Andrea Stenke
Stenke, Andrea 1976-
VIAF ID: 57528624 (Personal)
Permalink: http://viaf.org/viaf/57528624
Preferred Forms
- 100 0 _ ‡a Andrea Stenke
- 100 1 _ ‡a Stenke, Andrea ‡d 1976-
- 100 1 _ ‡a Stenke, Andrea ‡d 1976-
4xx's: Alternate Name Forms (8)
Works
Title | Sources |
---|---|
AirClim: an efficient tool for climate evaluation of aircraft technology | |
Attribution of ozone changes to dynamical and chemical processes in CCMs and CTMs | |
The changing ozone depletion potential of N2O in a future climate | |
Clear-sky ultraviolet radiation modelling using output from the Chemistry Climate Model Initiative | |
Climate and chemistry effects of a regional scale nuclear conflict | |
Climate functions for the use in multi-disciplinary optimisation in the pre-design of supersonic business jet | |
Climate impact of supersonic air traffic: an approach to optimize a potential future supersonic fleet – results from the EU-project SCENIC | |
The coupled atmosphere–chemistry–ocean model SOCOL-MPIOM | |
Decadal reduction of Chinese agriculture after a regional nuclear war | |
Decision strategies for policy decisions under uncertainties: The case of mitigation measures addressing methane emissions from ruminants | |
Deriving Global OH Abundance and Atmospheric Lifetimes for Long-Lived Gases: A Search for CH3 CCl3 Alternatives | |
Detection of reactive nitrogen containing particles in the tropopause region – evidence for a tropical nitric acid trihydrate (NAT) belt | |
Do supersonic aircraft avoid contrails? | |
Drivers of the tropospheric ozone budget throughout the 21st century under the medium-high climate scenario RCP 6.0 | |
The effect of atmospheric nudging on the stratospheric residual circulation in chemistry–climate models | |
Emerging role of wetland methane emissions in driving 21st century climate change. | |
Evidence for a continuous decline in lower stratospheric ozone offsetting ozone layer recovery | |
Exploring accumulation-mode H<sub>2</sub>SO<sub>4</sub> versus SO<sub>2</sub> stratospheric sulfate geoengineering in a sectional aerosol–chemistry–climate model | |
Forcing of stratospheric chemistry and dynamics during the Dalton Minimum | |
Formaldehyde in the Tropical Western Pacific: Chemical sources and sinks, convective transport, and representation in CAM-Chem and the CCMI models. | |
Global atmospheric sulfur budget under volcanically quiescent conditions: Aerosol-chemistry-climate model predictions and validation | |
Global long-term monitoring of the ozone layer – a prerequisite for predictions | |
Impact of dynamically induced ozone mini-hole events on PSC formation and chemical ozone destruction | |
Impact of ozone mini-holes on the heterogeneous destruction of stratospheric ozone | |
Impact of prescribed SSTs on climatologies and long-term trends in CCM simulations | |
Impact of solar versus volcanic activity variations on tropospheric temperatures and precipitation during the Dalton Minimum | |
Implications of potential future grand solar minimum for ozone layer and climate | |
The influence of Middle Range Energy Electrons on atmospheric chemistry and regional climate | |
The influence of mixing on the stratospheric age of air changes in the 21st century | |
Isotopic source signatures: Impact of regional variability on the δ13CH4 trend and spatial distribution | |
Lagrangian transport of water vapor and cloud water in the ECHAM4 GCM and its impact on the cold bias | |
Long-term changes and variability in a transient simulation with a chemistry-climate model employing realistic forcing | |
Methane Modeling: From Process Modeling to Global Climate Models | |
The Model Intercomparison Project on the climatic response to Volcanic forcing (VolMIP): experimental design and forcing input data for CMIP6 | |
Multi-model comparison of the volcanic sulfate deposition from the 1815 eruption of Mt. Tambora | |
Multimodel estimates of atmospheric lifetimes of long-lived ozone-depleting substances: Present and future | |
No robust evidence of future changes in major stratospheric sudden warmings: a multi-model assessment from CCMI | |
Northern winter stratospheric temperature and ozone responses to ENSO inferred from an ensemble of Chemistry Climate Models | |
On the aliasing of the solar cycle in the lower stratospheric tropical temperature | |
Ozone sensitivity to varying greenhouse gases and ozone-depleting substances in CCMI-1 simulations | |
Quantifying the effect of mixing on the mean age of air in CCMVal-2 and CCMI-1 models | |
Radiative forcing from particle emissions by future supersonic aircraft | |
The representation of solar cycle signals in stratospheric ozone – Part 2: Analysis of global models | |
The Response of the Ozone Layer to Quadrupled CO2 Concentrations | |
Review of the global models used within phase 1 of the Chemistry–Climate Model Initiative | |
The role of methane in projections of 21st century stratospheric water vapour | |
Sensitivity of contrail coverage and contrail radiative forcing to selected key parameters | |
Simulation of stratospheric water vapor trends: impact on stratospheric ozone chemistry | |
Skin cancer risks avoided by the Montreal Protocol--worldwide modeling integrating coupled climate-chemistry models with a risk model for UV. | |
The SOCOL version 3.0 chemistry–climate model: description, evaluation, and implications from an advanced transport algorithm | |
Springtime arctic ozone depletion forces northern hemisphere climate anomalies | |
Stratosphärischer Wasserdampf in einem gekoppelten Klima-Chemie-Modell Simulation, Trends und Bedeutung für die Ozonchemie | |
Stratospheric aerosol-Observations, processes, and impact on climate | |
Stratospheric age of air variations between 1600 and 2100 | |
Supplementary material to "Inter-model comparison of global hydroxyl radical (OH) distributions and their impact on atmospheric methane over the 2000–2016 period" | |
Transport impacts on atmosphere and climate: Metrics | |
The Tropical Tropopause Layer 1960–2100 | |
Tropospheric jet response to Antarctic ozone depletion: An update with Chemistry-Climate Model Initiative (CCMI) models | |
Tropospheric Ozone at Northern Mid-Latitudes: Modeled and Measured Long-Term Changes | |
An upper-branch Brewer–Dobson circulation index for attribution of stratospheric variability and improved ozone and temperature trend analysis |