Thorsten Mauritsen

Thorsten Mauritsen's AcademicInfluence.com Rankings

Thorsten Mauritsen

Earth Sciences

#1769

World Rank

#2487

Historical Rank

Meteorology

#206

World Rank

#269

Historical Rank

earth-sciences Degrees

Download Badge

Earth Sciences

Thorsten Mauritsen's Degrees

PhD Meteorology University of Copenhagen
Masters Meteorology University of Copenhagen
Bachelors Physics University of Copenhagen

Why Is Thorsten Mauritsen Influential?

(Suggest an Edit or Addition)

According to Wikipedia, Thorsten Mauritsen is a Danish climate scientist. He is currently a professor at the Department of Meteorology at Stockholm University. His research interests include climate dynamics and global circulation, climate sensitivity and cloud feedbacks and ocean-atmosphere coupled problems. He is best known for his research on Earth's equilibrium climate sensitivity and his research uses the climate of the past to determine climate sensitivity more precisely.

(See a Problem?)

Thorsten Mauritsen's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Climate and carbon cycle changes from 1850 to 2100 in MPI‐ESM simulations for the Coupled Model Intercomparison Project phase 5 (2013) (1333)
Atmospheric component of the MPI‐M Earth System Model: ECHAM6 (2013) (1112)
Arctic amplification dominated by temperature feedbacks in contemporary climate models (2014) (931)
Vertical structure of recent Arctic warming (2008) (519)
Tuning the climate of a global model (2012) (416)
Developments in the MPI‐M Earth System Model version 1.2 (MPI‐ESM1.2) and Its Response to Increasing CO2 (2019) (414)
An Assessment of Earth's Climate Sensitivity Using Multiple Lines of Evidence (2020) (351)
The Art and Science of Climate Model Tuning (2017) (327)
Single-Column Model Intercomparison for a Stably Stratified Atmospheric Boundary Layer (2004) (326)
Bounding Global Aerosol Radiative Forcing of Climate Change (2020) (299)
The Atlantic Multidecadal Oscillation without a role for ocean circulation (2015) (290)
An Arctic CCN-limited cloud-aerosol regime (2011) (213)
A Higher‐resolution Version of the Max Planck Institute Earth System Model (MPI‐ESM1.2‐HR) (2018) (201)
Why is it so difficult to represent stably stratified conditions in numerical weather prediction (NWP) models? (2013) (194)
Turbulence energetics in stably stratified geophysical flows: Strong and weak mixing regimes (2008) (176)
Missing iris effect as a possible cause of muted hydrological change and high climate sensitivity in models (2015) (173)
A transitioning Arctic surface energy budget: the impacts of solar zenith angle, surface albedo and cloud radiative forcing (2011) (164)
The Arctic Summer Cloud Ocean Study (ASCOS): Overview and experimental design (2013) (158)
Cloud and boundary layer interactions over the Arctic sea ice in late summer (2013) (153)
Mixed-phase clouds cause climate model biases in Arctic wintertime temperature inversions (2014) (150)
Forcing and feedback in the MPI‐ESM‐LR coupled model under abruptly quadrupled CO2 (2013) (143)
Warm winds from the Pacific caused extensive Arctic sea-ice melt in summer 2007 (2011) (126)
MACv2-SP: a parameterization of anthropogenic aerosol optical properties and an associated Twomey effect for use in CMIP6 (2017) (125)
Evaluation of Limited-Area Models for the Representation of the Diurnal Cycle and Contrasting Nights in CASES-99 (2008) (124)
Performance of an Eddy Diffusivity-Mass Flux Scheme for Shallow Cumulus Boundary Layers (2010) (121)
ICON‐A, the Atmosphere Component of the ICON Earth System Model: I. Model Description (2018) (119)
Robust increase in equilibrium climate sensitivity under global warming (2013) (119)
Observations of Stably Stratified Shear-Driven Atmospheric Turbulence at Low and High Richardson Numbers (2007) (113)
Meteorological conditions in the central Arctic summer during the Arctic Summer Cloud Ocean Study (ASCOS) (2012) (112)
A Total Turbulent Energy Closure Model for Neutrally and Stably Stratified Atmospheric Boundary Layers (2007) (112)
Polar Amplification in CCSM4: Contributions from the Lapse Rate and Surface Albedo Feedbacks (2014) (112)
The atmospheric general circulation model ECHAM6 - Model description (2013) (110)
Committed warming inferred from observations (2017) (96)
Arctic clouds and surface radiation - a critical comparison of satellite retrievals and the ERA-interim reanalysis (2011) (93)
