Fencepost limestone


Fencepost limestone, Post Rock limestone, or Stone Post is a stone bed in the Great Plains notable for its historic use as fencing and construction material in north-central Kansas resulting in unique cultural expression. The source of this stone is the topmost layer of the Greenhorn Limestone formation. It is a regional marker bed as well as a valued construction material of the late 19th and early 20th centuries in Kansas. This stone was very suitable for early construction in treeless settlements and it adds a notable rust orange tint to the region's many historic stone buildings. But the most famous use is seen in the countless miles of stone posts lining country roads and highways. This status gives rise to such regional appellations as Stone Post Country, Post Rock Scenic Byway, and The Post Rock Capital of Kansas. This rustic quality finds Fencepost limestone still used in Kansas landscaping today.

Background

The Fencepost limestone is a relatively thin, resistant, and recognizable bed of stone that forms the middle range of bluffs in the Smoky Hills region of north-central Kansas, ranging from the Nebraska border near Mahaska, Kansas, about 200 miles southwest to within a few miles of Dodge City, Kansas, where it is seen in the buildings of the farms and cities of the area.
The Fencepost limestone is unique for its contribution to the cultural landscape of Kansas, appearing as miles of stone fence posts lining austere fields and pastures. The drier climate coupled with the grazing habits of buffalo and the prairie burning practices of Plains Indians meant that the first European settlers to the region did not have enough local timber for construction and fencing. However, a suitable, easy to quarry stone was available. No other "area of the world has used a single rock formation so extensively for fencing."
The source of this tough chalky limestone is the widespread and persistent topmost bed of the Greenhorn Limestone. The Fencepost limestone is the exceptionally wide ranging marker of the conformal contact between the Pfeifer Shale, which is the uppermost member Greenhorn Limestone below, and the Fairport Chalk, the lowest member of the Carlile Shale formation above.
This stone was first scientifically mentioned as the "Fencepost limestone" by F. W. Cragin in 1896 when he originally attempted to name it Downs limestone. The Fencepost bed has also been called Benton limestone for its prominence as a marker for the now generally obsolete Benton Group classification.
Reporting on the "Fence-Post Horizon" in 1897, W. N. Logan noted fifty thousand stone posts in Mitchell and Lincoln counties alone. Since then, the informal name "Fencepost limestone bed" has come to have a stature equal that of the adjacent members. The greatest use of the Fencepost limestone, for fencing and building, was from 1884 to 1920.

Uses

Fencing

On the early open ranges of the Kansas frontier, typically, the burden was on the farmers to protect their crops from free-range and driven cattle.
Common practice of earlier frontier farmers in the East and the in Old Northwest Territory was to use the timber cleared from the new fields for split-rail fencing. But, at the time of American settlement, Kansas was largely treeless. Owing to the intensive grazing of millions of buffalo, as well as to the particular land management of the 19th century Plains Indians, the small amount of timber that was available was confined to river banks.
In eastern Kansas, abundant, large, flinty stones could be collected from the hills and fields to build long stone walls. However, in several counties in central Kansas, where most of the rock was soft shale or chalk, a practical alternative was available; one particular bed of stone had ideal properties to substitute for wood fenceposts. Forming the posts required some labor and the posts are heavy – – but, with the recent invention of barbed wire, only one post was needed every or so.
The relative ease of forming durable stone posts from Fencepost limestone is not to be neglected in the context of a treeless frontier farming economy. The bed is not deeply buried, requiring relatively little effort to uncover. Fresh exposed slabs are soft and easy to work; the stone hardens only after removal from the shale and drying out in the open air. Curiously, the natural bed is not jointed; so several long rows of complete posts or large slabs can be split off of a large exposed sheet of limestone without breaking. No heavy equipment is required, and community blacksmiths could easily make serviceable tool sets.
Lines of the oldest stone posts have stood in place for well over a hundred years. But in the 1920s, rural labor costs had increased to the point that stone posts could no longer be made and installed as cheaply as mass-produced steel and treated wood post. As stone post fences are removed or are replaced with steel or wood post fences, the stone posts are usually collected for reuse, often in landscaping, but, because of their greater weight and strength, they are also used as corner posts in new fences.
Currently, the Permian top-ledge Cottonwood Limestone is commercially split and shaped to superficially resemble the Kansas Stone Posts. Examples are seen in the Kansas Veterans' Cemetery at Wakeeny. These "faux" post rocks can be detected by their all-white color, presence of fusilinids, larger drill size, absence of iron staining, and absence of Cretaceous mollusks.

