Trude Storelvmo
Storelvmo, Trude
VIAF ID: 110149294366780522383 (Personal)
Permalink: http://viaf.org/viaf/110149294366780522383
Preferred Forms
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- 100 1 _ ‡a Storelvmo, Trude
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- 100 0 _ ‡a Trude Storelvmo
4xx's: Alternate Name Forms (7)
Works
Title | Sources |
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Aerosol-cloud interaction inferred from MODIS satellite data and global aerosol models | |
Atmospheric composition change: Climate–Chemistry interactions | |
Bacteria in the ECHAM5-HAM global climate model | |
Bias in CMIP6 models compared to observed regional dimming and brightening trends (1961-2014) | |
Bounding Global Aerosol Radiative Forcing of Climate Change | |
Bounding the role of black carbon in the climate system: A scientific assessment | |
Cirrus cloud seeding has potential to cool climate | |
Cirrus cloud susceptibility to the injection of ice nuclei in the upper troposphere | |
Climate sensitivity indices and their relation with projected temperature change in CMIP6 models | |
The climatic effects of modifying cirrus clouds in a climate engineering framework | |
The Climatic Impact of Thermodynamic Phase Partitioning in Mixed-Phase Clouds | |
Cloud Phase Changes Induced by CO2 Warming—a Powerful yet Poorly Constrained Cloud-Climate Feedback | |
Combined observational and modeling based study of the aerosol indirect effect | |
Disentangling greenhouse warming and aerosol cooling to reveal Earth’s climate sensitivity | |
Disentangling the Microphysical Effects of Fire Particles on Convective Clouds Through A Case Study | |
EC-Earth | |
Econometric estimates of Earth’s transient climate sensitivity | |
Energy Budget Constraints on the Time History of Aerosol Forcing and Climate Sensitivity | |
Equilibrium climate sensitivity above 5 °C plausible due to state-dependent cloud feedback | |
Evidence of Strong Contributions From Mixed‐Phase Clouds to Arctic Climate Change | |
Exploring Impacts of Size‐Dependent Evaporation and Entrainment in a Global Model | |
Exploring the phase partitioning in different cloud types using active and passive satellite sensors | |
The Geoengineering Model Intercomparison Project Phase 6 (GeoMIP6): simulation design and preliminary results | |
Global modeling of mixed-phase clouds: The albedo and lifetime effects of aerosols | |
Global radiative effects of solid fuel cookstove aerosol emissions | |
Global Radiative Impacts of Black Carbon Acting as Ice Nucleating Particles | |
Global Radiative Impacts of Mineral Dust Perturbations Through Stratiform Clouds | |
The importance of ice crystal sizes and shapes for earth's radiative budget | |
Importance of Orography for Greenland Cloud and Melt Response to Atmospheric Blocking | |
Improving climate projections by understanding how cloud phase affects radiation | |
Influence of cloud phase composition on climate feedbacks | |
Intercomparison of the cloud water phase among global climate models | |
Lethargic Response to Aerosol Emissions in Current Climate Models | |
Modeling aerosol activation in a tropical, orographic, island setting: Sensitivity tests and comparison with observations | |
Modeling aerosol influence on clouds in CAM-Oslo | |
Modeling of the Wegener–Bergeron–Findeisen process—implications for aerosol indirect effects | |
Modelling the impact of fungal spore ice nuclei on clouds and precipitation | |
Near-linear response of mean monsoon strength to a broad range of radiative forcings | |
Observational constraints on mixed-phase clouds imply higher climate sensitivity | |
Observations of cold-cloud properties in the Norwegian Arctic using ground-based and spaceborne lidar | |
On the relationships among cloud cover, mixed-phase partitioning, and planetary albedo in GCMs | |
Orographic Precipitation in the Tropics: The Dominica Experiment | |
Past, present and future aerosol forcing derived from CMIP6 | |
A Positive Iris Feedback: Insights from Climate Simulations with Temperature-Sensitive Cloud–Rain Conversion | |
Post-flight analysis of detailed size distributions of warm cloud droplets, as determined in situ by cloud and aerosol spectrometers | |
Predicting cloud droplet number concentration in Community Atmosphere Model (CAM)-Oslo | |
A Process Study on Thinning of Arctic Winter Cirrus Clouds With High‐Resolution ICON‐ART Simulations | |
Quantifying uncertainty about global and regional economic impacts of climate change | |
Reply to Levermann et al.: Linear scaling for monsoons based on well-verified balance between adiabatic cooling and latent heat release | |
Review comments, Murray et al | |
Sensitivity study of the aerosol effects on a supercell storm throughout its lifetime | |
Spaceborne lidar observations of the ice-nucleating potential of dust, polluted dust, and smoke aerosols in mixed-phase clouds | |
Strong impacts on aerosol indirect effects from historical oxidant changes | |
A Study of Enhanced Heterogeneous Ice Nucleation in Simulated Deep Convective Clouds Observed During DC3 | |
Testing the sensitivity of past climates to the indirect effects of dust | |
Thermodynamic and dynamic responses of the hydrological cycle to solar dimming | |
To what extent can cirrus cloud seeding counteract global warming? | |
Total aerosol effect: radiative forcing or radiative flux perturbation? | |
Uncertainties in aerosol direct and indirect effects attributed to uncertainties in convective transport parameterizations | |
Using satellite observations to evaluate model representation of Arctic mixed-phase clouds | |
The Wegener-Bergeron-Findeisen process – Its discovery and vital importance for weather and climate | |
What governs the spread in shortwave forcings in the transient IPCC AR4 models? |