2020
DOI: 10.1029/2020jd032848
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An Overview of CMIP5 and CMIP6 Simulated Cloud Ice, Radiation Fields, Surface Wind Stress, Sea Surface Temperatures, and Precipitation Over Tropical and Subtropical Oceans

Abstract: The potential links between ice water path (IWP), radiation, circulation, sea surface temperature (SST), and precipitation over the Pacific and Atlantic Oceans resulting from the falling ice radiative effects (FIREs) are examined from Coupled Model Intercomparison Project phase 5 (CMIP5) and phase 6 (CMIP6) historical simulations. The latter is divided into two subsets with (SON6) and without FIREs (NOS6) in CMIP6. Improvement in nonfalling cloud ice (~20 g m−2) is noticeable over convective regions in CMIP6 r… Show more

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Cited by 48 publications
(74 citation statements)
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“…The TP has a stronger warming trend in the upper troposphere than the TIO area for the radiosonde and reanalysis data (except for NCEP/DOE), while the model results generally display a significant warming, which is consistent with Figure 4C. The clear warm bias in CMIP6 in the troposphere has received a lot of attention (Li et al, 2020;McKitrick and Christy, 2020;Mitchell et al, 2020). Figure 7 also shows a warm bias in the upper troposphere.…”
Section: Resultssupporting
confidence: 70%
“…The TP has a stronger warming trend in the upper troposphere than the TIO area for the radiosonde and reanalysis data (except for NCEP/DOE), while the model results generally display a significant warming, which is consistent with Figure 4C. The clear warm bias in CMIP6 in the troposphere has received a lot of attention (Li et al, 2020;McKitrick and Christy, 2020;Mitchell et al, 2020). Figure 7 also shows a warm bias in the upper troposphere.…”
Section: Resultssupporting
confidence: 70%
“…The improvements have been made in its newer version CESM2‐CAM6 participating in CMIP6, which includes prognostic FIREs and other important upgrades in cloud‐related physical parameterizations compared to CESM1‐CAM5. For example, CESM2‐CAM6 has improved tropical hydrometeor‐radiation interactions (Li, Xu, Jiang, et al., 2020) and precipitation simulation (Li, Xu, Richardson, et al., 2020; Woelfle et al., 2019).…”
Section: Summary and Discussionmentioning
confidence: 99%
“…The too‐high SSTs biases are reduced in SON (Figures 1e and 1f) in the trade‐wind regions (Li et al., 2013; Li, Lee, et al., 2014). These biases are also found in most of CMIP5 and some CMIP6 models that do not consider the radiative impacts of precipitating ice, producing biases in surface wind stress over the tropical Pacific Ocean against observations (Li, Xu, Jiang, et al., 2020).…”
Section: Introductionmentioning
confidence: 94%
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“…This over-weights autoconversion relative to accretion to produce precipitation (Posselt and Lohmann, 2008), which results in the pronounced sensitivity of cloud water to aerosols because autoconversion is the only process that directly depends on aerosols (Gettelman et al, 2013). Snow also has significant effects on collection processes among other hydrometeors (Sant et al, 2015), as well as on atmospheric circulation (Li et al, 2014). However, snow-induced impacts on ERF aci are much less understood (Waliser et al, 2011) be-cause extremely limited GCMs incorporate prognostic precipitation with the radiative effects of falling hydrometeors (see discussion in Michibata et al, 2019).…”
Section: Introductionmentioning
confidence: 99%