OHIO SHALE

The Ohio Shale is a ~600’ to >2000’ thick, Upper Devonian unit of mostly dark shales. It is extensively exposed in an outcrop belt extending from northeastern Ohio to central Ohio to southern Ohio, and into Kentucky. Correlative units are present elsewhere in the Appalachian Basin (Chattanooga Shale), the Illinois Basin (New Albany Shale), and the Michigan Basin (Antrim Shale).

In northeastern Ohio, the Ohio Shale is subdivided into three readily recognizable units: a basal Huron Shale Member (black shales), a middle Chagrin Shale Member (soft gray shales), and an upper Cleveland Shale Member (black shales).

Cleveland Shale Member

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Chagrin Shale Member

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Huron Shale Member

Published biostratigraphic information has indicated that the Frasnian-Famennian boundary (= lower Upper Devonian-upper Upper Devonian boundary) occurs somewhere in the Huron Shale Member. Age-diagnostic conodonts found in the Chagrin Shale and the Cleveland Shale indicate a late Famennian age for both of those units (see Zagger, 1989, 1993, 1995).

In northeastern Ohio, a thin pyrite bed occurs immediately above the Chagrin Shale-Cleveland Shale disconformity. It is called the Skinners Run Pyrite Bed.

The Ohio Shale is sparsely fossiliferous in general, but a relatively diverse biota has been recorded that consists of invertebrates, vertebrates, plants, and microfossils. The most famous Ohio Shale fossils are arthrodire placoderms and sharks from the Cleveland Shale.

References

Zagger, G.W. 1989. Age and origin of the Skinners Run Pyrite bed, Cuyahoga County, Ohio. Ohio Journal of Science 89(2): 9.

Zagger, G.W. 1993. Preliminary conodont biostratigraphy of the uppermost Famennian Ohio Shale in northeast Ohio. Geological Society of America Abstracts with Programs 25(3): 92.

Zagger, G.W. 1995. Conodont Biostratigraphy and Sedimentology of the Latest Devonian of Northeast Ohio. M.S. Thesis. Case Western Reserve University. Cleveland, Ohio, USA. 112 pp.

CLEVELAND SHALE

The Cleveland Shale Member is the uppermost unit of the Ohio Shale. It is typically a blocky-weathering black shale unit. In northeastern Ohio, the lower Cleveland Shale consists of interbedded gray shales and black shales with relatively common siltstone beds. The lower Cleveland Shale in northeastern Ohio is distinctive enough that a separate stratigraphic name has been proposed for it, the Olmsted “Member”. This name is not recognized by the Ohio Geological Survey.

The Cleveland Shale disconformably overlies soft gray shales of the Chagrin Shale, and is conformably overlain by gray shales, siltstones, and minor fine-grained sandstones of the Bedford Shale.

The Cleveland Shale is late Famennian in age (near-latest Late Devonian).

EUCLID CREEK Section

The most easily accessed locality in the Cleveland area for seeing the base of the Cleveland Shale is a small creek cut along the western side of Euclid Creek Parkway, very near Euclid Creek (northern part of the town of South Euclid, northeastern Cuyahoga County, northeastern Ohio, USA). (GPS: 41° 32.611’ North, 81° 31.647’ West)

This pic shows the Chagrin Shale-Cleveland Shale contact. The soft gray shales in the lower half of the photo is the uppermost Chagrin Shale. The black, blocky-weathering shales above are the basal Cleveland Shale. The contact (disconformity) is sharp and planar at this locality.

The closeup of the Chagrin-Cleveland disconformity here shows a thin, “rough”-looking layer at the base of the Cleveland. This is a pyrite-rich basal lag called the Skinners Run Pyrite Bed.

The basal Cleveland Shale here consists of finely laminated black mudshales. Fossil fish have been found at this locality.

On the eastern side of Euclid Creek Parkway is Euclid Creek itself, which has a complete, well-exposed section of the Cleveland Shale.

