physics
352 SO2 mol/mol 32 I SO2 concentration
353 SOAE mol/mol 32 I SOAE concentration
354 SOAG mol/mol 32 I SOAG concentration
355 STEND_CLUBB J/(kg s) 32 I Static energy tendency
356 T K 32 A Temperature
357 TACLDICE kg/kg/s 32 I CLDICE horz + vert + fixer tendency
358 TACLDLIQ kg/kg/s 32 I CLDLIQ horz + vert + fixer tendency
359 TAP K 32 I Temperature (after physics)
360 TAQ kg/kg/s 32 I Q horz + vert + fixer tendency
361 TBP K 32 I Temperature (before physics)
362 TDIFF K 32 I difference from observed temp
363 TECLDICE kg/kg/s 32 I CLDICE total tendency
364 TECLDLIQ kg/kg/s 32 I CLDLIQ total tendency
365 TEQ kg/kg/s 32 I Q total tendency
366 THLM_CLUBB K 32 I Liquid Water Potential Temperature
367 THLP2_ZT_CLUBB K^2 32 I Temperature Variance on zt grid
368 TTEND K/s 32 I T tendency
369 TTEND_TOT K/s 32 I Total temperature tendency
370 TTGW K s-1 32 I T tendency - gravity wave drag
371 U m/s 32 A Zonal wind
372 UAP m/s 32 I Zonal wind (after physics)
373 UBP m/s 32 I Zonal wind (before physics)
374 UM_CLUBB m/s 32 I Zonal Wind
375 UTEND_CLUBB m/s /s 32 I U-wind Tendency
376 UTEND_CORE m/s2 32 I Zonal wind tendency due to dynamical core
377 UTEND_DCONV m/s2 32 I Zonal wind tendency by deep convection
378 UTEND_GWDTOT m/s2 32 I Zonal wind tendency by all GWs
379 UTEND_IONDRG m/s2 32 I Zonal wind tendency by ion drag
380 UTEND_LUNART m/s2 32 I Zonal wind tendency by lunar tides
381 UTEND_MACROP m/s2 32 I Zonal wind tendency by macrophysics
382 UTEND_NDG m/s2 32 I Zonal wind tendency by nudging
383 UTEND_PHYSTOT m/s2 32 I U total physics tendency
384 UTEND_QBORLX m/s2 32 I Zonal wind tendency by QBO relaxation
385 UTEND_RAYLEIGH m/s2 32 I Zonal wind tendency by Rayleigh Fric.
386 UTEND_SHCONV m/s2 32 I Zonal wind tendency by shallow convection
387 UTEND_TOT m/s2 32 I Total zonal wind tendency
388 UTEND_VDIFF m/s2 32 I Zonal wind tendency by vert. diffus.
389 UU m2/s2 32 I Zonal velocity squared
390 V m/s 32 A Meridional wind
391 VAP m/s 32 I Meridional wind (after physics)
392 VAT K/s 32 I Vertical advective tendency of T
393 VBP m/s 32 I Meridional Wind (before physics)
394 VD01 kg/kg/s 32 I Vertical diffusion of Q
395 VDCLDICE kg/kg/s 32 I Vertical diffusion of CLDICE
396 VDCLDLIQ kg/kg/s 32 I Vertical diffusion of CLDLIQ
397 VM_CLUBB m/s 32 I Meridional Wind
398 VNEGCLPTEND kg/kg/s 32 I Vapor tendency due to clipping neg values after microp
399 VQ m/skg/kg 32 I Meridional water transport
400 VT K m/s 32 I Meridional heat transport
401 VTEND_CLUBB m/s /s 32 I V-wind Tendency
402 VTEND_CORE m/s2 32 I Meridional wind tendency due to dynamical core
403 VTEND_DCONV m/s2 32 I Meridional wind tendency by deep convection
404 VTEND_GWDTOT m/s2 32 I Meridional wind tendency by all GWs
405 VTEND_IONDRG m/s2 32 I Meridional wind tendency by ion drag
406 VTEND_LUNART m/s2 32 I Meridional wind tendency by lunar tides
407 VTEND_MACROP m/s2 32 I Meridional wind tendency by macrophysics
408 VTEND_NDG m/s2 32 I Meridional wind tendency by nudging
409 VTEND_PHYSTOT m/s2 32 I V total physics tendency
410 VTEND_QBORLX m/s2 32 I Meridional wind tendency by QBO relaxation
411 VTEND_RAYLEIGH m/s2 32 I Meridional wind tendency by Rayleigh Fric.
412 VTEND_SHCONV m/s2 32 I Meridional wind tendency by shallow convection
413 VTEND_TOT m/s2 32 I Total meridional wind tendency
414 VTEND_VDIFF m/s2 32 I Meridional wind tendency by vert. diffus.
415 VTRMC m/s 32 A Mass-weighted cloud water fallspeed
416 VTRMI m/s 32 A Mass-weighted cloud ice fallspeed
417 VU m2/s2 32 I Meridional flux of zonal momentum
418 VV m2/s2 32 I Meridional velocity squared
419 WM_ZT_CLUBB m/s 32 I Vertical Velocity
420 WP2_ZT_CLUBB m2/s2 32 I Vert Vel Variance on zt grid
421 WP3_CLUBB m3/s3 32 I Third Moment Vertical Velocity
422 WSUB m/s 32 I Diagnostic sub-grid vertical velocity
423 Z3 m 32 A Geopotential Height (above sea level)
424 ZMDICE kg/kg/s 32 I Cloud ice tendency - Zhang-McFarlane convection
425 ZMDLIQ kg/kg/s 32 I Cloud liq tendency - Zhang-McFarlane convection
426 ZMDQ kg/kg/s 32 I Q tendency - Zhang-McFarlane moist convection
427 ZMDT K/s 32 I T tendency - Zhang-McFarlane moist convection
428 ZMMTT K/s 32 I T tendency - ZM convective momentum transport
429 ZT_CLUBB m 32 I Thermodynamic Heights
430 bc_a1 kg/kg 32 I bc_a1 concentration
431 bc_a4 kg/kg 32 I bc_a4 concentration
432 bc_c1 kg/kg 32 I bc_c1 in cloud water
433 bc_c4 kg/kg 32 I bc_c4 in cloud water
434 dst_a1 kg/kg 32 I dst_a1 concentration
435 dst_a2 kg/kg 32 I dst_a2 concentration
436 dst_a3 kg/kg 32 I dst_a3 concentration
437 dst_c1 kg/kg 32 I dst_c1 in cloud water
438 dst_c2 kg/kg 32 I dst_c2 in cloud water
439 dst_c3 kg/kg 32 I dst_c3 in cloud water
440 ncl_a1 kg/kg 32 I ncl_a1 concentration
441 ncl_a2 kg/kg 32 I ncl_a2 concentration
442 ncl_a3 kg/kg 32 I ncl_a3 concentration
443 ncl_c1 kg/kg 32 I ncl_c1 in cloud water
