The heat budget, also known as the Earth’s energy budget, refers to the balance between the amount of energy that enters the Earth’s atmosphere and the amount that leaves it. This balance is critical to understanding the Earth’s climate system, as changes in the balance of incoming and outgoing energy can lead to warming or cooling of the Earth’s surface and atmosphere.
The sun is the primary source of energy for the Earth’s atmosphere, and solar radiation is the primary way in which energy enters the system. About 30% of the solar radiation that reaches the Earth’s atmosphere is reflected back into space by clouds, snow, ice, and other reflective surfaces, while the remaining 70% is absorbed by the Earth’s surface and atmosphere.
The absorbed solar radiation heats up the Earth’s surface and atmosphere, leading to the emission of longwave radiation (infrared radiation) from the Earth’s surface and atmosphere. Some of this longwave radiation is absorbed by greenhouse gases in the atmosphere, such as water vapor, carbon dioxide, and methane, which trap the heat and keep the Earth’s surface warm. This is known as the greenhouse effect.
The balance between incoming solar radiation and outgoing longwave radiation determines the Earth’s temperature. If the amount of incoming solar radiation exceeds the amount of outgoing longwave radiation, the Earth will warm up. Conversely, if the amount of outgoing longwave radiation exceeds the amount of incoming solar radiation, the Earth will cool down.
Changes in the heat budget can be caused by a variety of factors, including changes in solar radiation, changes in the Earth’s orbit and axial tilt, volcanic eruptions, and human activities such as deforestation and the burning of fossil fuels. Understanding the Earth’s heat budget is critical to predicting and understanding changes in the Earth’s climate over time.