Here we see a group of geologists heading toward Euclid Creek, about to spend a couple of hours wading in Euclid Creek to examine a section of the Cleveland Shale. (The Cleveland Museum of Natural History has permission to bring groups of geologists into Euclid Creek.)

Joe Hannibal, a paleontologist at the Cleveland Museum of Natural History, is an expert on the stratigraphy and paleontology of northeastern Ohio’s Cleveland Shale unit. He has led several geology field trips into Euclid Creek.

Here’s the Chagrin Shale-Cleveland Shale disconformity exposed in a creek-side cliff along Euclid Creek. The Chagrin is the soft gray shales below. The Cleveland is the blocky-weathering black shales above.

A nice waterfall occurs where the Chagrin-Cleveland contact crosses Euclid Creek. Many of the waterfalls in Euclid Creek are at stratigraphic boundaries.

The Cleveland Shale along Euclid Creek (& at other localities in the Cleveland area) has two lithologically distinctive units: a lower interval of interbedded gray shale & black shale with relatively common siltstone beds; and an upper interval of almost entirely black shale. The lower unit is locally called the “Olmsted Member”.

The lower half of the pics above & below shows the Olmsted Member (= lower Cleveland Shale), with the “true” Cleveland Shale above. The Olmsted-Cleveland contact is a sharp & planar, occuring at the base of the blocky-weathering black shales.

The photos below show well the interbedded black shale-gray shale nature of the Olmsted “Member” of the lower Cleveland Shale.

The Cleveland Shale is sparsely fossiliferous, but fossil remains can be found. Below is a flattened, carbonized plant on weathered black shale talus found on a gravel bar in Euclid Creek. Some fossil plant stems (“trunks”) found in the Ohio Shale are 5 feet long.

The upper Cleveland Shale is a blocky-weathering black shale succession that often forms cliffs along creeks (true in northeastern Ohio & central Ohio).

The photos below show a Euclid Creek waterfalls going over the near-uppermost Cleveland Shale.

Above & below: black shales of the upper Cleveland Shale along Euclid Creek. The exposure below shows a “ribby-weathering” pattern to the Cleveland Shale. This rhythmic deposition was probably influenced by long-term paleoclimatic cyclicity (Milankovitch cyclicity?).

The Cleveland Shale is conformable with the overlying Bedford Shale. The Cleveland-Bedford contact is about one-third of the way from the bottom of the photo below, about where the first prominent brownish siltstone bed occurs. This pillar occurs a little north of the Monticello Blvd. bridge over Euclid Creek.

The thicker quartzose siltstone beds at the top of this weathered pillar represent the Euclid Siltstone, variously called a member of the Bedford Shale or a facies of the Bedford Shale.

The Bedford Shale & the Euclid Siltstone are late Famennian in age (near-latest Late Devonian).

DOAN BROOK Section

The Doan Brook section is located on the western side of Cleveland Heights, northeastern Cuyahoga County, northeastern Ohio, USA. The section consists of creek-bank exposures that expose the upper Chagrin Shale, the entire Cleveland Shale, the Bedford Shale, and the Euclid Siltstone (all upper Famennian Stage, near-uppermost Upper Devonian).

John Strong Newberry first named the Cleveland Shale in the late 1800s based on the Doan Brook section. The section is not spectacular, but it is still available for examination & collection. Like other sections, the Cleveland Shale at Doan Brook consists of finely horizontally laminated black mudshales. The fissility of these shales results in very thin shale chips upon weathering.

ROCKY RIVER Section

A nice section of Cleveland Shale is found along Rocky River, which flows north toward Lake Erie. The has formed a decently incised valley. The Cleveland Shale is well exposed in rivercuts near the confluence of Rocky River and its West Branch at Cedar Point, northern side of Cedar Point Road, a little west of Cleveland-Hopkins Airport, western Cuyahoga County, northeastern Ohio, USA; GPS of site: 41° 24.429’ North, 81° 53.259’ West. This cut is part of Cleveland’s city park system - Rocky River Reservation.

