May 26, 2001 - Greene Co, AL
BPS members collected in a Greene County, Alabama creek. At this Cretaceous site, we found numerous shark and ray teeth and some fish vertebrae.
Visitor
Cretaceous
April 29, 2001 - Montgomery Co, AL
BPS members visited two late Cretaceous sites in Montgomery County, Alabama, where we collected primarily shark teeth and echinoids. A pycnodont tooth (rare in Alabama) was found by Vicki Lais.
In 1999, Ed Hooks of the Alabama Museum of Natural History in Tuscaloosa, Alabama, along with David Schwimmer and Dent Williams of Columbus State University, Columbus Georgia, had written an article titled "Synonymy of the Pycnodont Phacodus Punctatus Dixon 1850, and Its Occurrence in the Late Cretaceous of the Southeastern United States". This article was published in the Journal of Vertebrate Paleontology in September 1999. Earlier, Gordon L. Bell, Jr., one of the founders of BPS, wrote an article titled "A Pycnodont Fish from the Upper Cretaceous in Alabama" (pdf link), which was published in Journal of Paleontology, Vol. 60, Sept 1986.
November 26, 2000 - Cretaceous Fossils - Macon Co, AL
The publication of Jim Lacefield's new book, "Lost Worlds in Alabama Rocks: A Guide to the State's Ancient Life and Landscapes" led the BPS to this new site for a field trip this month. In previous BPS field trip reports, I have noted the abundant plant fossils that we have found at various surface mines in Walker and Jefferson Counties. These sites include plants from the Coal Age in Alabama, dating back to about 310 million years. It was interesting, therefore, to learn from Jim's book that it was possible to find plant fossils in Alabama from a much later period, the Cretaceous period. Jim agreed to lead the BPS to a site where he had found fossil leaves, dating back to about 85-90 million years (Late Cretaceous). The site is in the Tuscaloosa Group of sediments (the earliest part of the Cretaceous found at the surface in Alabama). About 20 BPS members and guests attended the field trip, which took place on a cool but pleasant and mostly sunny day.
| The site was certainly different from the surface mines. At the surface mines, fossils are usually impressions, molds, and casts in shale, or solidified mudstone. Often, these fossils include the carbonized remains of the original plant material. At the Cretaceous site, however, the leaf fossils were in a light gray mud just a few inches below the ground level, concentrated in a fairly small area near a roadcut. The types of leaves found were almost exclusively angiosperms bearing a strong resemblance to modern varieties. |  |
| Figure 1: Viewing of digging site towards road. The hole is where nice brown Cretaceous leaf fossils were found. |
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| Figure 2: Group at area where the blacker leaf fossils were found. From left to right: Dave Shepherd, Kathy Twieg, Jim Lacefield, Vicki Lais, and Marcella. |
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| Figure 3: In the foreground, Ashley Allen is collecting the darker brown leaves. In the background is the group in Figure 2 |
| According to Jim, the angiosperm species included Salix (or willow), which represented greater than 90% of the specimens, and two members of the Lauraceae (or laurel family). The Salix leaves tended to be long and thin with a single dividing vein and very little additional detail. Often, stem attachment points were found, but it was rare to get a complete leaf on one slice of mud. |
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| Figure 4: Examples of Salix (willow) leaves showing the distinctive brown color characteristic of one part of the site. |
| Several examples are shown in the photographs which accompany this report. Some are also shown on page 81 of Jim's book. The Lauraceae leaves tended to be Cinnamomum, a possible Sassafrass. These had a distinctive vein structure which can be seen on page 82 of Jim's book. Jim also found what he thinks are probable flowers in different stages of decomposition, representing possibly 3 different species. The "flowers" he found included a willow twig with catkin attachments (no catkins were found) and two small but identical unidentified (possibly laurel) flowers with crumpled petals. |
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| Figure 5: One half of a divided mud plane showing beautiful brown Salix leaves. |
| An interesting aspect of the site was how the color of the leaf fossils changed with position. At the left side of the site, the color was a very light brown, while near the middle it was a darker shade of brown. About 20 feet from these areas, the fossils are completely black and often incomplete. Presumably, the color is not the same as the original color, although modern angiosperm leaves look remarkably similar to the dark brown fossils after they achieve their fall color. The best quality fossils were these dark brown ones. |
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| Figure 6: The other half of Figure 5, showing virtually identical colors and structure, with no sense of direct or inverse impressions being given. |
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| Figure 7: Beautiful thin Salix leaves. |
The area where these were located was found by Bruce Relihan, who generously shared the find with others. The illustrated specimens are mainly from Bruce's area, and some are very beautiful. Most remarkable is how different these plants are from the coal mine plants. At the coal mine sites, we often find scale tree bark impressions, ferns, and pith casts of giant horsetails. At the Cretaceous site, we mainly found rather normal-looking leaves - no bark impressions and no ferns at all. By this time, many of the Coal Age plants were extinct and had been replaced with more modern-looking species.
