A fossil is any remains, trace, or imprint of a plant or an animal naturally preserved in sediments or rocks from past geologic times. Typically, for fossils to form, the material must be buried rapidly, usually by waterborne sediment. Burial is followed by chemical alteration where minerals may be removed or added (Fossils, p. 10). Paleontology is the study of fossils to help learn about ancient life.

Fall Brook, near Geneseo, has a 100-foot ravine and waterfall that cuts through 380-million-year-old Middle Devonian shale and limestone that is located in the Moscow Formation of the Hamilton group. The fossils I uncovered--trilobites, brachiopods, pelecypods, crinoid stems, and bryozoans--were in the Windom Shale Member, which is 45 to 48 feet thick. The rock strata of Fall Brook, a tributary of the Genesee River, which is one of the few rivers in the world to flow north, are now exposed due to the erosive force of [Laurentian] water when the ice cap melted 14,000 years ago.

Fall Brook is a very well-known place in the Geneseo area. One of the local stories states that in 1779, during Sullivan's expedition, a band of Seneca Indians was driven over the bank of the falls (Genesee Country, p. 58). The area of Fall Brook, which was located close to the equator during the Middle Devonian Period, was covered by warm, shallow seas that teemed with life. New York was covered by inland seas during that time, and there is evidence that suggests the region occasionally rose above sea level and was subjected to erosion.

To find fossils, I had to search for the correct layers of shale that were formed when climatic conditions included long sunlit days, warm temperatures, low turbidity, and an environment that had a good food supply and was conducive to life. Most of the fossils I found were in the gray shale rather than the thin interbedded layers of limestone. While working in various stratigraphic layers, I found the layers of limestone to be harder to dig in but easy to identify. They stood out because of their resistance to weathering, but they lacked fossils and evidence of abundant life. I discovered that the lighter gray shale was more fossiliferous.

I enjoyed digging through the five-inch-thick, rust-stained layer of Leicester marcasite, previously known as the Tully Pyrite. The pyrite, which is a sulfide of iron, indicates that the waters that covered this area carried iron in solution, and decaying organic matter released hydrogen sulfide covering the sea floor (Genesee Country, 60). This layer acts as a key bed for identifying geologic time in this area. It was difficult to dig in and contained dwarfed fauna of mainly brachiopods and pelecypods. Above the strata where my fossils were found, there was an 83-foot deposit of Geneseo black shale. The waters of this time contained few animals but vegetation was abundant. The plants didn't fossilize well because of the lack of hard parts. The water was shallow and the source of sediment came from the east. The dark color of the shale was caused by lack of oxygen in the sediment. Few fossils occurred within it. (Genesee Country, 59).

Below the black shale in the lighter gray shale strata, I found trilobites, bryozoa, brachiopods, pelecypods, horn corals, and crinoid stems. Since these fossils were found at a lower elevation they were older than any found above. The lowest layer, which was located in the rapids, is where I uncovered trilobites (Phacops rana). It was very easy digging, because over the winter the water between the layers of shale expanded due to freezing, making it easy to separate fossils from the shale.

Directly above the Rochester Shale is the Lockport Dolomite, which makes up the caprock of Niagara Falls found sixty miles west. Digging at the canal site was more difficult than at Fall Brook because the dolomitic limestone was much more compact. I wasn't as successful at finding fossils at the Barge Canal site but on my next trip I plan to bring a larger hammer and chisel.

The fossils I was most trying to find were trilobites because they are good index fossils. An index fossil is a fossil that can be found over a large geographic area but that only existed for a brief period of geologic time and is easily identifiable. Trilobite Phacops is one of the most common trilobites of the Middle Devonian of North America. There are close relatives 4,000 miles away in northwest Africa that suggests that Africa was very close to North America during the Devonian. The collision between Africa and North America was actually the origin of the Appalachian Mountains (www.englib.cornell.edu). Since Phacops is found in both fossil-hunting locations, we can infer that they were deposited in similar saltwater conditions at approximately the same geologic time. I was able to find a complete Phacops rana but I mainly found individual elements, such as the cephalon (head), thorax (body), and pygidium (tail), which were probably separated by water currents. At the Barge Canal I found many specimens of Trimerus, another trilobite genus. The most common complete fossils I was able to find were Mucrospirifer and Atrypa (brachiopods) and Heliophyllum (horn coral).

Cornell University, Engineering Library. http://www.englib.cornell.edu/

Fairchild, Herman. Geologic Story of the Genesee Valley and Western New York. Rochester, N. Y.: Fairchild, Herman, 1928.

Fenton, Carroll. Tales Told By Fossils. Garden City, N.Y: Doubleday and Co. Inc, 1966.

General Stratigraphic Profile. Rochester, N.Y: H and A of New York, 1991.

Guidebook for Field Trips. Rochester, N.Y: University of Rochester, 1956.

Hewitt, Phillip. Guidebook to Field Trips. State University of New York College at Brockport, 1973.

Lambert, Mark. Fossils. New York: Arco Publishing, Inc., 1978.

Payne, Thomas. The Genesee Country. Rochester, N.Y: Rochester Museum of Arts and Science, 1938.

Van Diver, Bradford. Roadside Geology of New York. Missoula, Mont.: Mountain Press Publishing Co. 1985.