444 ncl_c2 kg/kg 32 I ncl_c2 in cloud water
445 ncl_c3 kg/kg 32 I ncl_c3 in cloud water
446 num_a1 1/kg 32 I num_a1 concentration
447 num_a2 1/kg 32 I num_a2 concentration
448 num_a3 1/kg 32 I num_a3 concentration
449 num_a4 1/kg 32 I num_a4 concentration
450 num_c1 1/kg 32 I num_c1 in cloud water
451 num_c2 1/kg 32 I num_c2 in cloud water
452 num_c3 1/kg 32 I num_c3 in cloud water
453 num_c4 1/kg 32 I num_c4 in cloud water
454 pom_a1 kg/kg 32 I pom_a1 concentration
455 pom_a4 kg/kg 32 I pom_a4 concentration
456 pom_c1 kg/kg 32 I pom_c1 in cloud water
457 pom_c4 kg/kg 32 I pom_c4 in cloud water
458 so4_a1 kg/kg 32 I so4_a1 concentration
459 so4_a2 kg/kg 32 I so4_a2 concentration
460 so4_a3 kg/kg 32 I so4_a3 concentration
461 so4_c1 kg/kg 32 I so4_c1 in cloud water
462 so4_c2 kg/kg 32 I so4_c2 in cloud water
463 so4_c3 kg/kg 32 I so4_c3 in cloud water
464 soa_a1 kg/kg 32 I soa_a1 concentration
465 soa_a2 kg/kg 32 I soa_a2 concentration
466 soa_c1 kg/kg 32 I soa_c1 in cloud water
467 soa_c2 kg/kg 32 I soa_c2 in cloud water
468 C11_Skw_fnc count 33 I C11_Skw_fnc, C_11 parameter with Sk_w applied
469 C1_Skw_fnc - 33 I C1_Skw_fnc, C_1 parameter with Sk_w applied
470 C6rt_Skw_fnc - 33 I C6rt_Skw_fnc, C_6rt parameter with Sk_w applied
471 C6thl_Skw_fnc - 33 I C6thl_Skw_fnc, C_6thl parameter with Sk_w applied
472 C7_Skw_fnc - 33 I C7_Skw_fnc, C_7 parameter with Sk_w applied
473 FDL W/m2 33 I Longwave downward flux
474 Fcsed kg/(s*m^2) 33 I Fcsed, cloud water sedimentation flux
475 Fprec W/m^2 33 I Fprec, Rain flux
476 Frad W/m^2 33 I Frad, Total (sw+lw) net (up+down) radiative flux
477 Frad_LW W/m^2 33 I Frad_LW, Net long-wave radiative flux
478 Frad_LW_down W/m^2 33 I Frad_LW_down, Long-wave downwelling radiative flux
479 Frad_LW_up W/m^2 33 I Frad_LW_up, Long-wave upwelling radiative flux
480 Frad_SW W/m^2 33 I Frad_SW, Net short-wave radiative flux
481 Frad_SW_down W/m^2 33 I Frad_SW_down, Short-wave downwelling radiative flux
482 Frad_SW_up W/m^2 33 I Frad_SW_up, Short-wave upwelling radiative flux
483 Kh_zm m^2/s 33 I Kh_zm, Eddy diffusivity on momentum levels
484 Kh_zt m^2/s 33 I Kh_zt, Eddy diffusivity
485 Lscale m 33 I L, Turbulent mixing length
486 Lscale_down m 33 I Lscale_down, Downward mixing length
487 Lscale_pert_1 m 33 I Lscale_pert_1, Mixing length using a perturbed value of rtm/thlm
488 Lscale_pert_2 m 33 I Lscale_pert_2, Mixing length using a perturbed value of rtm/thlm
489 Lscale_up m 33 I Lscale_up, Upward mixing length
490 Nc_activated num/kg 33 I Nc_activated, Droplets activated by GFDL activation
491 Nc_in_cloud num/kg 33 I Nc_in_cloud, In cloud droplet concentration
492 Ncm num/kg 33 I Ncm, Cloud droplet number concentration
493 Ncnm num/kg 33 I Ncnm, Cloud nuclei concentration (PDF)
494 RTP2_CLUBB kg^2/kg^2 33 I Moisture Variance
495 RTPTHLP_CLUBB K kg/kg 33 I Temp. Moist. Covariance
496 Skw_velocity m/s 33 I Skw_velocity, Skewness velocity
497 THLP2_CLUBB K^2 33 I Temperature Variance
498 T_in_K K 33 I T_in_K, Absolute temperature
499 UP2_CLUBB m2/s2 33 I Zonal Velocity Variance
500 UPWP_CLUBB m2/s2 33 I Zonal Momentum Flux
501 VP2_CLUBB m2/s2 33 I Meridional Velocity Variance
502 VPWP_CLUBB m2/s2 33 I Meridional Momentum Flux
503 WP2_CLUBB m2/s2 33 I Vertical Velocity Variance
504 WPRCP_CLUBB W/m2 33 I Liquid Water Flux
505 WPRTP_CLUBB W/m2 33 I Moisture Flux
506 WPTHLP_CLUBB W/m2 33 I Heat Flux
507 WPTHVP_CLUBB W/m2 33 I Buoyancy Flux
508 ZM_CLUBB m 33 I Momentum Heights
509 a3_coef count 33 I a3_coef, Quantity in formula 25 from Equations for CLUBB
510 a3_coef_zt count 33 I a3_coef_zt, The a3 coefficient interpolated the the zt grid
511 chi_1 kg/kg 33 I chi_1, pdf parameter: Mellor's s (extended liq) for component 1
512 chi_2 kg/kg 33 I chi_2, pdf parameter: Mellor's s (extended liq) for component 2
513 cloud_cover count 33 I cloud_cover, Cloud cover (between 0 and 1)
514 cloud_frac - 33 I cloud_frac, Cloud fraction (between 0 and 1)
515 cloud_frac_1 - 33 I cloud_frac_1, pdf parameter cloud_frac_1
516 cloud_frac_2 - 33 I cloud_frac_2, pdf parameter cloud_frac_2
517 cloud_frac_zm - 33 I cloud_frac_zm, Cloud fraction
518 corr_chi_eta_1 - 33 I corr_chi_eta_1, Correlation of chi (s) and eta (t) (1st PDF component)
519 corr_chi_eta_2 - 33 I corr_chi_eta_2, Correlation of chi (s) and eta (t) (2nd PDF component)
520 corr_rt_thl_1 - 33 I corr_rt_thl_1, Correlation of rt and thl (1st PDF component)
521 covar_chi_eta_1 kg^2/kg^2 33 I covar_chi_eta_1, Covariance of chi(s) and eta(t) (1st PDF component)
522 covar_chi_eta_2 kg^2/kg^2 33 I covar_chi_eta_2, Covariance of chi(s) and eta(t) (2nd PDF component)
523 crt_1 - 33 I crt_1, Coefficient on rt in chi/eta equations (1st PDF comp.)
524 crt_2 - 33 I crt_2, Coefficient on rt in chi/eta equations (2nd PDF comp.)
525 cthl_1 kg/kg/K 33 I cthl_1, Coefficient on theta-l in chi/eta equations (1st PDF comp.)
