Scientists first proposed the theory of Continental Drift in 1915, and it was faced with ridicule among the scientific community. They noted that the age and composition of mountain ranges such as the Appalachian Range in the Eastern United States match up perfectly with the Caledonian Mountains of Europe. Scientists also used fossils to show that the climates of certain land masses have drastically changed from what they are today (see Figure 1). However, they were unable to prove the theory because there was little scientific evidence to prove how the continents moved. Over the years, more evidence was brought to light, and the idea of Continental Drift was strengthened to become the Theory of Plate Tectonics.
In the 1950s researchers began to study the ocean floor. They discovered the Mid-Atlantic Ridge and scientists became interested in understanding why such a large mountain range was located in the middle of the Atlantic Ocean. Over the next couple decades, further research was performed on the age and magnetic polarity of the sea floor that further validated that the continents were moving. It was discovered that the ocean floor was of different ages (see Figure 2). Also, the ocean floor has differentiating magnetic polarity moving away from the Mid-Atlantic Ridge (see Figure 3).
Which of the following is the best way to describe how the age of the ocean crust is used as evidence for plate tectonics?