Accounting for Changing Temperature Patterns Increases Historical Estimates of Climate Sensitivity (2018) (92)
Arctic sea-ice variability is primarily driven by atmospheric temperature fluctuations (2019) (88)
Emergent constraints on Earth’s transient and equilibrium response to doubled CO2 from post-1970s global warming (2019) (76)
Equilibrium Climate Sensitivity Estimated by Equilibrating Climate Models (2020) (76)
Multiple drivers of the North Atlantic warming hole (2020) (74)
The impact of parametrized convection on cloud feedback (2015) (72)
On the climate sensitivity and historical warming evolution in recent coupled model ensembles (2020) (69)
Amplification of El Niño by cloud longwave coupling to atmospheric circulation (2016) (69)
Understanding the Intermodel Spread in Global-Mean Hydrological Sensitivity* (2016) (69)
The Atmospheric Component of the MPI-M Earth 1 System Model : ECHAM 6 2 (2012) (64)
The subtle origins of surface-warming hiatuses (2017) (62)
Climate feedback efficiency and synergy (2013) (58)
The Southern Route "Out of Africa": Evidence for an Early Expansion of Modern Humans into Arabia (2011) (55)
Modelling atmospheric structure, cloud and their response to CCN in the central Arctic : ASCOS case studies (2012) (55)
Small global-mean cooling due to volcanic radiative forcing (2016) (53)
MACv 2-SP : a parameterization of anthropogenic aerosol optical properties and an associated Twomey effect for use in CMIP 6 (2017) (52)
The Turbulent Structure of the Arctic Summer Boundary Layer During The Arctic Summer Cloud‐Ocean Study (2017) (52)
Compensation of Hemispheric Albedo Asymmetries by Shifts of the ITCZ and Tropical Clouds (2014) (52)
The Observed Hemispheric Symmetry in Reflected Shortwave Irradiance (2013) (47)
How accurately can the climate sensitivity to $$\hbox {CO}_{2}$$ be estimated from historical climate change? (2019) (46)
Simulating the role of subtropical stratocumulus clouds in driving Pacific climate variability (2014) (46)
Separation of Contributions from Radiative Feedbacks to Polar Amplification on an Aquaplanet (2012) (46)
LongRunMIP: Motivation and Design for a Large Collection of Millennial-Length AOGCM Simulations (2019) (46)
ICON‐A, The Atmosphere Component of the ICON Earth System Model: II. Model Evaluation (2018) (43)
Enhanced warming constrained by past trends in equatorial Pacific sea surface temperature gradient (2020) (41)
The influence of cloud feedbacks on equatorial Atlantic variability (2015) (40)
Response to Comment on “The Atlantic Multidecadal Oscillation without a role for ocean circulation” (2016) (38)
On the Potential for Abrupt Arctic Winter Sea Ice Loss (2016) (36)
On the sensitivity of anthropogenic aerosol forcing to model‐internal variability and parameterizing a Twomey effect (2017) (36)
Radiative convective equilibrium as a framework for studying the interaction between convection and its large‐scale environment (2016) (33)
The influence of internal variability on Earth's energy balance framework and implications for estimating climate sensitivity (2018) (32)
Impact of melt ponds on Arctic sea ice in past and future climates as simulated by MPI‐ESM (2012) (30)
Analysis of the Moberg et al. (2005) hemispheric temperature reconstruction (2008) (29)
The respective roles of surface temperature driven feedbacks and tropospheric adjustment to CO2 in CMIP5 transient climate simulations (2013) (28)
Tuning the MPI‐ESM1.2 Global Climate Model to Improve the Match With Instrumental Record Warming by Lowering Its Climate Sensitivity (2020) (27)
How accurately can the climate sensitivity to CO2\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\hbox {CO}_{2}$$\end{ (2019) (25)
Improving a global model from the boundary layer: Total turbulent energy and the neutral limit Prandtl number (2015) (24)
On simple representations of the climate response to external radiative forcing (2019) (23)
New Generation of Climate Models Track Recent Unprecedented Changes in Earth's Radiation Budget Observed by CERES (2020) (23)
The climate of a retrograde rotating Earth (2018) (22)
Bounding aerosol radiative forcing of climate change (2019) (21)
Mesoscale Variability in the Summer Arctic Boundary Layer (2009) (21)
Global warming: Clouds cooled the Earth (2016) (20)