526 cthl_2 kg/kg/K 33 I cthl_2, Coefficient on theta-l in chi/eta equations (2nd PDF comp.)
527 diam m 33 I diam, Ice crystal diameter
528 em m^2/s^2 33 I em, Turbulent kinetic energy, usu. 0.5*(u'^2+v'^2+w'^2)
529 exner count 33 I exner, Exner function = (p/p0)**(rd/cp)
530 gamma_Skw_fnc - 33 I gamma_Skw_fnc, Gamma as a function of skewness
531 mass_ice_cryst kg 33 I mass_ice_cryst, Mass of a single ice crystal
532 mean_w_down m/s 33 I mean_w_down, Mean w <= w_ref
533 mean_w_up m/s 33 I mean_w_up, Mean w >= w_ref
534 mixt_frac count 33 I mixt_frac, pdf parameter: mixture fraction
535 p_in_Pa Pa 33 I p_in_Pa, Pressure
536 precip_frac - 33 I precip_frac, Precipitation Fraction
537 precip_frac_1 - 33 I precip_frac_1, Precipitation Fraction (1st PDF component)
538 precip_frac_2 - 33 I precip_frac_2, Precipitation Fraction (2nd PDF component)
539 radht K/s 33 I radht, Total (sw+lw) radiative heating rate
540 radht_LW K/s 33 I radht_LW, Long-wave radiative heating rate
541 radht_SW K/s 33 I radht_SW, Short-wave radiative heating rate
542 rc_1 kg/kg 33 I rc_1, pdf parameter: mean rc of component 1
543 rc_2 kg/kg 33 I rc_2, pdf parameter: mean rc of component 2
544 rcm kg/kg 33 I rcm, Cloud water mixing ratio
545 rcm_icedfs kg/kg/s 33 I rcm_icedfs, Change in liquid due to ice
546 rcm_in_cloud kg/kg 33 I rcm_in_cloud, In-cloud value of rcm (for microphysics)
547 rcm_in_layer kg/kg 33 I rcm_in_layer, rcm in cloud layer
548 rcm_mc kg/kg/s 33 I rcm_mc, Time tendency of liquid water mixing ratio due microphysics
549 rcm_sd_mg_morr kg kg^{-1} s^{-1 33 I rcm_sd_mg_morr, rcm sedimentation when using morrision or MG microphysics (not in budget, included i
550 rcm_zm kg/kg 33 I rcm_zm, Total water mixing ratio
551 rcp2 (kg^2)/(kg^2) 33 I rc'^2, Variance of cloud water mixing ratio
552 rel_humidity [-] 33 I rel_humidity, Relative humidity w.r.t. liquid (between 0 and 1)
553 rho kg m^{-3} 33 I rho, Air density
554 rho_ds_zm kg m^{-3} 33 I rho_ds_zm, Dry static, base-state density
555 rho_ds_zt kg m^{-3} 33 I rho_ds_zt, Dry static base-state density
556 rho_zm kg m^{-3} 33 I rho_zm, Density on momentum levels
557 rsat kg/kg 33 I rsat, Saturation mixing ratio over liquid
558 rsati kg/kg 33 I rsati, Saturation mixing ratio over ice
559 rsatl_1 kg/kg 33 I rsatl_1, pdf parameter: sat mix rat based on tl1
560 rsatl_2 kg/kg 33 I rsatl_2, pdf parameter: sat mix rat based on tl2
561 rt_1 kg/kg 33 I rt_1, pdf parameter: mean rt of component 1
562 rt_2 kg/kg 33 I rt_2, pdf parameter: mean rt of component 2
563 rtm kg/kg 33 I rtm, Total (vapor+liquid) water mixing ratio
564 rtm_bt kg kg^{-1} s^{-1 33 I rtm_bt, rtm budget: rtm time tendency
565 rtm_cl kg kg^{-1} s^{-1 33 I rtm_cl, rtm budget: rtm clipping
566 rtm_enter_mfl kg/kg 33 I rtm_enter_mfl, Rtm before flux-limiter
567 rtm_exit_mfl kg/kg 33 I rtm_exit_mfl, Rtm exiting flux-limiter
568 rtm_forcing kg kg^{-1} s^{-1 33 I rtm_forcing, rtm budget: rt forcing (includes rtm_mc)
569 rtm_ma kg kg^{-1} s^{-1 33 I rtm_ma, rtm budget: rtm vertical mean advection
570 rtm_mc kg kg^{-1} s^{-1 33 I rtm_mc, Change in rt due to microphysics (not in budget)
571 rtm_mfl kg kg^{-1} s^{-1 33 I rtm_mfl, rtm budget: rtm correction due to monotonic flux limiter
572 rtm_mfl_max kg/kg 33 I rtm_mfl_max, Maximum allowable rtm
573 rtm_mfl_min kg/kg 33 I rtm_mfl_min, Minimum allowable rtm
574 rtm_old kg/kg 33 I rtm_old, Rtm at previous timestep
575 rtm_pd kg kg^{-1} s^{-1 33 I rtm_pd, rtm budget: rtm positive definite adjustment
576 rtm_sdmp kg kg^{-1} s^{-1 33 I rtm_sdmp, rtm budget: rtm correction due to sponge damping
577 rtm_ta kg kg^{-1} s^{-1 33 I rtm_ta, rtm budget: rtm turbulent advection
578 rtm_tacl kg kg^{-1} s^{-1 33 I rtm_tacl, rtm budget: rtm correction due to ta term (wprtp) clipping
579 rtm_without_ta kg/kg 33 I rtm_without_ta, Rtm without turbulent advection contribution
580 rtm_zm kg/kg 33 I rtm_zm, Total water mixing ratio
581 rtp2 (kg/kg)^2 33 I rt'^2, Variance of total water, rt
582 rtp2_bt (kg^2)/(kg^2 s) 33 I rt'^2_bt, rt'2 budget: rtp2 time tendency
583 rtp2_cl (kg^2)/(kg^2 s) 33 I rt'^2_cl, rtp2 budget: rtp2 clipping term
584 rtp2_dp1 (kg^2)/(kg^2 s) 33 I rt'^2_dp1, rtp2 budget: rtp2 dissipation term 1
585 rtp2_dp2 (kg^2)/(kg^2 s) 33 I rt'^2_dp2, rtp2 budget: rtp2 dissipation term 2
586 rtp2_forcing (kg/kg)^2/s 33 I rt'^2_forcing, rtp2 budget: rtp2 forcing (includes microphysics tendency)
587 rtp2_ma (kg^2)/(kg^2 s) 33 I rt'^2_ma, rtp2 budget: rtp2 mean advection
588 rtp2_mc (kg/kg)^2/s 33 I rt'^2_mc, Microphysics tendency for rtp2 (not in budget)
589 rtp2_pd (kg^2)/(kg^2 s) 33 I rt'^2_pd, rtp2 budget: rtp2 positive definite adjustment
590 rtp2_sf (kg^2)/(kg^2 s) 33 I rt'^2_sf, rtp2 budget: rtp2 surface variance
591 rtp2_ta (kg^2)/(kg^2 s) 33 I rt'^2_ta, rtp2 budget: rtp2 turbulent advection
592 rtp2_tp (kg^2)/(kg^2 s) 33 I rt'^2_tp, rtp2 budget: rtp2 turbulent production
593 rtp2_zt (kg/kg)^2 33 I rtp2_zt, rt'^2 interpolated to thermodynamic levels
594 rtprcp (kg^2)/(kg^2) 33 I rt'rc'
595 rtpthlp (kg K)/kg 33 I rt'thl', Covariance of rt and theta_l
596 rtpthlp_bt (kg K)/(kg s) 33 I rt'thl'_bt, rtpthlp budget: rtpthlp time tendency
597 rtpthlp_cl (kg K)/(kg s) 33 I rt'thl'_cl, rtpthlp budget: rtpthlp clipping term
598 rtpthlp_dp1 (kg K)/(kg s) 33 I rt'thl'_d'1, rtpthlp budget: rtpthlp dissipation term 1