Quarrying

Kansas' stone fenceposts were manufactured from bluffs that had been cut by regional rivers through the Blue Hills. On these hills, the unweathered limestone bed can be exposed by removing shallow overburden. Quarrying leaves a long trench from in width in which water can collect after a rain.
Traditionally, these posts were manufactured in-place by drilling lines of holes directly into the freshly exposed, soft limestone bed. Then feathers and wedges were set into the holes and the wedges hammered to split the posts off. The posts were generally used with the rough quarry face finish; so the drilled holes usually remain visible. After farmers began making these Stone Posts, building blocks for construction were quarried from the bed in the same way, so the drill holes the quarry faces are often visible in buildings unless removed by hammered or pitched face finishing.
Traditional hole splitting can still be used in Fencepost limestone quarries remaining today, especially if the rustic finish is desired; however, saw cutting of the limestone in-place is also done, depending on the product finish desired.

Construction stone

A regional construction material, Fencepost limestone appears yellowish to buff with orange to brown tinted streaking, sometimes weathering to nearly white in color when openly exposed for many decades. Use of this particular limestone bed of for construction slightly preceded the realization that it could be used for fenceposts. First homes for settler farmers on the treeless prairie were typically dugouts and sod houses. Commercial dimensional lumber was an expense ill-afforded by settler farmers, even more so where it had to be shipped in from out-of-state. The Greenhorn Formation has many limestone beds, but most are too thin, too soft, or too fragile to be used in permanent buildings. The Fencepost bed, however, has convenient thickness and is easily worked into tough, durable, and decorative building blocks. Its resistance to erosion compared to the overlying Carlile Shale results in it forming broad bluffs or plateaus; so, it is abundant and relatively easy to quarry. In an age of kerosene lamps and coal stoves, it was a fireproof alternative to scarce timber.
It was normal to lay the Fencepost limestone with its bedding plane horizontal; so, fossils can only be seen in thin cross section in the walls of almost all buildings built with Fencepost limestone. However, when laid in this stretcher fashion, the characteristic red-orange or brown lines are displayed. Many buildings have the limestone left with quarry face, many showing the holes drilled for splitting. Some buildings may have hammered finish, others pitched. The Ellis County courthouse is a large example of sawed, stretcher course Fencepost limestone. It is uncommon to see this stone set in walls in vertical "shiner" orientation, but such an orientation can show off the fossil content. An example of this is the built in 1949; here the Fencepost limestone was cut into slabs and set vertically; and its index fossil, Collignoniceras woollgari, is displayed in well-preserved cross sections in a few places.
Use of Post Rock in buildings declined in the 1920s as concrete came into greater use. Resurgence occurred in the use of the stone in public buildings in the 1930s as these were built as WPA projects. Use of the Fencepost limestone continued to later times through very few examples, more likely to use sawn and shiner-laid stone than the historic buildings. Later examples include the Guaranty State Bank, Beloit, 1958, and the Gross Field House and Coliseum, FHSU, 1960s and 1975.

Landscaping

Nostalgia for the stone post fencing, as well as the unique coloration and rustic quarry facing of the stone, finds the posts and the source limestone used in modern landscaping in locations as far away from the outcrop as people are willing to haul it. Commonly, original posts removed from demolished or replaced stone post fences are repurposed. Also, blocks of Fencepost limestone are recovered from collapsed or demolished buildings. Fresh stone is also quarried for landscaping and novelty products.

