I’m sure every child was once fascinated by the knowledge that the rings on a tree trunk can tell it’s age. The very fact that the age of a tree can be recorded this way used to be unreal, and to actually count the rings of a cut tree and figuring out the age of a tree was an inexplicable discovery for many of us.
Scientists do not cut the entire tree to look at the trunk as a slab, but use drills to cut out a small, thin core of the tree that fully captures the information embedded in the core.
Trees can be dated in a variety of ways; dendrochronology (the study of tree rings) is but one of them. In recent times, this method has been criticized by many people because of the contradiction it provides. Why would you cut and kill a tree, just so you can figure out it’s age? One such mistake in 1964 had lead to the cutting of the world’s oldest tree at that time.
However, tree rings are very valuable for various other reasons. That is why, the study of dendrochronology still continues with an altered methodology. Scientists do not cut the entire tree to look at the trunk as a slab, but use drills to cut out a small, thin core of the tree that fully captures the information embedded in the core. Not only do they record the age, but can also serve as an important in climate studies and fire predictions. This characteristic is now being used to recontruct climate record pertaining to forest fires, and can be helpful in discerning patterns of fire in a particular region.
Why is this important? As I have mentioned before, forest fires have massive ecological benefits if controlled and used in the right way. But it is key that forest managers do not let it get out of hand.
An oversimplified view of the connection between climate and tree rings
During periods of dry weather, there is competition for food between different parts of the tree. Consequently, the base of the stem is sacrificed for more important parts of a tree. The tree rings created during this time at the base of the stem are usually narrower and spread wider than during moist periods. This of course, depends from species to species and the climatic zone in question (Note- Many other factors also control the growth of tree rings; we simply infer possible rainfall/temperature information from the rings present on the core. It’s not an exact method, probabilities are involved).
This information can be used to determine long periods of dry weather in the climatic record. Can this be linked to possible fires in the past? Yes. In fact, scientists have gone on to link large scale climatic fluctuation with occurrence of forest fires in the western US, as shown in the picture below-
How forest fires are recorded in a tree
This is obviously subject to the fact that the tree survives the forest fire. If it does, the fire leaves burn marks in the tree and the tree trunk, that can be embedded amongst the tree rings. So when a dry period is superimposed by a fire mark, it is fairly safe to assume that that year saw a forest fire in the region. The intensity of a fire can also be guessed using these fire marks. Such studies are now being carried out in western US to figure out how droughts and dry periods have affected forest fires in that region.
What do these studies tell us?
Even in the past, periods of extended dry weather and droughts have caused forest fires that are significantly larger than normal fires experienced during normal years. Also, the very intense fires that we have seen all over the world, especially in the US, are not outliers in the historic sense. If the tree rings and burn scars are any indication, such fires have occurred in the past several times.
Given that many parts of the world are now experiencing droughts, along with the danger of human-induced warming, it is likely that the dry periods we are seeing today can extend for many years to come. And if that is the case, the fires will only burn bigger and brighter and hotter.
This is a very grave observation that needs to be taken into account in fire-management and land management plans all over the world, not just the US.