The width of a series of growth rings can give clues to past climates and various disruptions such as forest fires.
Droughts and other variations in the climate make the tree grow slower or faster than normal, which shows up in the widths of the tree rings.
To accomplish this, scientists use a variety of evidence, from tree rings to the amounts of radioactive materials in a rock.
In regions outside the tropics, trees grow more quickly during the warm summer months than during the cooler winter.
This pattern of growth results in alternating bands of light-colored, low density "early wood" and dark, high density "late wood".
Each dark band represents a winter; by counting rings it is possible to find the age of the tree (Figure 11.22).
This tree ring record has proven extremely useful in creating a record of climate change, and in finding the age of ancient structures. The thick, light-colored part of each ring represents rapid spring and summer growth.
The thin, dark part of each ring represents slow autumn and winter growth.Several other processes result in the accumulation of distinct yearly layers that can be used for dating.control: at Chobot, Alberta, the three Clovis points found lack stratigraphic context, and the majority of other diagnostic artifacts are younger than Clovis by thousands of years; at Morley, Alberta, ridges are assumed without evidence to be chronologically correlated with Ice Age hills 2,600 kilometers away; and at Paw Paw Cove, Maryland, horizontal integrity of the Clovis artifacts found is compromised, according to that site's principal archaeologist.As we learned in the previous lesson, index fossils and superposition are effective methods of determining the relative age of objects.In other words, you can use superposition to tell you that one rock layer is older than another.But determining the absolute age of a substance (its age in years) is a much greater challenge.