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The 3D Structure of Northern Hemisphere Blocking Events: Climatology, Role of Moisture, and Response to Climate Change

Ebrahim Nabizadeh, Sandro W. Lubis, Pedram Hassanzadeh

2021Journal of Climate21 citationsDOI

Abstract

Abstract To better understand the dynamics and impacts of blocking events, their 3D structure needs to be further investigated. We present a comprehensive composite analysis of the 3D structure of blocks and its response to future climate change over North Pacific, North Atlantic, and Russia in summers and winters using reanalysis and two large-ensemble datasets from CESM1 and GFDLCM3. In reanalysis, over both ocean and land, the anomalous winds are equivalent-barotropic in the troposphere and stratosphere, and temperature anomalies are positive throughout the troposphere and negative in the lower stratosphere. The main seasonal and regional differences are that blocks are larger/stronger in winters; over oceans, the temperature anomaly is shifted westward due to latent heating. Analyzing the temperature tendency equation shows that in all three sectors, adiabatic warming due to subsidence is the main driver of the positive temperature anomaly; however, depending on season and region, meridional thermal advection and latent heating might have leading-order contributions too. Both GCMs are found to reproduce the climatological 3D structure remarkably well, but sometimes disagree on future changes. Overall, the future summertime response is weakening of all fields (except for specific humidity), although the impact on near-surface temperature is not necessarily weakened; e.g., the blocking-driven near-surface warming over Russia intensifies. The wintertime response is strengthening of all fields, except for temperature in some cases. Responses of geopotential height and temperature are shifted westward in winters, most likely due to latent heating. Results highlight the importance of process-level analyses of blocks’ 3D structure for improved understanding of the resulting temperature extremes and their future changes.

Topics & Concepts

ClimatologyGeopotential heightTroposphereStratosphereEnvironmental scienceAnomaly (physics)SubsidenceExtratropical cycloneNorthern HemisphereAtmospheric sciencesAdvectionLatent heatClimate modelClimate changeGeologyPrecipitationMeteorologyGeographyOceanographyPhysicsCondensed matter physicsStructural basinPaleontologyThermodynamicsClimate variability and modelsMeteorological Phenomena and SimulationsAtmospheric and Environmental Gas Dynamics
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