| The blacker leaf fossils were more like coal age fossils. These looked like the carbonized remains of the original plants, while the brown ones seemed to have iron deposits replacing the original material. The black fossils seemed more fragmentary, and also more concentrated in random assortments than the brown leaves. In the area where these blacker leaves were found, we also came across what appeared to be lignitized wood. Some of this was layered as in a coal seam. |
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| Figure 8: Small mud slab showing a mix of black and brown Salix leaves. |
The fact that the fossils were found in clay, and not rock, is certainly interesting. It is difficult to understand this, and it suggests that the area where these leaves lie has not changed much during the past 85-90 million years. If it had been under water, there would presumably have been more deposition over the area and conceivably the clay might have solidified under pressure. Jim thinks the site possibly represents an upland bog in the process of being filled in with fine-particled sediment.
Note that it is also possible to find Coal Age Alabama fossils in clay, as Jim notes on page 65 of his book. The distinctive color of the clay where the fossils were found helped to tell us where to look. Just across the street from the site, we found mostly a reddish clay with a presumably high iron content. However, this clay included no fossils. The gray clay was more homogeneous than this reddish clay, and provided high quality fossils.
Cleaning clay fossils is another issue. With shale, you can simply wash off dirt or scrub off mud with a brush. With clay fossils, washing has the risk of damaging the fossils. The procedure I used to clean the specimens I brought home involved using an air blower usually used to blow dust off of photographic negatives, followed by gentle brushing with a small paintbrush. Even after this, the long-term storage of such fossils may require something extra. When extracted from the ground, the mud was a little wet, but after a while it becomes dry and more brittle. The best time to extract these kinds of fossils is when they are a little wet, because then the mud breaks apart into planes a lot like shale. After drying this might not work. Jim recommended that after the specimens are completely dry, it might be worth placing them into a 50% Elmer's glue for long-term preservation. Jim notes that the clay to be preserved in the Elmer's solution needs to be very close to dry when the solution is applied through soaking for 5 - 10 minutes, otherwise the surface may appear cloudy. He recommends that excess solution be then gently dabbed off the leaves themselves, and further that the specimens should be dried thoroughly before much handling.
In summary, this was a very interesting field trip for the BPS. It was interesting to venture into new territory in Alabama's past, and in particular to focus on the plant life, rather the marine life, of Alabama Cretaceous history. Thanks to Jim for his excellent book and for taking us to the site! I also thank Jim for comments on this report that improved its accuracy.
--Edited by Vicki Lais
July 1, 2000 - Cretaceous Fossils, Sumter Co, AL
This report (installed on Sept. 27) is late because of the month-long trip to South Africa that I took from mid-July to mid-August. As a result, I can only roughly describe what the BPS did this day. There were three sites in Sumter County that were visited, all well-known and previously visited by the BPS.
| There are numerous Late Cretaceous chalk exposures in Sumter Co. One of these is found in a field near Livingston, and includes numerous shells, shell fragments, and other fossils (see Figures 1 and 2). The site is visited annually by various groups, and is known for the tiny echinoids (Boletechinus mcglamerii) which can be found there. Several were found on this day, one of which is shown in Figure 3. |  |
| Fig. 1 - BPS members and guests collecting Late Cretaceous marine fossils. |
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| Fig. 2 - Close-up view of a small part of the outcrop, showing numerous shells and shell fragments. The whole area shows a similar distribution of fossils. |
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| Fig. 3 - One of the small echinoids this site is famous for having. The echinoids are called Boletechinus mcglamerii, and are named for one of Alabama’s state paleontologists, Winnie McGlamery, according to Dave Kopaska-Merkel. |
| One of the highlights of the visit was the apparent fossil "claw" held by Alan Collins in Figure 4. The interpretation as a "claw" is not clearcut , however. Dave Kopaska-Merkel (Geological Survey of Alabama) suspects the piece could also be the hinge of a large oyster. |  |
| Fig. 4 - Possible claw (or, alternatively, the hinge of a large oyster), held by Alan Collins. |
| Figure 5 shows a general mix of the types of fossils found at this site in abundance, including internal molds of bivalved mollusks, steinkerns, small scallops, and oyster shells. Larger oyster shells of the genus Exogyra are also found. I originally thought the internal molds were of brachiopods, but Dave Kopaska-Merkel notes that brachiopods have calcite shells while many mollusks have aragonite shells. We mostly see internal molds of these bivalve mollusks because aragonite is much more susceptible to dissolution. |  |
| Fig. 5 - A sampling of the fossils from the site, including oyster valves, internal molds of bivalve mollusks, steinkerns, and a small scallop shell. |
After spending more than an hour at this site in the intense heat, the BPS went to a site on the Tombigbee River where fossils around the K-T boundary are exposed (see Figures 6 and 7). The K-T boundary is the boundary between the end of the Cretaceous period and the beginning of the Tertiary period of Earth history. The site is well-studied and the personal favorite I have heard of Dr. Charles C. Smith of the Geological Survey of Alabama. Dr. Smith has written articles about the site and has published a stratigraphic profile showing the connection between the Late Cretaceous Prairie Bluff Chalk and the overlying Tertiary Clayton Formation. Once we arrived at the site, Dr. Andy Rindsberg (also of the GSA) gave the BPS a brief discussion of the significance of the site and what we could expect to find there. After spending a month in South Africa where fossil collecting is highly regulated, I am, in retrospect, surprised that we are allowed to collect at this site. Still, it was a great pleasure to do this and extremely educational.
