USA > Missouri > Carroll County > History of Carroll County, Missouri : carefully written and compiled from the most authentic official and private sources, including a history of its townships, cities, towns and villages, together with a condensed history of Missouri ; the Constitution of the United States, and State of Missouri ; a military record of its volunteers in either army of the Great Civil War ; general and local statistics ; miscellany ; reminiscences, grave, tragic and humorous ; biographical sketches of prominent men and citizens identified with the interests of the country > Part 8
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But as soon as the great ocean caldron got cooled down to about 200 degrees Fahrenheit, it was then possible for a very low form of vegetation to exist; and although no fossil remains of the first existing forms of such vegetation have yet been found, or at least not conclusively identified as such, yet graphite or plumbago, the material from which our lead pencils are made, is found in connection with the transition rocks between the Azoic and the Zoolithian ages. Graphite is not a mineral at all, but is pure vegetable carbon, and is supposed to be the remnant carbon of these first and lowest forms of tough, leathery, flowerless sea-weeds. Some small deposits of graphite are reported to have been found in connection with the iron and metamorphic granites of our Pilot Knob island; and that would indicate the first organic forms that came into existence within the boundaries of what now we call the state of Missouri. Just think of it! All North America, except a dozen widely scattered spots or islands, was covered with an ocean that spread its seamy expanse all around the globe; no sunlight could penetrate the thick, dense cloud of vapors
69
HISTORY OF THE STATE OF MISSOURI.
that filled the enveloping atmosphere; according to our English author before cited, this was 600,000,000 years ago, a period which the human mind cannot grasp; but the Almighty Maker of worlds had even then commenced to make the state of Missouri and its living occupants.
The earliest known forms of animal life, a kind of coral-making rhizo- pod (root-footed) called Eozoon Canadense, are not found in Missouri, but are found abundantly in what are called the Laurentian rocks, in Canada and elsewhere. (See chart). It is not to be supposed, however, that the enormous period called the " Age of Zooliths" passed, with forms of ani- mal life existing in Canada, but none in our iron island region, unless we assume that the mineral acidity of the waters coming in contact with this island was so intense as to require all that vast period for its purification sufficiently to permit the existence of the lowest and most structureless forms of protoplasmic matter known to science. Prof. Swallow says, in writing on the Physical Geography of Missouri, "below the magnesian limestone series we have a series of metamorphosed slates, which are doubtless older than the known fossiliferous strata; whether they belong to the Azoic, the Laurentian or Huronian, I am unable to say."
The labors of our different state geologists have not discovered any fossil remains in Missouri lower down in the rock scale than what is called the "Lower Silurian" formations, which form the first half of the " Age of Invertebrates " in the zoic-calendar portion of Prof. Reid's chart. The term "Invertebrates " includes all forms of animal life that do not have a back-bone, such as polyps, mollusks, worms, insects, crustaceans, infusoria, etc. By the time this age (Silurian) had commenced, our lone island had been joined by large areas northward, southwestward, eastward and northwestward, so that there began to be a continent; and several hundred species of animals and plants have been found fossil in the rocks of this period, but they are all marine species-none yet inhabiting the dry land. Our chart shows the Lower Silurian epoch sub-divided into Cambrian, Canadian and Trenton formations; but there are. other local sub-divisions belonging to this period, the same as to all the other general periods named on the chart. The animals of this period were polyps or . coralĀ· makers; worms, mollusks, trilobites, asterias (star-fishes), all of strange forms and now extinct. The trilobite, some species of which are found in Missouri, was the first animal on the earth which had eyes, although there were likewise a great many eyeless species of them; but the fact that any of them had eyes during this age is considered by some scientists to prove that the atmosphere had by this time become sufficiently rarefied to let the sunlight penetrate clearly through it and strike the earth. On the other hand, others hold that this did not occur until after the atmos- phere had laid down its surcharge of carbonic acid and other gases, in the forms of limestone from animal life and coalbeds from vegetable life; that
70
HISTORY OF THE STATE OF MISSOURI.
isi, there was nothing which we would now consider as clear sunshine until the carboniferous period. At any rate, Prof. Dana says of the Lower Silurian, "there was no green herbage over the exposed hills; and no sounds were in the air save those of lifeless nature,-the moving waters, the tempest and the earthquake." Having thus given the reader some idea of the beginnings of land and the beginnings of life in our old, old state, space will not permit us to linger with details upon the remain- ing geological periods. We have compiled the following table from vari- ous writings of our able state geologist, Prof. G. C. Swallow, of the State University :
ROCK FORMATIONS OF MISSOURI.
IGNEOUS ROCKS .- Granite, porphyry, syenite, greenstone, combined with those wonderful beds of iron and copper which are found in the Pilot Knob region.
AZOIC ROCKS .- Silicious and other slates, containing no remains of organic life, though apparently of sedimentary and not of igneous origin.