599 rtpthlp_dp2 (kg K)/(kg s) 33 I rt'thl'_dp2, rtpthlp budget: rtpthlp dissipation term 2
600 rtpthlp_forcing (K kg/kg)/s 33 I rt'thl'_forcing, rtpthlp budget: rtpthlp forcing (includes microphysics tendency)
601 rtpthlp_ma (kg K)/(kg s) 33 I rt'thl'_ma, rtpthlp budget: rtpthlp mean advection
602 rtpthlp_mc (K kg/kg)/s 33 I rt'thl'_mc, Microphysics tendency for rtpthlp (not in budget)
603 rtpthlp_sf (kg K)/(kg s) 33 I rt'thl'_sf, rtpthlp budget: rtpthlp surface variance
604 rtpthlp_ta (kg K)/(kg s) 33 I rt'thl'_ta, rtpthlp budget: rtpthlp turbulent advection
605 rtpthlp_tp1 (kg K)/(kg s) 33 I rt'thl'_tp1, rtpthlp budget: rtpthlp turbulent production 1
606 rtpthlp_tp2 (kg K)/(kg s) 33 I rt'thl'_t'^2, rtpthlp budget: rtpthlp turbulent production 2
607 rtpthlp_zt (kg K)/kg 33 I rtpthlp_zt, rt'thl' interpolated to thermodynamic levels
608 rtpthvp (kg/kg) K 33 I rt'thv', Covariance of rt and theta_v
609 rvm kg/kg 33 I rvm, Vapor water mixing ratio
610 rvm_mc kg/(kg s) 33 I rvm_mc, Time tendency of vapor mixing ratio due to microphysics
611 sed_rcm kg / [m^2 s] 33 I sed_rcm, d(rcm)/dt due to cloud sedimentation
612 shear m^2/s^3 33 I shear, Wind shear production term
613 sigma_sqd_w - 33 I sigma_sqd_w, Nondim w variance of Gaussian component
614 sigma_sqd_w_zt - 33 I sigma_sqd_w_zt, Nondimensionalized w variance of Gaussian component
615 snowslope 1/m 33 I snowslope, COAMPS microphysics snow slope parameter
616 stdev_chi_1 kg/kg 33 I stdev_chi_1, pdf parameter: Std dev of chi_1
617 stdev_chi_2 kg/kg 33 I stdev_chi_2, pdf parameter: Std dev of chi_2
618 stdev_eta_1 kg/kg 33 I stdev_eta_1, Standard dev. of eta(t) (1st PDF component)
619 stdev_eta_2 kg/kg 33 I stdev_eta_2, Standard dev. of eta(t) (2nd PDF component)
620 tau_zm s 33 I tau_zm, Time-scale tau on momentum levels
621 tau_zt s 33 I tau_zt, Dissipation time
622 thl_1 K 33 I thl_1, pdf parameter: mean thl of component 1
623 thl_2 K 33 I thl_2, pdf parameter: mean thl of component 2
624 thlm K 33 I thlm, Liquid water potential temperature (theta_l)
625 thlm_bt K s^{-1} 33 I thlm_bt, thlm budget: thlm time tendency
626 thlm_cl K s^{-1} 33 I thlm_cl, thlm budget: thlm_cl
627 thlm_enter_mfl K 33 I thlm_enter_mfl, Thlm before flux-limiter
628 thlm_exit_mfl K 33 I thlm_exit_mfl, Thlm exiting flux-limiter
629 thlm_forcing K s^{-1} 33 I thlm_forcing, thlm budget: thetal forcing (includes thlm_mc and radht)
630 thlm_ma K s^{-1} 33 I thlm_ma, thlm budget: thlm vertical mean advection
631 thlm_mc K s^{-1} 33 I thlm_mc, Change in thlm due to microphysics (not in budget)
632 thlm_mfl K s^{-1} 33 I thlm_mfl, thlm budget: thlm correction due to monotonic flux limiter
633 thlm_mfl_max K 33 I thlm_mfl_max, Maximum allowable thlm
634 thlm_mfl_min K 33 I thlm_mfl_min, Minimum allowable thlm
635 thlm_old K 33 I thlm_old, Thlm at previous timestep
636 thlm_sdmp K s^{-1} 33 I thlm_sdmp, thlm budget: thlm correction due to sponge damping
637 thlm_ta K s^{-1} 33 I thlm_ta, thlm budget: thlm turbulent advection
638 thlm_tacl K s^{-1} 33 I thlm_tacl, thlm budget: thlm correction due to ta term (wpthlp) clipping
639 thlm_without_ta K 33 I thlm_without_ta, Thlm without turbulent advection contribution
640 thlm_zm K 33 I thlm_zm, Liquid potential temperature
641 thlp2 K^2 33 I thl'^2, Variance of theta_l
642 thlp2_bt (K^2)/s 33 I thl'^2_bt, thlp2 budget: thlp2 time tendency
643 thlp2_cl (K^2)/s 33 I thl'^2_cl, thlp2 budget: thlp2 clipping term
644 thlp2_dp1 (K^2)/s 33 I thl'^2_dp1, thlp2 budget: thlp2 dissipation term 1
645 thlp2_dp2 (K^2)/s 33 I thl'^2_dp2, thlp2 budget: thlp2 dissipation term 2
646 thlp2_forcing K^2/s 33 I thlp2 budget: thlp2 forcing (includes microphysics tendency) [K^2/s]
647 thlp2_ma (K^2)/s 33 I thl'^2_ma, thlp2 budget: thlp2 mean advection
648 thlp2_mc K^2/s 33 I thl'^2_mc, Microphysics tendency for thlp2 (not in budget)
649 thlp2_pd K^2/s 33 I thl'^2_pd, thlp2 budget: thlp2 positive definite adjustment
650 thlp2_sf K^2/s 33 I thl'^2_sf, thl'^2 budget: thlp2 surface variance
651 thlp2_ta (K^2)/s 33 I thl'^2_ta, thlp2 budget: thlp2 turbulent advection
652 thlp2_tp (K^2)/s 33 I thl'^2_t', thlp2 budget: thlp2 turbulent production
653 thlp2_zt K^2 33 I thlp2_zt, thl'^2 interpolated to thermodynamic levels
654 thlprcp K (kg/kg) 33 I thl'rc'
655 thlpthvp K^2 33 I thl'thv', Covariance of theta_l and theta_v
656 thv_ds_zm K 33 I thv_ds_zm, Dry, base-state theta_v
657 thv_ds_zt K 33 I thv_ds_zt, Dry base-state theta_v
658 thvm K 33 I thvm, Virtual potential temperature
659 u_T_cm cm s^{-1} 33 I u_T_cm, Ice crystal fallspeed
660 ug m/s 33 I ug, u geostrophic wind
661 um m/s 33 I u_bar, Grid-mean eastward (u) wind
662 um_bt m s^{-2} 33 I um_bt, um budget: um time tendency
663 um_cf m s^{-2} 33 I um_cf, um budget: um coriolis forcing
664 um_f m s^{-2} 33 I um_f, um budget: um forcing
665 um_gf m s^{-2} 33 I um_gf, um budget: um geostrophic forcing
666 um_ma m s^{-2} 33 I um_ma, um budget: um vertical mean advection
667 um_ndg m s^{-2} 33 I um_ndg, um budget: um nudging
668 um_ref m/s 33 I um_ref, Reference u wind
669 um_sdmp m s^{-2} 33 I um_sdmp, um budget: um sponge damping
670 um_ta m s^{-2} 33 I um_ta, um budget: um turbulent advection
671 up2 m^2/s^2 33 I u'^2, Variance of eastward (u) wind
672 up2_bt m^2/s^3 33 I u'^2_bt, up2 budget: up2 time tendency
