On May 6, 2013, the Moderate-resolution Imaging Spectroradiometer (MODIS) on NASA’s Terra satellite acquired this true-color image of the Finger Lakes. Lake water appears dark blue. Farms and orchards, mainly around the northern part of the lakes, are beige. Forested areas south of the lake are brown because leaves had not fully emerged in early May. However, grass and other low-lying vegetation in meadows had turned some parts of the landscape green.
Millions of years ago, the lakes were northward-flowing streams that ran through a series of narrow valleys shaped like a V. Beginning about two million years ago, during a period known as the Pleistocene glaciation, sheets of ice from the Hudson Valley crept south and buried those streams under ice.
As the glaciers pushed south, they gouged the bottom and sides of the narrow valleys, deepening and widening them into vertical U shapes. This process, known as glacial scouring, likely happened multiple times as orbital variations in global climate—called Milankovitch cycles—produced cycles of advancing and retreating ice.
The most recent glacial advance occurred about 21,000 years ago, when a layer of ice about two miles (three kilometers) thick covered all of New York State and much of New England. The glaciers advanced and retreated, sliding back for the last time about 10,000 years ago. In the process, they left debris piles called recessional moraines in the valleys. In many cases, these moraines functioned like dams, blocking streams and causing the valleys to fill with water and become lakes. - Cornell University
No comments:
Post a Comment