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| Fig. 7 - View of river facing in opposite direction from Figure 6. |
On looking at the boundary, one readily notices that the fossils below are different from the ones above. Figures 8 and 9 show some of the lower fossils while Figure 10 shows the upper fossils. Oysters from below include Exogyra costata, while those from above include Ostrea pulaskensis ("pulies" for short according to Andy Rindsberg). I think the pulies are the small gray oysters in Figure 10. Figure 9 shows some gastropods, internal molds, and a fragment of a cephalopod shell that I at first thought was a crinoid stem. Also, Figures 8 and 9 show strange fossils, probably connected with large bivalve mollusks, that have a "brain matter" look. According to Dave Kopaska-Merkel, sponges bored into the aragonitic shells of the bivalves, and their borings become filled with calcitic mud. Later, the aragonite dissolved, but the filled borings remained and these preserved the general form of the shells. |
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| Fig. 9 - Cretaceous fossils from closer to the river, including gastropods, internal molds of bivalve mollusks with holes due to boring sponges, and a fragment of a cephalopod shell. |
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| Fig. 10 - Tertiary fossils from the light gray area, just above the K-T boundary in Figure 6. The small gray shells are Ostrea pulaskensis. |
| The third site the BPS had planned to visit was the oyster fields in the Belmont area. I did not attend this part of today’s trip, but I have been there before, and show in Figures 11 and 12 photographs I took two years ago. The site is absolutely remarkable in the large numbers of giant Exogyra and Pycnodonte oyster shells. A variety of shells are found at this site and are summarized in a pamphlet provided by the GSA. |  |
| Fig. 11 - A field of Late Cretaceous oyster shells, near Belmont, Alabama. |
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| Fig. 12 - A close-up of a typical area in one of the above fields, showing shells mainly of the genera Exogyra and Pycnodonte. |
In summary, this was a very pleasant and interesting field trip for the BPS. Given how much time many of us have spent at the Union Chapel Mine collecting tracks and plant fossils recently, today’s trip was a nice break from the strip mine rock piles. Thanks to Dave Kopaska-Merkel for comments and revisions to this belated report!
February 21, 1999 - Sumter & Marengo Co, AL
Richard Thurn of the University of West Alabama led the group of 18 members on an excellent day-long field trip to several sites in Sumter and Marengo counties. He started the day inside with a showing and explanation of the various fossils in the display cases at the science building on the campus of the University. The next two stops were at roadside chalk gully formations easily accessible and illustrative of the variety of fossils in the area representing Late Cretaceous snails and oysters.
The third stop was an optional one which everyone took advantage of: a trip to Moscow Landing on the Black Warrior/Tombigbee River, site of an outcropping of the K-T boundary. The chalk on the river bank was very slippery due to the recent rains, but, with the help of Richard's "always take it along on field trips" handy-dandy rope, the attendees was able to get to descend to the river's edge and to observe the K-T boundary. They also spent time collecting fossils in the Late Cretaceous and a few fossils from the Tertiary.
The last stop also was an optional one which 8 people took advantage of: a stop at a road cut on Highway 28 in Marengo County near Jefferson, Alabama. At this site there is an outcropping of the Tertiary and farther down the road there is an outcropping of the Late Cretaceous. The interesting feature of this site is that in between the two areas, there is a good outcropping of the K-T boundary. Additional collecting was done in the Cretaceous layers with everyone finding a good variety and quantity of representative fossils.