673 up2_cl m^2/s^3 33 I u'^2_cl, up2 budget: up2 clipping
674 up2_dp1 m^2/s^3 33 I u'^2_dp1, up2 budget: up2 dissipation term 1
675 up2_dp2 m^2/s^3 33 I u'^2_d'^2, up2 budget: up2 dissipation term 2
676 up2_ma m^2/s^3 33 I u'^2_ma, up2 budget: up2 mean advection
677 up2_pd m^2/s^3 33 I u'^2_pd, up2 budget: up2 positive definite adjustment
678 up2_pr1 m^2/s^3 33 I u'^2_pr1, up2 budget: up2 pressure term 1
679 up2_pr2 m^2/s^3 33 I u'^2_pr2, up2 budget: up2 pressure term 2
680 up2_sf m^2/s^3 33 I u'^2_sf, up2 budget: up2 surface variance
681 up2_ta m^2/s^3 33 I u'^2_ta, up2 budget: up2 turbulent advection
682 up2_tp m^2/s^3 33 I u'^2_tp, up2 budget: up2 turbulent production
683 up2_zt m^2/s^2 33 I up2_zt, u'^2 interpolated to thermodynamic levels
684 upwp m^2/s^2 33 I u'w', Vertical turbulent flux of eastward (u) wind
685 upwp_zt m^2/s^2 33 I upwp_zt, u'w' interpolated to thermodynamic levels
686 varnce_rt_1 (kg^2)/(kg^2) 33 I varnce_rt_1, pdf parameter: rt variance of component 1
687 varnce_rt_2 (kg^2)/(kg^2) 33 I varnce_rt_2, pdf parameter: rt variance of component 2
688 varnce_thl_1 K^2 33 I varnce_thl_1, pdf parameter: thl variance of component 1
689 varnce_thl_2 K^2 33 I varnce_thl_2, pdf parameter: thl variance of component 2
690 varnce_w_1 m^2/s^2 33 I varnce_w_1, pdf parameter: w variance of component 1
691 varnce_w_2 m^2/s^2 33 I varnce_w_2, pdf parameter: w variance of component 2
692 vg m/s 33 I vg, v geostrophic wind
693 vm m/s 33 I v_bar, Grid-mean northward (v) wind
694 vm_bt m s^{-2} 33 I vm_bt, vm budget: vm time tendency
695 vm_cf m s^{-2} 33 I vm_cf, vm budget: vm coriolis forcing
696 vm_f m s^{-2} 33 I vm_f, vm budget: vm forcing
697 vm_gf m s^{-2} 33 I vm_gf, vm budget: vm geostrophic forcing
698 vm_ma m s^{-2} 33 I vm_ma, vm budget: vm vertical mean advection
699 vm_ndg m s^{-2} 33 I vm_ndg, vm budget: vm nudging
700 vm_ref m/s 33 I vm_ref, Reference v wind
701 vm_sdmp m s^{-2} 33 I vm_sdmp, vm budget: vm sponge damping
702 vm_ta m s^{-2} 33 I vm_ta, vm budget: vm turbulent transport
703 vp2 m^2/s^2 33 I v'^2, Variance of northward (v) wind
704 vp2_bt m^2/s^3 33 I v'2_bt, vp2 budget: vp2 time tendency
705 vp2_cl m^2/s^3 33 I v'^2_cl, vp2 budget: vp2 clipping
706 vp2_dp1 m^2/s^3 33 I v'^2_dp1, vp2 budget: vp2 dissipation term 1
707 vp2_dp2 m^2/s^3 33 I v'^2_dp2, vp2 budget: vp2 dissipation term 2
708 vp2_ma m^2/s^3 33 I v'^2_ma, vp2 budget: vp2 mean advection
709 vp2_pd m^2/s^3 33 I v'^2_pd, vp2 budget: vp2 positive definite adjustment
710 vp2_pr1 m^2/s^3 33 I v'^2_pr1, vp2 budget: vp2 pressure term 1
711 vp2_pr2 m^2/s^3 33 I v'^2_pr2, vp2 budget: vp2 pressure term 2
712 vp2_sf m^2/s^3 33 I v'^2_sf, vp2 budget: vp2 surface variance
713 vp2_ta m^2/s^3 33 I v'^2_ta, vp2 budget: vp2 turbulent advection
714 vp2_tp m^2/s^3 33 I v'^2_tp, vp2 budget: vp2 turbulent production
715 vp2_zt m^2/s^2 33 I vp2_zt, v'^2 interpolated to thermodynamic levels
716 vpwp m^2/s^2 33 I v'w', Vertical turbulent flux of northward (v) wind
717 vpwp_zt m^2/s^2 33 I vpwp_zt, v'w' interpolated to thermodynamic levels
718 w_1 m/s 33 I w_1, pdf parameter: mean w of component 1
719 w_2 m/s 33 I w_2, pdf paramete: mean w of component 2
720 wm_zm m/s 33 I wm_zm, Vertical (w) wind
721 wp2 m^2/s^2 33 I w'^2, Variance of vertical air velocity
722 wp2_ac m^2/s^3 33 I w'^2_ac, wp2 budget: wp2 accumulation term
723 wp2_bp m^2/s^3 33 I w'^2_bp, wp2 budget: wp2 buoyancy production
724 wp2_bt m^2/s^3 33 I w'^2_bt, wp2 budget: wp2 time tendency
725 wp2_cl m^2/s^3 33 I w'^2_cl, wp2 budget: wp2 clipping term
726 wp2_dp1 m^2/s^3 33 I w'^2_dp1, wp2 budget: wp2 dissipation term 1
727 wp2_dp2 m^2/s^3 33 I w'^2_d'^2, wp2 budget: wp2 dissipation term 2
728 wp2_ma m^2/s^3 33 I w'^2_ma, wp2 budget: wp2 vertical mean advection
729 wp2_pd m2/s3 33 I w'^2_pd, wp2 budget: wp2 positive definite adjustment
730 wp2_pr1 m^2/s^3 33 I w'^2_pr1, wp2 budget: wp2 pressure term 1
731 wp2_pr2 m^2/s^3 33 I w'^2_pr2, wp2 budget: wp2 pressure term 2
732 wp2_pr3 m^2/s^3 33 I w'^2_pr3, wp2 budget: wp2 pressure term 3
733 wp2_sf m2/s3 33 I w'^2_sf, wp2 budget: wp2 surface variance
734 wp2_ta m^2/s^3 33 I w'^2_ta, wp2 budget: wp2 turbulent advection
735 wp2_zt m^2/s^2 33 I wp2_zt, w'^2 interpolated to thermodynamic levels
736 wp2rcp (m^2 kg)/(s^2 kg 33 I w'^2rc'
737 wp2rtp (m^2 kg)/(s^2 kg 33 I w'^2rt', Vertical turbulent flux of w'rt'
738 wp2thlp (m^2 K)/s^2 33 I w'^2theta_l', Vertical turbulent flux of w'theta_l'
739 wp2thvp K m^2/s^2 33 I w'^2theta_v', Vertical turbulent flux of w'theta_v'
740 wp3 m^3/s^3 33 I w'^3, Third-order moment of vertical air velocity
741 wp3_ac m^{3} s^{-4} 33 I wp3_ac, wp3 budget: wp3 accumulation term
742 wp3_bp1 m^{3} s^{-4} 33 I wp3_bp1, wp3 budget: wp3 buoyancy production
743 wp3_bt m^{3} s^{-4} 33 I wp3_bt, wp3 budget: wp3 time tendency
744 wp3_cl m^{3} s^{-4} 33 I wp3_cl, wp3 budget: wp3 clipping term
745 wp3_dp1 m^{3} s^{-4} 33 I wp3_dp1, wp3 budget: wp3 dissipation term 1
746 wp3_ma m^{3} s^{-4} 33 I wp3_ma, wp3 budget: wp3 vertical mean advection
747 wp3_on_wp2 m/s 33 I w'^3_on_w'^2, Smoothed version of wp3 / wp2
748 wp3_on_wp2_zt m/s 33 I wp3_on_wp2_zt, Smoothed version of wp3 / wp2
749 wp3_pr1 m^{3} s^{-4} 33 I wp3_pr1, wp3 budget: wp3 pressure term 1
750 wp3_pr2 m^{3} s^{-4} 33 I wp3_pr2, wp3 budget: wp3 pressure term 2