CMIP5 simulations of the Max Planck Institute for Meteorology (MPI-M) based on the MPI-ESM-LR model: The historical experiment, served by ESGF (2011) (18)
A New Perspective for Future Precipitation Change from Intense Extratropical Cyclones (2019) (17)
Comments on “Current GCMs' Unrealistic Negative Feedback in the Arctic” (2013) (15)
A Bayesian framework for emergent constraints: case studies of climate sensitivity with PMIP (2019) (15)
Wave Flow Simulations Over Arctic Leads (2005) (15)
Arctic climate change: Greenhouse warming unleashed (2016) (14)
Blocking prediction in an ensemble forecasting system (2004) (14)
CMIP5 simulations of the Max Planck Institute for Meteorology (MPI-M) based on the MPI-ESM-P model: The lgm experiment, served by ESGF (2011) (14)
Climate Change Feedbacks in Aquaplanet Experiments With Explicit and Parametrized Convection for Horizontal Resolutions of 2,525 Up to 5 km (2019) (13)
Simple Plumes: A parameterization of anthropogenic aerosol optical properties and an associated Twomey effect for climate studies (2016) (13)
The Signature of Shallow Circulations, Not Cloud Radiative Effects, in the Spatial Distribution of Tropical Precipitation (2018) (12)
Cloud feedbacks in extratropical cyclones: insight from long-term satellite data and high-resolution global simulations (2018) (11)
Global variability in radiative-convective equilibrium with a slab ocean under a wide range of CO2 concentrations (2020) (10)
Negligible Unforced Historical Pattern Effect on Climate Feedback Strength Found in HadISST-Based AMIP Simulations (2021) (9)
Shallow cumulus cloud feedback in large eddy simulations – bridging the gap to storm-resolving models (2020) (9)
Forcing data for Regional Climate Models based on the MPI-ESM-LR model of the Max Planck Institute for Meteorology (MPI-M): The CMIP5 historical experiment (2011) (8)
A new global surface temperature reconstruction for the Last Glacial Maximum (2022) (7)
ZERO IN ON the remaining carbon budget and decadal warming rates. The CONSTRAIN Project Annual Report 2019 (2019) (7)
Aerosols indirectly warm the Arctic (2010) (7)
Central Arctic atmospheric summer conditions during the Arctic Summer Cloud Ocean Study (ASCOS): contrasting to previous expeditions (2012) (6)
684 Why is it so difficult to represent stably stratified conditions in NWP models ? (2012) (6)
The changing nature of Earth's reflected sunlight (2022) (6)
Tropics as tempest in tropical extremes: natural variability and trends (2017) (6)
The 2000–2012 Global Warming Hiatus More Likely With a Low Climate Sensitivity (2020) (5)
What could we learn about climate sensitivity from variability in the surface temperature record? (2020) (4)
Graversen et al. reply (2008) (4)
On the Effect of Historical SST Patterns on Radiative Feedback (2022) (4)
Advancing closures for stably stratified turbulence in global atmospheric models (2012) (3)
Climate change with an iris-effect (2014) (3)
ICON-Sapphire: simulating the components of the Earth system and their interactions at kilometer and subkilometer scales (2023) (3)
A new global climate reconstruction for the Last Glacial Maximum (2022) (2)
Early Development and Tuning of a Global Coupled Cloud Resolving Model, and its Fast Response to Increasing CO2 (2022) (2)
Tropics as Tempest (2019) (2)
Sensitivity of Tropical Extreme Precipitation to Surface Warming in Aquaplanet Experiments Using a Global Nonhydrostatic Model (2020) (2)
The turbulent structure of the Arctic summer boundary layer during ASCOS (2018) (2)
On the Arctic boundary layer (2002) (2)
On the use of shear‐dependent turbulent length‐scales (2008) (2)
Stronger Response to the Aerosol Indirect Effect Due To Cooling in Remote Regions (2022) (1)
Do convective schemes substantially alter simulated global climate and cloud feedback (2015) (1)
Reconciling conflicting accounts of local radiative feedbacks in climate models (2022) (1)
The subtle origins of surface-warming hiatuses 1 The subtle origins of surface-warming hiatuses 1 2 (2019) (1)
Causes of the weak emergent constraint on climate sensitivity at the Last Glacial Maximum (2023) (1)
Energy similarity—a new turbulence closure model for stable boundary layers (formally paper number J2.8) (2004) (1)
Central Arctic atmospheric summer conditions during ASCOS (2012) (1)