LOWER SILURIAN- Feet thick.
Hudson river group (3 local subdivisions). 220
Trenton limestone. 360
Black-river and birds eye limestone 75
1st magnesian limestone 200
Saccharoidal (sugar-like) sandstone. 125
2d magnesian limestone. 230
2d sandstone 115
3d magnesian limestone. 350
3d sandstone . 60
4th magnesian limestone 300
Total thickness of Silurian rocks 2035
When the reader remembers that these were all formed successively by the slow process of the settling of sediment in water, he will get some idea of how it is that geology gives such astounding measurements of time.
UPPER SILURIAN- Feet thick.
Lower Helderberg formation 350
Niagara group. 200
Cape Girardeau limestone 60
Total thickness 610
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HISTORY OF THE STATE OF MISSOURI.
DEVONIAN-
Chouteau limestone. 85
Chemung group - Vermicular sandstone and shales. 75
Lithographic limestone 125
Hamilton group.
40
Onondaga limestone (extremely variable).
Oriskany sandstone (doubtful).
CARBONIFEROUS-
Coal measures, consisting of strata of sandstones, limestones, shales, clays, marls, brown iron ores and coal 2,000
In this formation there are from eight to ten good workable veins of coal; and the Missouri basin coal-bearing area is the largest in the world. It comprises the following:
Square miles.
In Missouri
27,000
Nebraska
10,000
Kansas
12,000
Iowa
20,000
Illinois
30,000
Total.
99,000
The Sub-Carboniferous in Missouri is subdivided into:
Feet.
Upper Archimedes limestone.
200
Ferruginous (irony) sandstone 195
Middle Archimedes limestone
50
St. Louis limestone 250
Oolitic limestone. 25
Lower Archimedes limestone
350
Encrinital limestone
500
Total sub-carboniferous 1570
CRETACEOUS .- The Triassic and Jurassic formations have not been found in this state; but Prof. Swallow has classed as probably belonging to the Cretaceous epoch, six different formations which comprise a total thick- ness of 158 feet. He says no fossils have been found to certainly identify these beds, but their geological horizon and lithological characters deter- mine their place in the scale.
TERTIARY .- The beautiful variegated sands and clays and shales and iron ores, which skirt the swamps of southeast Missouri along the bluffs from Commerce to the Chalk Bluffs in Arkansas, belong to this system.
QUATERNARY .- In this Prof. Swallow includes whatis separated under
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HISTORY OF THE STATE OF MISSOURI.
the name of "Recent" by Prof. Dana and others, as shown in the chart. The Quaternary of Missouri is subdivided by Prof. Swallow into ---
Alluvium .. 30 feet
Bottom Prairie. 35
200
Bluff (Loess of other authors).
Drift (altered drift, boulder beds, boulder clay) 155
Total Quaternary formations. 420 $
That brings the succession of geological formations consecutively from their beginning up to the present time; and now our own eyes behold every day the processes of nature going on very much the same as they have gone along through all the unthinkable lapse of time that has passed since Pilot Knob first pushed its brazen brow up above the strange deso- lation of waters when "darkness was upon the face of the deep." And now our next consideration must be, the present aspects of the land sur- face of our state, together with its streams, its .woodlands and its wonder- ful mineral wealth and resources.
MINERAL RESOURCES.
In the extent, variety, and practical value of her stores of mineral wealth, Missouri is not excelled by any other state in the Union. In the fall of 1880 the New York Economist published an article on Missouri, in which it said:
' "The state of Missouri is one of the most remarkable pieces of this earth's surface. Surface indeed! Missouri goes far enough under the surface to furnish mankind with one hundred million tons of coal a year for thir- teen hundred years. Think of 26,887 square miles of coal beds-nearly half the state-and some of the beds nearly fifteen feet thick. With regard to iron, it is not necessary to penetrate the surface for that. They have iron in Missouri by the mountain. Pilot Knob, '581 feet high, and containing 360 acres, is a mass of iron; and Iron Mountain, about six miles distant from it, is 228 feet high, covers 500 acres, and is estimated in the last surveys, to contain 230,000,000 tons of ore, without counting the inexhaustible supply that may reasonably be supposed to exist below the level. There is enough iron lying about loose in Missouri for a double track of railroad across the continent.
" The lead districts of Missouri include more than 6,000 square miles, and at least five hundred points where it can be profitably worked. In fifteen counties there is copper in rich abundance. There are large depos- its of zinc in the state. There is gold, also, which does not yet attract much attention, because of the dazzling stores of this precious metal farther west. In short, within one hundred miles of St. Louis the following met- als and minerals are found in quantities that will repay working: gold, iron, lead, zinc, copper, tin, silver, platina, nickel, emery, coal, limestone, granite, marble, pipe-clay, fire-clay, metallic paints, and salt."