751 wp3_pr_dfsn m^{3} s^{-4} 33 I wp3_pr_dfsn, wp3 budget: wp3 pressure diffusion term
752 wp3_pr_turb m^{3} s^{-4} 33 I wp3_pr_turb, wp3 budget: wp3 pressure-turbulence correlation term
753 wp3_ta m^{3} s^{-4} 33 I wp3_ta, wp3 budget: wp3 turbulent advection
754 wp3_tp m^{3} s^{-4} 33 I wp3_tp, wp3 budget: wp3 turbulent transport
755 wp3_zm (m^3)/(s^3) 33 I w'^3_zm, w'^3 interpolated to moment. levels
756 wp4 (m^4)/(s^4) 33 I w'^4, Fourth-order moment of vertical air velocity
757 wprcp (m/s) (kg/kg) 33 I w'rc'
758 wprtp (m kg)/(s kg) 33 I w'rt', Vertical turbulent flux of total water, rt
759 wprtp2 (m kg)/(s kg) 33 I w'rt'^2, Vertical turbulent flux of rt'^2
760 wprtp_ac (m kg)/(s^2 kg) 33 I w'rt'_ac, wprtp budget: wprtp accumulation term
761 wprtp_bp (m kg)/(s^2 kg) 33 I w'rt'_b', wprtp budget: wprtp buoyancy production
762 wprtp_bt (m kg)/(s^2 kg) 33 I w'rt'_bt, wprtp budget: wprtp time tendency
763 wprtp_cl (m kg)/(s^2 kg) 33 I w'rt'_cl, wprtp budget: wprtp clipping term
764 wprtp_dp1 (m kg)/(s^2 kg) 33 I w'rt'_dp1, wprtp budget: wprtp dissipation term 1
765 wprtp_enter_mfl (m kg)/(s kg) 33 I w'rt'_enter_mfl, Wprtp entering flux limiter
766 wprtp_exit_mfl (m kg)/(s kg) 33 I w'rt'_exit_mfl, Wprtp exiting flux limiter
767 wprtp_forcing (m kg/kg)/s^2 33 I w'rt'_forcing, wprtp budget: wprtp forcing (includes microphysics tendency)
768 wprtp_ma (m kg)/(s^2 kg) 33 I w'rt'_ma, wprtp budget: wprtp mean advection
769 wprtp_mc (m kg/kg)/s^2 33 I w'rt'_mc, Microphysics tendency for wprtp (not in budget)
770 wprtp_mfl (m kg)/(s^2 kg) 33 I w'rt'_mfl, wprtp budget: wprtp monotonic flux limiter
771 wprtp_mfl_min (m kg)/(s kg) 33 I w'rt'_mfl_min, Minimum allowable wprtp
772 wprtp_pd (m kg)/(s^2 kg) 33 I w'rt'_pd, wprtp budget: wprtp flux corrected trans. term
773 wprtp_pr1 (m kg)/(s^2 kg) 33 I w'rt'_pr1, wprtp budget: wprtp pressure term 1
774 wprtp_pr2 (m kg)/(s^2 kg) 33 I w'rt'_pr2, wprtp budget: wprtp pressure term 2
775 wprtp_pr3 (m kg)/(s^2 kg) 33 I w'rt'_pr3, wprtp budget: wprtp pressure term 3
776 wprtp_ta (m kg)/(s^2 kg) 33 I w'rt'_ta, wprtp budget: wprtp turbulent advection
777 wprtp_tp (m kg)/(s^2 kg) 33 I w'rt'_t', wprtp budget: wprtp turbulent production
778 wprtp_zt (m kg)/(s kg) 33 I wprtp_zt, w'rt' interpolated to thermodynamic levels
779 wprtpthlp (m kg K)/(s kg) 33 I w'rt'theta_l', Vertical turbulent flux of rt'theta_l'
780 wpthlp (m K)/s 33 I w'thl', Vertical turbulent flux of theta_l
781 wpthlp2 (m K^2)/s 33 I w'theta_l'^2, Vertical turbulent flux of theta_l'^2
782 wpthlp_ac (m K)/s^2 33 I w'thl'_ac, wpthlp budget: wpthlp accumulation term
783 wpthlp_bp (m K)/s^2 33 I w'thl'_b', wpthlp budget: wpthlp buoyancy production
784 wpthlp_bt (m K)/s^2 33 I w'thl'_bt, wpthlp budget
785 wpthlp_cl (m K)/s^2 33 I w'thl'_cl, wpthlp budget: wpthlp clipping term
786 wpthlp_dp1 (m K)/s^2 33 I w'thl'_dp1, wpthlp budget: wpthlp dissipation term 1
787 wpthlp_enter_mfl (m K)/s 33 I w'thl'_enter_mfl, Wpthlp entering flux limiter
788 wpthlp_exit_mfl (m K)/s 33 I w'thl'_exit_mfl, Wpthlp exiting flux limiter
789 wpthlp_forcing (m K)/s^2 33 I w'thl'_forcing, wpthlp budget: wpthlp forcing (includes microphysics tendency)
790 wpthlp_ma (m K)/s^2 33 I w'thl'_ma, wpthlp budget: wpthlp mean advection
791 wpthlp_mc (m K)/s^2 33 I w'thl'_mc, Microphysics tendency for wpthlp (not in budget)
792 wpthlp_mfl (m K)/s^2 33 I w'thl'_mfl, wpthlp budget: wpthlp monotonic flux limiter
793 wpthlp_mfl_max (m K)/s 33 I w'thl'_mfl_max, Maximum allowable wpthlp
794 wpthlp_mfl_min (m K)/s 33 I w'thl'_mfl_min, Minimum allowable wpthlp
795 wpthlp_pr1 (m K)/s^2 33 I w'thl'_pr1, wpthlp budget: wpthlp pressure term 1
796 wpthlp_pr2 (m K)/s^2 33 I w'thl'_pr2, wpthlp budget: wpthlp pressure term 2
797 wpthlp_pr3 (m K)/s^2 33 I w'thl'_pr3, wpthlp budget: wpthlp pressure term 3
798 wpthlp_ta (m K)/s^2 33 I w'thl'_ta, wpthlp budget: wpthlp turbulent advection
799 wpthlp_tp (m K)/s^2 33 I w'thl'_tp, wpthlp budget: wpthlp turbulent production
800 wpthlp_zt (m K)/s 33 I wpthlp_zt, w'thl' interpolated to thermodynamic levels
801 wpthvp K m/s 33 I w'thv', Buoyancy flux
802 wprtp_mfl_max (m kg)/(s kg) 33 I w'rt'_mfl_max, Maximum allowable wprtp
FLDLST: History stream 2 contains 9 fields
Write frequency: 1
Filename specifier: %c.cam.h%t%f.%y-%m-%d-%s.nc
Output precision: single
Number of time samples per file: 5000
Fields are represented on global grids:
100
Included fields are:
1 CDNUMC 1/m2 1 I Vertically-integrated droplet concentration
2 CLDTOT fraction 1 I Vertically-integrated total cloud
3 FLUT W/m2 1 I Upwelling longwave flux at top of model
4 LWCF W/m2 1 I Longwave cloud forcing
5 PRECT m/s 1 I Total (convective and large-scale) precipitation rate (liq + ice)
6 SWCF W/m2 1 I Shortwave cloud forcing
7 CLDICE kg/kg 32 I Grid box averaged cloud ice amount
8 CLDLIQ kg/kg 32 I Grid box averaged cloud liquid amount
9 CLDST fraction 32 I Stratus cloud fraction
FLDLST: History stream 12 contains 50 fields
Write frequency: YEARLY (INITIAL CONDITIONS)
Filename specifier: %c.cam.i.%y-%m-%d-%s.nc
Output precision: double
Number of time samples per file: 1
Fields are represented on global grids:
101
100
Included fields are:
1 CUSH&IC m 1 I Convective Scale Height
2 PBLH&IC m 1 I PBL height
3 PS&IC Pa 1 I Surface pressure
4 QPERT&IC kg/kg 1 I Perturbation specific humidity (eddies in PBL)
