Fixed anvil temperature hypothesis

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Fixed Anvil Temperature (FAT) Hypothesis is a concept in atmospheric science and climatology that suggests the temperature at the top of tropical cumulonimbus clouds, or the anvil cloud temperature, remains relatively constant despite changes in global warming or other climatic variations. This hypothesis has significant implications for understanding the Earth's climate system and predicting future climate changes.

Overview[edit | edit source]

The FAT hypothesis was proposed to explain observations that the temperature at the top of the tallest cumulonimbus clouds in the tropics does not rise significantly with global warming, but instead remains nearly constant. These cloud tops are located in the tropopause, the boundary between the troposphere and the stratosphere, where temperature starts to increase with altitude. The stability of anvil cloud temperatures is thought to be due to the properties of water vapor and its interactions with radiation at these high altitudes.

Mechanism[edit | edit source]

The mechanism behind the FAT hypothesis involves the physics of cloud formation and the role of water vapor as a greenhouse gas. In the tropics, intense solar radiation heats the Earth's surface, causing water to evaporate and warm, moist air to rise. As this air ascends, it cools and water vapor condenses into cloud droplets, forming cumulonimbus clouds. The energy released during condensation further drives the air upward until it reaches the tropopause.

At the tropopause, the temperature inversion prevents further upward movement of the air. The cloud spreads out horizontally, forming the characteristic anvil shape. According to the FAT hypothesis, the temperature at which this process stabilizes is determined by the radiative properties of water vapor and is relatively insensitive to surface temperature changes. This is because, at the cold temperatures of the tropopause, water vapor acts as an efficient radiator of infrared radiation, cooling the cloud tops and stabilizing their temperature.

Implications[edit | edit source]

The FAT hypothesis has important implications for climate modeling and the prediction of future climate states. If the temperature of high tropical cloud tops remains constant while the surface warms, the difference in temperature between the surface and the cloud tops increases. This enhanced temperature gradient could potentially lead to stronger convection and more intense storms. Additionally, the hypothesis suggests a mechanism by which the climate system might regulate itself, preventing runaway global warming.

Controversies and Challenges[edit | edit source]

While the FAT hypothesis is supported by satellite observations and some climate models, it remains a subject of debate. One challenge is accurately measuring temperatures at the tops of cumulonimbus clouds over time. Another issue is the complexity of cloud dynamics and the difficulty of representing these processes in climate models. Some scientists argue that other factors, such as changes in cloud coverage or composition, could also influence the climate system in significant ways.

Conclusion[edit | edit source]

The Fixed Anvil Temperature Hypothesis offers a fascinating insight into the interactions between clouds and climate. It highlights the complexity of the Earth's climate system and the need for sophisticated models and extensive observational data to understand and predict climate change. As research continues, the FAT hypothesis will play a crucial role in refining our understanding of global warming and its impacts on weather patterns and climate variability.

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Contributors: Prab R. Tumpati, MD