Sculpture

Roughly only a foot thick, fine-grained Fencepost limestone has seen limited use in public sculpture. However, the ability to make large stone slabs has seen the adaptation of the bed to bas-relief. The bas-relief technique permits the artist to manipulate the variations of tone within the slab. Past Victoria sculptor John Linenberger used this technique in a carving on the convent adjoining the St. Fidelis Church, carving through the brown layer to expose the lighter interior stone. Hays sculptor Peter "Fritz" Felten, Jr., used the same technique in plaques mounted in the sloping pedestal of his Monarch of the Plains at the Fort Hays State Historic Site.
More recent Pete Felten sculptures, Train Hwy and Pteranodon, demonstrate use of the tones of the Post Rock, which locally can have outer brown layers with a lighter inner core. In Pteranodon, displayed at Exit 161 on Interstate 70, the head is carved from brown Fencepost limestone, oriented so that the dinosaur’s crest and bill are the exposed lighter-shade inner core of the limestone.
The multi-tone effect is also seen in Stone Post slab sculptures displayed at the Fossil Station Convenience Store at Russell, adjacent to exit 184 of I-70. The weathered Post Rock used here is particularly white, but with a blackened top layer and red-toned inner core. One bas-relief carving is of a Buffalo, the shallow cut into the blackened layer meant to suggest the dark hide of the bison. The other carving is of the Hereford breed of cattle, a breed with red body and white face; the stone is carved so as to reveal the redness in contrast to white face and horns.
California sculptor Fred Whitman has carved several sculptures from antique Stone Posts. Near Lucas, Fred has carved faces of four Lucas residents into four Stone Posts standing in fences along the Post Rock Scenic Byway.

Hydrocarbon exploration

The Fencepost limestone has a particular usefulness in hydrocarbon exploration. While it is certainly too thin to be a viable hydrocarbon reserve, even for fracking, the Fencepost is located close to known producing layers, and has a particular quality that is useful in locating them. The Fencepost shows a unique "double-peak" or "prolonged kick" in electric well logs, and can be used to locate reserve formations in several states north and west of Kansas. Consequently, the Fencepost bed has been used as a datum in charting subterranean sections of rock lying under the High Plains.

Lithology

Like several of the thin limestones of the upper Greenhorn and lower Carlile, the Fencepost bed is a shell-rich, coccolithic, chalky limestone; however, this bed is hardened by a crystalline matrix of sparry concretory calcite so that it is more resistant to weathering and erosion. Unexposed, the Fencepost is olive-gray, weathering to light grey on exposures. When well exposed, it lightens to buff and yellow-orange with one or more orange, rust, or brown streaks. This coloration is due to limonite, an oxide of iron, and is a trace effect of volcanic activity in the Sevier orogeny. Across the range of the outcrop, the limonite weathers out in a variety of shades and patterns as seen the collage on the right. This coloration varies from barely visible to one, two, or more shaded zones. The exposed stone often weathers out a parting seam, also seen in the collage, used split the limestone into thinner slabs for flagging. Limonite is often concentrated along the parting seam, sometimes to the point of forming small nodules or concretions. The top and bottom of the post's bedding can blacken with prolonged exposure to the weather above ground.

Stratigraphy

The regional reputation of the Fencepost limestone bed belies its physical size and relative rank in the rock layers associated with the lower Colorado Group.
The majority of the particular Western Interior Seaway sequence above and below the Fencepost bed, a group of layers originally called the Benton Group, is characterized by gray, dark gray, or blue-gray flaky shales. This is in contrast to the red and yellow massive sandstones and clays of the Dakota Formation below and the massive buff limestone and chalk beds of the Niobrara Formation above. Distinct from most of the overlying Carlile Shale formation, the members of the Graneros Shale and Greenhorn Limestone formations feature many thin, repeating "rhythmic" layers of limestone and shale. This feature is well displayed by the Jetmore Chalk and Pfeifer Shale members, but is seen in some form in all members and extends above the Fencepost bed into the Fairport Chalk member of the Carlile.
So, the Fencepost limestone can be seen as just one thin chalky limestone bed out of dozens of superficially similar, thin chalky limestone beds. It is also not the only such bed in that strata to have an orange streak. It is not even the thickest limestone bed in those formations. However, it is still thicker than most of the other local limestones and it is particularly most resistant to weathering and so it forms the tops of the central ridges and plateaus of the Smoky Hills.

Benton limestone

The Fencepost bed has also been called Benton limestone for its prominence as a marker for the now generally obsolete Fort Benton Group classification. Before the 1930s, the chalky shales between the Dakota and the Niobrara formations were called the Fort Benton formation or Benton Limestone. As noted, the greyish, chalky shale with great many thin limestones between those formations stood in sharp contrast to the massive orange/red sandstone below and the massive buff limestone and chalk above. It was this distinctiveness that led to the initial classification of this sequence as the Benton Group with the Fencepost limestone as the central marker. There being only one limestone in the Benton generally suitable for construction use, and that one also being the only one containing abundant Collignoniceras woollgari fossils, when any literature describes a building as built out of "Benton limestone", it should be taken as being the Fencepost limestone.

