Glacial varve dating sites

Once the source of sediment is cut off, the link with the present is severed, and unless we could find some other method to place an absolute date on one of the varves, the only thing we can tell from them is the difference in age between two varves, but not how old either of them is. We can count back thousands or tens of thousands of years, but as we shall see in later articles this is only a short span of time in proportion to the much longer history of the Earth.

We introduced the idea of cross-dating in the article on dendrochronology.

However, it is difficult to use this principle as it is used in dendrochronology, to link together varve sequences in the present and in the past, and to associate varves in a lake currently being fed by glacial meltwater with a different lake in a different location where the glacier has melted entirely and the source of sediment has been removed.

Rather, the technique is more usually used on core samples taken from different locations in the same lake, in order to reduce error: if a minor disturbance has taken place in one location within the lake, removing one or more varves, then it is possible to use cross-dating with a sample taken from a different point in the lake to determine that this has taken place and to correct the chronology.

We can look in a lake or other environment of deposition, and see that varves are deposited on an annual basis; then we can take a core sample and see that the layer deposited in the past look just like those that are being deposited on an annual basis in modern times.

It is an obvious conclusion that layers that look just like annually deposited layers were in fact annually deposited.

In this article we shall examine what a varve is, how they can be used for absolute dating, and when they cannot.

The reader may find it useful to go back and re-read the article on glaciers before continuing with this article.In its original definition, a varve was a sedimentary feature in a proglacial lake, consisting of a couplet of coarse and fine sediment.Such varves are deposited in proglacial lakes annually because of the seasonal changes in the ablation of the glacier and the amount of meltwater feeding the lake.Since then the definition of a varve has been extended so that it can be used to describe any layer which is deposited annually, the varves in proglacial lakes being only one example.In this article we shall discuss varves in the wider sense, since they are equally good for absolute dating whatever the origin of the sediment.Given such a situation, there is no difficulty in principle in finding the age of any varve; we just start from the one that was deposited this year and count backwards.