Geologic time - review questions for chapter 6

(also look at questions on p.189 in the textbook)

How, then, were geologists of the past two centuries able to construct the elaborate table of eras, periods, and epochs that we know as the geologic time scale? Before absolute dating was possible, several important principles were devised that allowed geologists to determine the relative ages of different rock layers. These principles of relative age dating, together with other rules for correlation of rocks of similar ages over a broad area, made it possible to construct a cataloguing system that could be applied over large areas of the globe. Long before geologists and paleontologists knew the beginning and ending dates of the Cambrian or Ordovician periods, they were able to determine whether a particular sedimentary rock was deposited in the Cambrian, the Ordovician, the Silurian or the Devonian. When the discovery of the phenomenon of radioactive decay made it possible to develop methods for radiometric dating of rocks, it suddenly became possible to start attaching absolute dates to all of the time periods that were already included in the time scale. In this chapter we focus first on the basic principles and tools of stratigraphy (the study of layered sequences of sedimentary rocks) and relative age dating; then on the geologic time scale; and then on the use of radiometric dating techniques together with other tools like the sequence of reversals of the earth's magnetic field.

Relative age dating often relies on a small number ofl basic principles, some of which have been around since Nicolaus Steno formulated them in Italy in the late 1600's. These include the law of original horizontality; the principle of [stratigraphic] superposition; the principle of faunal (or biotic) succession; and the law of cross-cutting relationships. Be prepared to explain these principles and be prepared to use them in deciphering the age sequence in a block diagram.

What is an unconformity and why is it significant? How are the major varieties of unconformities (angular unconformity, nonconformity, and disconformity) distinguished from each other?

What is a geologic formation and what do geologists mean by the term "correlation"? How is it possible to correlate rocks of a particular age with rocks of a similar age in another area? What role do fossils play in correlation?

Make sure that you are familiar with the major subdivisions of the geologic time scale, including the age and significance of the Precambrian/Cambrian boundary; the Paleozoic, Mesozoic, and Cenozoic eras; the age and significance of the Permian/Triassic boundary and the Cretaceous/Tertiary boundary; the subdivision of the Cenozoic into Tertiary and Quaternary periods; and the further subdivision of the Quaternary into the Pleistocene and the Holocene epochs.

Be prepared to explain the processes of radioactive decay, including beta-particle emission, beta-particle capture, and alpha-particle emission. What are parent and daughter isotopes, and what is meant by "half-life"? Be prepared to calculate the age of a rock sample based on the ratio of parent to daughter product; This will be carefully reviewed in class.

What are the advantages and drawbacks of carbon-14 dating as opposed to other prominent radioactive isotopes like rubidium/strontium 87, potassium/argon 40, and uranium 238/lead 206?

How can radiometric dating be used, together with the principles of relative age dating, to establish a time sequence for a particular set of rocks?

What is the magnetic polarity-reversal time scale and what is its significance for dating the ages of sediments and sedimentary rocks?