Paleoenvironment

Based on the consistency of the structures and fossils above and below the Fencepost bed, the general depositional environment of the Fencepost is considered to be the same as both the Fairport Chalk above and the Pfeiffer Shale below. In fact it has been commented that bed does not really mark any real, overall change in species or environmental patterns.
These layers are interpreted as representing the maximal extent and depth of the Greenhorn cycle of the Western Interior Seaway, with the Fencepost practically marking the central event. Depths are estimated to be only, venturing into the Mesopelagic depths, perhaps even to or more. This was a place and time of open seas with little direct sedimentary or nutrient influence from land, although petrified sunken driftwood is not extremely rare within the Fencepost. There was generally limited oxygen at the seafloor, and bottom currents were weak, but sufficient for tidal feeders. The primary source material for the chalky deposits was remains of the productive algae and plankton of the warm sea that precipitated onto the sea floor. The resulting carbonate mud supported hardly any foraminifera. Only bivalves that were adapted to "floating on the mud", or those sessile, tidal feeding creatures like that could attach to such shells, could thrive on this bottom. Consequently, the floor itself was frequently covered with mollusks, especially species of Inoceramus, ranging in size from few millimeters to well over a meter, themselves encrusted with oysters.
There were several species of free-swimming ammonites, Baculites, and belemnites, which serve as index fossils within the members of the Greenhorn and Carlile formations. Abundant fish populations of the Greenhorn sea supported the largest of predators; great fish, sharks, and reptiles alike, including plesiosaurs, mosasaurs, elasmosaurs, and Xiphactinus.

Fossils

More than any other rock bed in of the lower Colorado Group, the Fencepost makes durable displays of marine fossils of the Cenomanian and Turonian ages; particularly in shiner-laid masonry, fenceposts, landscaping pieces, and flagging. Visible fossils present in the Fencepost limestone bed are the same invertebrate fossils of the Pfeifer Shale member, which also continue into the lower Fairport Chalk member. The presence of these particular index fossils species helps identify the Fencepost bed as distinct from the limestone beds of the Fairport Chalk above and the Jetmore Chalk member below. The most easily spotted fossil is the Inoceramus labiatus, including a broad/flat form subpopulation that appears in the vicinity of the Fencepost. Other common Fencepost fossils include Inoceramus cuvieri Sowerby, Collignoniceras woollgari, Baculites yokoyamai Tokunaga and Shizimu, and Pseudoperna bentonensis

Geological context

The Fencepost bed is a strong marker bed rising almost to member status in significance.
Generally the outcrop is easy to locate and identify: The outcrop of the Fencepost is consistently found forming a bench, bluff, or plateau; fine examples are seen in the bluffs lining the valley at and downstream of Wilson Lake. There is a specific, reliable sequence of shale, limestone, and bentonite marker beds below the Fencepost. While the layers above the bed are equally consistent, they are usually set back from the outcrop by a good distance, often spread out over miles. As such, geologists were naturally encouraged to define the Fencepost as a convenient, upper limiting bed of a formation; the rock layers that formed the steep bluff beneath the Fencepost were named one formation, while the rock layers that formed the low rolling hills above the Fencepost were named as another formation.
So, the Fencepost has been mapped as the topmost bed of both the Pfeiffer Shale member as well as at the bottom limit of the Fairport Chalk member. However; either lithostratigraphically or biostratigraphically, there is little other reason to define members or formations with the Fencepost as a boundary; the lowest several feet of the Fairport Chalk is remarkably similar to the highest several feet of the Pfeifer Shale:
However, along the steep bluffs lining the Smoky Hill and Saline rivers, the Pfeifer and Jetmore are exposed close by the Fencepost, while all but the first of the Fairport is usually laid out some distance from the ledge, often miles.

