Delves into extreme weather events, their definitions, causes, and consequences, emphasizing the importance of understanding climate change in relation to these occurrences.
Explores polar and alpine climate change, mitigation strategies, and climate engineering, covering topics like greenhouse effect, Paris Agreement, IPCC reports, and extreme events.
Explores the evolution of climate models and the latest IPCC findings on climate sensitivity, including ECS estimation and constraints from observations and paleoclimate records.
Explores the importance of climate change for snow scientists, covering definitions, effects of continentality and elevation, snow cover classification, and the state of the cryosphere.
Covers the current observations of climate change and future projections, emphasizing the role of human activities in temperature increases and the complexities of measuring climate variables.
Explores the importance and impacts of climate change, covering global risks, the science of climate change, historical temperature records, and reasons for concern.
Explores predicting climate change through linear response operators, focusing on the nonequilibrium nature of the climate system and the challenges of climate predictability.
Explores extreme events, emission metrics, and the Paris Agreement's goals, analyzing the impact of different metrics on temperature outcomes and the challenges in defining extreme events.
