To answer the question, “Why are mammoth bones found in northern Illinois?” one simply needs to look at the geologic cross sections in the area. Relative dating shows that a sequence of environments were present in the area before the grasslands and wetlands we are used to today. The cross section of the Mud Lake site displays what once was a swampy environment that came after a site that was near the terminus of a retreating glacier. This shows climate in the area was once much different than what we are used to today.

Putting an actual date on these bones found places this environment roughly 14,000 years ago. Knowing the average decay rate of C14 helped geologists place a numerical date on these mammoth bones.

It was previously thought that human ancestors did not occupy the area until 13,000 years ago. Relative dating and absolute dating practices have now moved this date back an extra 1,000 years. Markings on the bones shows these animals were butchered by recent human ancestors. This helps place a landmark with a date for the evolution and migration of Homo sapians living in North America during the Pleistocene.

Had Maine East been located in the area nearly 10,000 years ago, we may have changed from Demon Pride to Mammoth Pride.

Relative Dating

Absolute Dating

Geologic Time Discussion

References

Abstract / Background Information

Belew, B (2009). Evolution 101: What are the problems with Carbon-14 Dating? Retrieved March 10, 2010, from http://www.examiner.com/x-4865-Christian-Worldview-Examiner~y2009m8d14-Evolution-101-What-are-the-problems-with-Carbon14-dating.

Friends of the Ice Age. (2004) Butterbroad, J. woollymammoth.org. Retrieved February 21, 2010, from http://www.woollymammoth.org/.

Tarbuck, E. J. & Lutgens, F. K. (2005). Earth: an introduction to physical geology, 8th ed. Pearson Education, Inc., Upper Saddle River, New Jersey.

Wisconsin Geological and History Survey. (2009). Bedrock Geology of Wisconsin [Map]. Retrieved February 23, 2010, from http://www.uwex.edu/wgnhs/bdrk.htm

Woolly Mammoth (2009). Illinois State Geologic Survey. Retrieved February 22, 2010, from http://www.isgs.illinois.edu/education/ice-age-res/mammoth.shtml.

Radioactivity – Decay of parent isotopes into daughter isotopes

Half-life is the number of years it takes for ½ of the original number of parent isotope atoms to decay to a particular daughter isotope, as can be seen in the decay of U238 to Pb206 as depicted in (Figure 1) (Tarbuck & Lutgens, 2005).

Knowing the ratio of parent to daughter isotopescan be used to determine the age of the sample.The leg bone seen in (Figure 5) to the rightcontained both radioactive Carbon -14 and normalCarbon -12. The mammoths found in northern Illinois were radiocarbon dated and found to be 14,470 years old (FIA, 2004).

This was done by first determining that 34.75% of the original C14(Parent Isotope) had changed to N14

through beta decay. Then using (Figure 2) it was determined that 2.53 half lives had elapsed since the mammoth died. Since thehalf-life of C14 is 5,730 years, a little multiplication yields the age of the mammoth 2.53 x 5,730 = 14,470 years old (Tarbuck & Lutgens, 2005).

Figure 6. Samples were taken from this lower leg bone from a mammoth found in Kenosha, WI for C14 dating (FIA, 2004).

Conclusions

Mammoths?Mrs. Awad, Mr.

Baldwin & Mr. Bihn

If Our School Was Here Over 10,000 Years Ago, What Would Our Mascot Be?

Figure 7. Overhead picture of the Mud Lake excavation site where leg bones were removed during a construction project (FIA, 2004).

Radiometric Isotope Concentrations

0102030405060708090

100

0 1 2 3 4 5 6

Half Lives

Perc

ent I

soto

pe R

emai

ning

Parent Remaining

Daughter Remaining

Figure 2. Parent Daughter isotope curves plotted over several half lives. The percent parent plus the daughter always equals 100.

    

The Law of Superposition states that the Sedimentary rocks on top are younger than the undisturbed Sedimentary rocks below them(Tarbuck & Lutgens, 2005).

Figure 1. Pathway of unstable parent isotope U238 to daughter isotope Pb206 following steps of alpha and beta emissions (Tarbuck & Lutgens, 2005).

*Unless otherwise noted, all pictures are from class handouts or were created by one of the authors

Bones of mammoths with odd marks on them have been found in northern Illinois and southern Wisconsin. Illinois is not the typical habitat of large elephant-like animals, so why do we find mammoth bones in Illinois and what are these strange lacerations on them?

In 1936, work crews channelizing the outflow creek from Mud Lake encountered roughly 20 leg and foot bones of a Woolly Mammoth. These bones represent what scientists believe to be butchered remains of Woolly Mammoths that place Paleoindians in the area 1,000 years before originally thought (FIA, 2004).

Relative dating have placed these bones in a sequence of events that shows these animals lived relative recently in relation to soil and rock layers beneath them. Absolute dating techniques have been used to put an actual date on them as well. Geologic practices have helped tell the story of why mammoths are found in northern Illinois.

Relative Dating is a process by which rocks, fossils, etc. are placed in their proper sequence of formation (i.e. which formed 1st, 2nd, 3rd, etc.-Scientists do not try to assign a specific numerical age to the rocks, fossils, etc., they are simply placed in an ordered sequence by which were deposited or created. Several laws or principles are applied to assign the relative date (Tarbuck & Lutgens, 2005).

Figure 4. Living organisms, such as mammoths, constantly cycle C14 until they die (Belew, 2009)

Clay Layer

Peat

Dolomitic Limestone

Glacial Till

The mammoth bones were found in a clay layer, on top of a layer of glacial till, which was located on top of a layer of Dolomitic Limestone and directly below a layer of peat. According to the Law of Superposition, the layer of peat is the youngest while the layer of Dolomitic Limestone is the oldest because the peat horizon is on the top and the Limestone is found onthe bottom of the sequence (Figure 3). Figure 3. Mock cross section of the

layers found in the Mud Lake excavation site in Kenosha, WI (drawing not to scale).

Relative dating of the layers in and around where the mammoth bones were found (Figure 7) showed that these animals lived relative recently in a relation to soil and rock layers beneath them. From careful examination of these layers it allowed scientists to describe the Sedimentary Depositional Environment as:

-Swampy Environment (Peat Layer)-Melting Terminal glacial deposits from low energy water currents (Clay Layer)-Retreating glacial deposits (Glacial Till Layer)-Shallow ocean with CaCO3 precipitation (Dolomitic Limestone Layer) (FIA, 2004).

Figure 5 –The mammoth fossils were determined to be from the Late Pliestocene Epoch of the Quaternary Period (orange outline)

From the information available, it was determined that the mammoth bones (Figure 6) found in northern Illinois and southern Wisconsin (Figure 7) were from mammoths thatexisted on the Earth during the Late Pliestocene Epoch (Figure 5). This was determined through the process of radiocarbon dating (Figure 4).

-Swampy Environment

-Terminal glacial deposits with low energy water present

-Retreating glacier deposits

-Shallow ocean with CaCO3 precipitation