5 TPERT&IC K 1 I Perturbation temperature (eddies in PBL)
6 CLDICE&IC kg/kg 32 I Grid box averaged cloud ice amount
7 CLDLIQ&IC kg/kg 32 I Grid box averaged cloud liquid amount
8 CLOUD&IC fraction 32 I Cloud fraction
9 CONCLD&IC fraction 32 I Convective cloud fraction
10 DMS&IC kg/kg 32 I DMS
11 H2O2&IC kg/kg 32 I H2O2
12 H2SO4&IC kg/kg 32 I H2SO4
13 LCWAT&IC kg/kg 32 I Cloud water (ice + liq
14 NUMICE&IC kg/kg 32 I Grid box averaged cloud ice number
15 NUMLIQ&IC kg/kg 32 I Grid box averaged cloud liquid number
16 NUMRAI&IC kg/kg 32 I Grid box averaged rain number
17 NUMSNO&IC kg/kg 32 I Grid box averaged snow number
18 Q&IC kg/kg 32 I Specific humidity
19 QCWAT&IC kg/kg 32 I q associated with cloud water
20 RAINQM&IC kg/kg 32 I Grid box averaged rain amount
21 SNOWQM&IC kg/kg 32 I Grid box averaged snow amount
22 SO2&IC kg/kg 32 I SO2
23 SOAE&IC kg/kg 32 I SOAE
24 SOAG&IC kg/kg 32 I SOAG
25 T&IC K 32 I Temperature
26 TCWAT&IC kg/kg 32 I T associated with cloud water
27 U&IC m/s 32 I Zonal wind
28 V&IC m/s 32 I Meridional wind
29 bc_a1&IC kg/kg 32 I bc_a1
30 bc_a4&IC kg/kg 32 I bc_a4
31 dst_a1&IC kg/kg 32 I dst_a1
32 dst_a2&IC kg/kg 32 I dst_a2
33 dst_a3&IC kg/kg 32 I dst_a3
34 ncl_a1&IC kg/kg 32 I ncl_a1
35 ncl_a2&IC kg/kg 32 I ncl_a2
36 ncl_a3&IC kg/kg 32 I ncl_a3
37 num_a1&IC kg/kg 32 I num_a1
38 num_a2&IC kg/kg 32 I num_a2
39 num_a3&IC kg/kg 32 I num_a3
40 num_a4&IC kg/kg 32 I num_a4
41 pom_a1&IC kg/kg 32 I pom_a1
42 pom_a4&IC kg/kg 32 I pom_a4
43 so4_a1&IC kg/kg 32 I so4_a1
44 so4_a2&IC kg/kg 32 I so4_a2
45 so4_a3&IC kg/kg 32 I so4_a3
46 soa_a1&IC kg/kg 32 I soa_a1
47 soa_a2&IC kg/kg 32 I soa_a2
48 KVH&IC m2/s 33 I Vertical diffusion diffusivities (heat/moisture)
49 TKE&IC m2/s2 33 I Turbulent Kinetic Energy
50 KVM&IC m2/s 33 I Vertical diffusion diffusivities (momentum)
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport field = cpl_scalars is connected on root pe
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_topo is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_z is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_u is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_v is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_tbot is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_ptem is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_shum is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_pbot is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_dens is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_pslv is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_o3 is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_rainc is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_rainl is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_snowc is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_snowl is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_lwdn is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swndr is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swvdr is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swndf is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swvdf is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_swnet is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_bcph is connected using mesh with lbound 1 and with ubound 3
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_ocph is connected using mesh with lbound 1 and with ubound 3
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_dstwet is connected using mesh with lbound 1 and with ubound 4
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_dstdry is connected using mesh with lbound 1 and with ubound 4
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_co2prog is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_co2diag is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Faxa_ndep is connected using mesh with lbound 1 and with ubound 2
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camExport Field = Sa_lightning is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport field = cpl_scalars is connected on root pe
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_anidr is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_avsdf is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_anidf is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_avsdr is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_lfrac is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Si_ifrac is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ofrac is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_tref is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_qref is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_t is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_t is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_fv is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_ram1 is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_snowh is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Si_snowh is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ssq is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_re is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ustar is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sx_u10 is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_ugustOut is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = So_u10withGust is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_taux is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_tauy is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_lat is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_sen is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_lwup is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Faxx_evap is connected using mesh