Partitioning the influence of regional warming and feedbacks in the global response to abrupt CO2 forcing (2017) (0)
Boundary-layer and aerosol/cloud interaction in central Arctic summer observed during ASCOS (Invited) (2010) (0)
On the sensitivity of the anthropogenic aerosol forcing to natural variability and parameterizing a Twomey effect (2016) (0)
A strong temperature dependence in intense-storm rainfall (2017) (0)
Better constrained climate sensitivity when accounting for dataset dependency on pattern effect estimates (2022) (0)
Regional Climate Modelling forcing Data from CMIP5 simulations of the Max Planck Institute for Meteorology (MPI-M) based on the MPI-ESM-MR model: The decadal1980 experiment experiment (2012) (0)
Why models fail or suceed in representing the Arctic winter boundary layer – a GASS model intercomparison (2014) (0)
Quantifying drivers of internal sea-ice variability using feedback locking (2017) (0)
Corrigendum: Missing iris effect as a possible cause of muted hydrological change and high climate sensitivity in models (2016) (0)
DYAMOND++: A high resolution climate model setup (2020) (0)
The hemispheric distribution of reflected shortwave radiation in observations and aquaplanet climates (2012) (0)
On the Arctic Boundary Layer : From Turbulence to Climate (2007) (0)
Surprising Sensitivities in Simulations of Radiative Convective Equilibrium (2017) (0)
Tuning the climate sensitivity of a global model to match 20th Century warming (2015) (0)
Future projection of extratropical cyclone simulated by a 14 km mesh global atmospheric model (2016) (0)
On the origin of differences in projections of tropical precipitation responses to warming (2018) (0)
JP 4 . 8 ENERGY-SIMILARITY A NEW TURBULENCE CLOSURE MODEL FOR THE STABLY STRATIFIED ATMOSPHERIC BOUNDARY LAYER (0)
Mesoscale Model Intercomparison and Observational Evaluation for Three Contrasting Diurnal Cycles in CASES-99: Focus on the Stable Boundary Layer (2006) (0)
Boundary-layer processes cause GCM biases in Arctic winter (2013) (0)
J 2 . 1 WAVE FLOW SIMULATIONS OVER ARCTIC LEADS (2004) (0)
Arctic boundary-layer processes and climate change (2014) (0)
Arctic clouds and surface radiation (2015) (0)
Reconstructing the surface temperature fields of the Last Glacial Maximum and mid-Pliocene Warm Period using climate models and data. (2021) (0)
Observed and CMIP6 Modeled Internal Variability Feedbacks and Their Relation to Forced Climate Feedbacks (2022) (0)
Supplementary Material : Understanding the inter-model spread in 1 global-mean hydrological sensitivity (2015) (0)
How accurately can the climate sensitivity to [Formula: see text] be estimated from historical climate change? (2020) (0)
Sensitivity of the dry stable boundary layer to external surface forcing (2007) (0)
The hemispheric distribution of reflected shortwave irradiance in observations, aquaplanet climates, and CMIP simulations (2012) (0)
Evaluating spectrally-sparse, temporally-dense radiation calculations in global forecasts and climate projections (2013) (0)
Early Development and Tuning of a Global Coupled Cloud Resolving Model, and its Fast Response to Increasing CO 2 (2022) (0)
On the role of temperature feedbacks for Arctic amplification (2013) (0)
Assessment of CMIP6 Climate Model Simulations of Recent Changes in Earth's Radiation Budget Using CERES Observations (2019) (0)
Estimating the lapse-rate and the surface-albedo feedback by locking the lapse rate and the surface albedo on-line in the CCSM4 slab-ocean model (2013) (0)
Specific Response ( Anonymous Referee # 2 ) (0)
A revision of the Earth’s energy balance framework (2017) (0)
Cloud feedbacks in extratopical cyclones: insight from longterm satellite data and highresolution global simulations (2019) (0)
Review (2020) (0)
Visualization of a Retrograde Earth Experiment for Public Outreach (2018) (0)
The Influence of Cloud Feedbacks on Tropical Climate Variability (2014) (0)
Historical time-variation in climate sensitivity related to the nature of the forcing (2018) (0)
Hadley Cell Size and Strength Responses Depend on Turbulent Drag (2023) (0)

This paper list is powered by the following services:

Other Resources About Thorsten Mauritsen

en.wikipedia.org

What Schools Are Affiliated With Thorsten Mauritsen?

Thorsten Mauritsen is affiliated with the following schools:

Thorsten Mauritsen's Academic­Influence.com Rankings