The Cleveland Shale Member (upper Ohio Shale) here consists of dark, “ribby”-weathering, fissile shales. Both the “Olmsted Member” and the “true” Cleveland Shale are exposed here.

Looking ~W. River is flowing toward viewer.

Looking ~SW. River is flowing to the lower right.

Looking ~NNE. River is flowing away from viewer & to the right.

Looking ~N. River is flowing away from viewer.

In addition to dark fissile mudshales, the Rocky River section also has some cone-in-cone limestone beds. The hard bed shown in the pics above & below is a cone-in-cone limestone horizon. Cone-in-cone beds are thought by some to be pressure solution features, but no geologist knows for sure how they form. These also occur in the Ohio Shale of central Ohio. In places, they can be seen to bifurcate or trifurcate laterally, and they are not always congruent with the shale bedding above & below.

The three photos below show the front & back of a hand sample from the cone-in-cone limestone bed shown above. The first 2 photos below show the cone-in-cone geometry (see “V”s in 2nd pic).

Sample is 20 mm tall & 26 mm across.

The above is the flip side of the same cone-in-cone limestone sample. Each transverse line represents a cone structure nested inside another cone structure.

The Rocky River section of the Cleveland Shale is world-famous, principally because a large arthrodire skull (Dunkleosteus terrelli) was excavated here in 1928 by Peter Bungart (see photo of original excavation). (See stylized model of arthrodire below.)

Only one fish fossil was found at Rocky River during my short visit on 22 April 2006 - a fossil fish scale on a chip of dark shale (see pic below).

Fish scale measures ~3 mm diagonally.

Stylized reconstruction of an arthrodire placoderm (inspired by Dunkleosteus terrelli). The lower fins of arthrodires are now known to have been much longer than is depicted here.

Dunkleosteus terrelli model on display at the Cleveland Museum of Natural History (CMNH) in Cleveland, Ohio, USA.

SKINNERS RUN PYRITE BED

The Skinners Run Pyrite Bed is a pyrite-rich basal lag at the base of the Cleveland Shale Member of the Ohio Shale, immediately above the Chagrin Shale-Cleveland Shale disconformity. It is distributed throughout Cuyahoga County in northeastern Ohio, USA. The type section is a series of stream cuts along Skinners Run (a.k.a. West Creek; a.k.a. Little Run) at Brooklyn Heights Village Park, central Cuyahoga County, northeastern Ohio, USA.

The photos above & below show the Chagrin Shale-Cleveland Shale contact (disconformity). The uppermost Chagrin is the gray shale below. The black shale-gray shale beds above are the basal Cleveland (“Olmsted Member”). Right at the boundary is the Skinners Run Pyrite Bed (SRPB), which varies in thickness here.

Here’s a hand sample of the Skinners Run Pyrite Bed. The elongated black spot near the center is a shark tooth. The rounded-squarish black structure at the lower right is a bone fragment. The bed consists of abundant pyrite spheres, pyrite framboids, redeposited pyrite-filled burrows, and other pyritized biogenic debris. Blackish-colored fish bones are moderately common in this bed.

The large black structure in this photo is a decent-sized bone fragment from an arthrodire placoderm, in Skinners Run Pyrite Bed matrix. The pores of this fossil bone are filled with brassy-colored pyrite.

The Cleveland Shale is world famous for its fossil arthrodire placoderms (Animalia, Chordata, Vertebrata, Placodermi, Arthrodira). The most famous arthrodire found in the Cleveland Shale is Dunkleosteus terrelli.

Replica of an infragnathal (lower jaw bone) from an arthrodire placoderm (Cleveland Shale, northeastern Ohio, USA). Replica produced by the Cleveland Museum of Natural History (CMNH).

Where the Skinners Run Pyrite Bed (Chagrin-Cleveland contact) crosses the creek, it forms a small waterfalls. The gray shale of the Chagrin is easily seen through the water in the lower part of the photos. Dark-colored shales of the Cleveland Shale occur above the SRPB at creek level, and continue up the creek-side cliff in the background.

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