Identification

The Fencepost limestone can be identified in the field and in buildings by the unusual character and content of the rock itself; but also by understanding of features of the general geology of the locations, especially the marker beds that prove the identity of the Fencepost bed.
The "Fencepost" limestone forms a conspicuous ledge in the Blue Hills subregion of the Smoky Hills. Both above and below the Fencepost are zones of unusual, flatten spheroid or ovoid limestone concretions. About 6 feet below the Fencepost is a small but pervasive marker bed that unambiguously identifies the Fencepost limestone above; the "Sugar Sand", a bentonite seam filled with a "sand" of calcite crystals.
Other nearby beds
In the field, other nearby limestone beds with similar visual features can be confused for the Fencepost limestone; moreover, some of these limestone beds have also seen limited use in fencing or building. However, these are also prominent marker beds and their features can help locate and identify the Fencepost by comparison.
There are great many sights of Stone Post Country, outcrops, fences, and buildings, that are available to auto touring.

Interstate 70

passes right across the center of Post Rock Country. The stone posts are seen in the countryside some west of Salina as this highway enters the scenic Dakota Escarpment, now topped by the Smoky Hills Wind Project. Sights of stone fenceposts and stone buildings constructed of the Fencepost limestone are common from there westward some 70 miles to just past Hays. Side trips can be made into numerous Post Rock communities. From mile 223 to mile 195, among the wind turbines, the Interstate threads the level of the Fencepost outcrop. Between Exit 221 and Exit 219, Avenue B is a frontage road with exposures of Fencepost limestone. The thin bentonite marker can be seen below the Stone Post bed here. Fragments of Inoceramus labiatus, Inoceramus cuvieri, Collignoniceras woollgari, and Baculites yokoyamai can be seen. Please do not collect from this exposed public location.

Post Rock Scenic Byway

The Post Rock Scenic Byway passes between the Post Rock communities of Wilson and Lucas. From Wilson, the highway rises to the Fencepost outcrops, then drops down into the colorful Dakota Hills south of the lake. Crossing the dam, the views include the Fencepost bluffs of the Blue Hills lining the Saline Valley.
Now featuring a folk art community, Lucas is also long known as the location of Samuel P. Dinsmoor's Cabin Home and Garden of Eden statuary garden. Rather than the conventional stone block masonry courses, Dinsmoor envisioned constructing homes with "logs" cut from the Fencepost bed, carved to lock together in the fashion of the logs in a log cabin.

U.S. 183

interchanges with Interstate 70 at Hays. Several public buildings, churches, and university buildings in Hays are constructed of Fencepost limestone.
Highway 183 passes no Fencepost limestone north of Hays as there it enters the Fort Hays Limestone region. However, south of Hays, the highway passes the small Post Rock communities of Schoenchen, Liebenthal, and La Crosse. Near Schoenchen, the stone posts were cut from long quarries that followed the bluff along the north of the river. On the plain between the Smoky Hill River and Liebenthal, the Fencepost bed is shallow, and can be seen outcropping in draws along the highway.

Quarry site

U.S. 183 cuts south through an abandoned Fencepost quarry as it approaches the Smoky Hill River bridge near Schoenchen. Just uphill from the quarry, limestone and shale of the Fairport Shale are exposed in the road cut. Facing west from the highway, the quarry is south of the red utility warning signs. The Fencepost makes a poor exposure next to the highway here, mostly having been quarried off of the bluff. At the depth where it would be found in the road cut, it mostly buried. A resistant marker bed of the Fairport Chalk is seen a short distance up the hill, and from the erosion of the shale, this limestone seems to have drawn a lot of attention in the years since this section of U.S. 183 was widened in 1966. On private property, the quarry can be viewed from the fence line along the road cut. A limestone shelf is seen jutting from the old face of the quarry; but, this is not the Fencepost, which would be a bit below the level of the floor under the hillside. This visible limestone is the "limestone above the Fencepost". This limestone is about half as thick as the Fencepost, and can tend to split at a limonite seam; otherwise, it is nearly as durable as the Fencepost and similar in color, and so was used as flagging.

Museum

The Post Rock Museum is located on the south end of La Crosse. Examples of Post Rock populate the park that this museum shares with the Rush County Historical Museum, the Nekoma Bank Museum, and the Kansas Barbed Wire Museum. The Post Rock Museum contains a recreated stone post quarry, assorted quarrying tools used in the area, and a fossil collection.

Operating Stone Post Quarries

Vonada Farms and Stone Company is located north of Sylvan Grove, Kansas. Tours can be arranged, see the Kansas Sampler Foundation pages.
Bluestem Quarry and Stoneworks operates near Lucas, Kansas.

Other communities

Other communities with abundant Fencepost limestone architecture:
Fencepost limestone/Dakota sandstone boundary communities:

Gallery