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Climate Feedback

Climate Feedbacks: An interaction mechanism between processes in the climate system is called a climate feedback, when the result of an initial process triggers changes in a second process that in turn influences the initial one. A positive feedback intensifies the original process, and a negative feedback reduces it.
Climate Feedback

Global Temperature Land-Ocean Index

Climate feedbacks are processes that change as a result of a change in forcing, and cause additional climate change. An example of this is the "ice-albedo feedback." As the atmosphere warms, sea ice will melt. Ice is highly reflective, while the underlying ocean surface is far less reflective. The darker ocean will absorb more heat, getting warmer and making the Earth warmer overall. A feedback that increases an initial warming is called a "positive feedback." A feedback that reduces an initial warming is a "negative feedback." The ice-albedo feedback is a very strong positive feedback that has been included in climate models since the 1970s.

Climate feedbacks are simply a resultant feedback of a change in the system that amplifies itself positively or negatively.

Fast & Slow Feedbacks

Since there are fast and slow feedbacks these all need to be studied in order to determine the expected amount of forcing from each and how these feedbacks affect each other. The major fast feedbacks are included in climate models. There is still much research to be done to include slow feedbacks and related effects.

Here is how it works

If you increase CO2, CH4 and N20, then you induce warming:

  1. This warming of the atmosphere then warms the ocean.
  2. When the ocean warms it evaporates more H20 (a greenhouse gas)
  3. This traps more heat in the atmosphere.

Then,

  1. This warming of the atmosphere then warms the ocean.
  2. When the ocean warms it evaporates more H20 (a greenhouse gas)
  3. This traps more heat in the atmosphere.

and so on.

The risk we face from climate feedbacks are that if natural balance is not restored, the system may begin to amplify on its own without further inducement from human caused forcing.

While negative feedbacks can have an impact the current data and analysis indicates that the overall feedback effect will be positive. Very few scientists are arguing that the feedbacks may be more negative than currently indicated in the science. These claims have been examined and found not to fit the available data.

(See Lindzen)

Other feedbacks include seasonal shift, latitudinal shift, changes in ice albedo and the carbon sink and many more. All these different feedbacks interact with each other in very complex ways which are becoming better understood through dedicated research to the subject. It is important to understand feedbacks in order to further quantify the risk factors and time scales involved with climate change.

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