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Fall_flxdst is connected using mesh with lbound 1 and with ubound 4
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Sl_ddvel is connected using mesh with lbound 1 and with ubound 5
(atm_import_export:fldlist_realize)(atm_import_export:realize_fields):camImport Field = Fall_voc is connected using mesh with lbound 1 and with ubound 1
(atm_import_export:realize_fields) : min_mod2med_areacor, max_mod2med_areacor 1.00000000000000 1.00000000000000 CAM
(atm_import_export:realize_fields) : min_med2mod_areacor, max_med2mod_areacor 1.00000000000000 1.00000000000000 CAM
stream ndep settings:
stream_ndep_data_filename = /home/pub/cam_inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc
stream_ndep_mesh_filename = /home/pub/cam_inputdata/share/meshes/fv0.9x1.25_141008_polemod_ESMFmesh.nc
stream_varlist_ndep = NDEP_NHx_monthNDEP_NOy_month
stream_ndep_year_first = 2000
stream_ndep_year_last = 2000
stream_ndep_year_align = 1
Opened existing file /home/pub/cam_inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc 264
(shr_stream_getCalendar) opening stream filename = /home/pub/cam_inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc
(shr_stream_getCalendar) closing stream filename = /home/pub/cam_inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc
(shr_strdata_set_stream_domain) stream_nlev = 1
(shr_sdat_init) Creating field bundle array fldbun_data of size 2 for stream 1
adding field NDEP_NHx_month to fldbun_data for stream 1
adding field NDEP_NOy_month to fldbun_data for stream 1
(shr_strdata_print) ----------------------------------------------------------
(shr_strdata_print) name = Nitrogen deposition data
(shr_strdata_print) calendar = NO_LEAP
(shr_strdata_print) eccen = 1.000000E+36
(shr_strdata_print) mvelpp = 1.000000E+36
(shr_strdata_print) lambm0 = 1.000000E+36
(shr_strdata_print) obliqr = 1.000000E+36
(shr_strdata_print) pio_iotype = 2
(shr_strdata_print) nstreams = 1
(shr_strdata_print) Per stream information
(shr_strdata_print) taxMode ( 1) = cycle
(shr_strdata_print) dtlimit ( 1) = 1.000000E+30
(shr_strdata_print) mapalgo ( 1) = bilinear
(shr_strdata_print) tintalgo( 1) = linear
(shr_strdata_print) readmode( 1) = single
(shr_strdata_print) vectors ( 1) = null
(shr_strdata_print) src_mask( 1) = 0
(shr_strdata_print) dst_mask( 1) = 0
(shr_strdata_print)
(shr_strdata_print) ----------------------------------------------------------
successfully initialized sdat
(shr_strdata_readstrm) opening : /home/pub/cam_inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc
(shr_strdata_readstrm) setting pio descriptor : /home/pub/cam_inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc
(shr_strdata_set_stream_iodesc) setting iodesc for : NDEP_NHx_month with dimlens(1), dimlens(2) = 288 192 variable as time dimension time
(shr_strdata_readstrm) reading file lb: /home/pub/cam_inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc 1814
(shr_strdata_readstrm) reading file ub: /home/pub/cam_inputdata/lnd/clm2/ndepdata/fndep_clm_hist_b.e21.BWHIST.f09_g17.CMIP6-historical-WACCM.ensmean_1849-2015_monthly_0.9x1.25_c180926.nc 1815
nstep, te 0 0.27496521143335366E+10 0.27496521143335366E+10 -0.00000000000000000E+00 0.10130000000000000E+06 0.22552395239472389E+03
chem_surfvals_set: ncdate= 19690215 co2vmr= 3.7151252035982907E-004
READ_NEXT_TRCDATA emiss_anthro
READ_NEXT_TRCDATA emiss_bb
READ_NEXT_TRCDATA emiss_bb
READ_NEXT_TRCDATA emiss_bb
READ_NEXT_TRCDATA emiss_anthro
READ_NEXT_TRCDATA emiss_bb
READ_NEXT_TRCDATA emiss_bb
READ_NEXT_TRCDATA emiss_ag_sol_was emiss_ship emiss_res_tran
[Pipeline] sh
+ gzip -d '/home/jenkins/cam_output/scratch/test_scam_ARM97/bld/cesm.bldlog.*.gz'
gzip: /home/jenkins/cam_output/scratch/test_scam_ARM97/bld/cesm.bldlog.*.gz: No such file or directory
[Pipeline] echo
ARM97 WARNING: One or more of the build logs were not zipped, this means compilation did not finish
[Pipeline] sh
+ gzip -d '/home/jenkins/cam_output/scratch/test_scam_ARM97/run/cesm.log.*.gz'
gzip: /home/jenkins/cam_output/scratch/test_scam_ARM97/run/cesm.log.*.gz: No such file or directory
[Pipeline] echo
ARM97 WARNING: One or more of the run logs were not zipped, this means the code did not run to completion
[Pipeline] sh
+ cat '/home/jenkins/cam_output/scratch/test_scam_ARM97/bld/cesm.bldlog.*'
cat: '/home/jenkins/cam_output/scratch/test_scam_ARM97/bld/cesm.bldlog.*': No such file or directory
[Pipeline] echo
ARM97 WARNING: One of the log files (build or run) were not found - the failure must have occured before their creation
[Pipeline] }
[Pipeline] // script
[Pipeline] script
[Pipeline] {
[Pipeline] }
[Pipeline] // script
[Pipeline] }
[Pipeline] // stage
[Pipeline] }
[Pipeline] // withEnv
[Pipeline] }
[Pipeline] // node
[Pipeline] End of Pipeline
ERROR: script returned exit code 1
Finished: FAILURE
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