Answer:
The planet's climate system is experiencing B. feedback.
Step-by-step explanation:
In this scenario, the change in climate leads to cooler air, which in turn causes more snowfall. The increased snowfall reflects more light back into space, resulting in further cooling of the planet. This leads to even more snowfall, creating a feedback loop where the colder temperatures cause more snow, and the increased snowfall further contributes to the cooling.
Feedback loops are a fundamental concept in climate science. They occur when a change in one component of the climate system triggers changes in other components, which then feedback and amplify the original change. In this case, the initial cooling of the air leads to more snow, which further cools the planet, and the cycle continues.
It is important to note that feedback loops can have both positive and negative effects on the climate. In this scenario, the feedback loop is positive because it amplifies the initial cooling. However, feedback loops can also work to stabilize or counteract changes in the climate system.
By identifying this process as feedback, we recognize the interconnectedness and complex nature of the climate system, where one change can set off a series of events that further impact the system.