It can hardly be said that gold, silver, tin, platina or emery have been
73
HISTORY OF THE STATE OF MISSOURI.
found in paying quantity as yet, although they are known to exist in some of our mining districts, in combinations with other minerals. Our state board of immigration has published many well prepared and judicious papers on the various advantages and resources of our state, which care- fully avoid making any extravagant or overdrawn statements. They give the real facts as accurately as they could be ascertained up to 1879- 80, and form the most reliable body of knowledge on many matters of state interest, that is now accessible; and from this source we gather the more essential points.
COAL .- The Missouri coal fields underlie an area of about 26,000 square miles. The southern outcrop of the coal measures has been traced from the mouth of the Des Moines through the counties of Clark, Lewis, Shelby, Monroe, Audrain, Boone, Cooper, Pettis, Henry, St. Clair, Bates, Vernon and Barton, into the Indian Territory, and every county north- west of this line is known to contain more or less coal. Outside of the coal fields given above, coal rocks also exist in Ralls, Montgomery, War- ren, St. Charles, Callaway and St. Louis counties, and local or outlying deposits of bituminous and cannel coal are found in Moniteau, Cole, Mor- gan, Crawford, Lincoln and Callaway counties ..
The exposed coal in Missouri includes upper, middle and lower coal measures. The upper coal measures contain about four feet of coal, in two seams of about one foot each and other thin seams and streaks. The area of their exposure is about 8,400 square miles.
The middle coal measures contain about seven feet of coal, including two workable seams, twenty-one and twenty-four inches thick, respect- ively, and one of one foot, which is worked under favorable circumstan- ces, and six thin seams. The exposure of the middle measures covers an area of over 2,000 square miles.
The lower measures cover an area of about 15,000 square miles, and have five workable seams, varying in thickness from eighteen inches to four and a half feet, and thin seams of six to eleven inches.
IRON .- It has been said by experts that Missouri has iron enough "to run a hundred furnaces for a thousand years;" and the ores are of every variety known to metallurgical science. Iron Mountain is the largest body of specular iron and the purest mass of ore in the world. It was forced up through the crust of the earth in a molten state during the Azoic Age of geology. The different ores of the state are classed as red hematite, red oxide, specular or glittering ore, brown hematite or limo- nite, hydrous oxide, magnetic ore, and spathic or spar-like ore (carbonate of iron). Many other names are used to indicate different combinations of iron with other minerals. Some of the iron deposits, instead of comning up in a fused mass from the bowels of the earth, as Pilot Knob, Shep- 5
74
HISTORY OF THE STATE OF MISSOURI.
herd Mountain and Iron Mountain evidently did, were formed by the steam that attended those fiery upheavals, carrying its load of gaseous - matter until it condensed and settled down at different points, and gradu- ally cooled or crystalized. This would occur sometimes in water and sometimes in the air, thus producing the great variety of ferruginous or irony compositions which we now find and utilize. And this mineral steam method of depositing iron and other products from subterranean gases must have occurred in Missouri at different periods of geologic time, and not all during the Azoic. The red ores are found in 21 coun- ties; the brown hematite or limonite iron ores extend over 94 counties, and in 31 of them it occurs in vast quantity.
Shepherd Mountain is 660 feet high. The ore, which is magnetic and specular, contains a large percentage of pure iron. The hight of Pilot Knob above the Mississippi river is 1,118 feet. Its base, 581 feet from the summit, is 360 acres. The iron is known to extend 440 feet below the surface. The upper section of 141 feet is judged to contain 14,000,000 tons of ore. The elevation of Iron Mountain is 228 feet, and the area of its base 500 acres. The solid contents of the cone are 230,000,000 tons. It is thought that every foot beneath the surface will yield 3,000,000 tons of ore. At the depth of 180 feet, an artesian auger is still penetrating solid ore. Dr. Litton thinks that these mountains contain enough iron above the surface to afford for two hundred years an annual supply of 1,000,000 tons. The ore is almost exclusively specular. It yields 56 per cent. of pure iron. The iron is strong, tough and fibrous.
Profs. Schmidt and Pumpelly, in their very learned work on the iron ores of Michigan, and Missouri, have classified the iron-bearing region of our state as follows:
Eastern Ore-Region .- 1. Ore-district along the Mississippi river. 2. Iron Mountain district. 3. Southeastern limonite district. 4. Franklin county district. 5. Scotia district.
Central Ore-Region .- 1. Steelville district. 2. Ore-district on the up- per Meramec and its tributaries. 3. Salem district. 4. Iron Ridge district. 5. St. James district. 6. Rolla district. 7. Middle Gasconade district. 8. Lower Gasconade district. 9. Callaway county district.
Western Ore-Region .- 1. Lower Osage district. 2. Middle Osage district. 3. Upper Osage district.
Southwestern Ore-Region .- 1. White River district. 2. Ozark county district.
The same authorities have classified the various kinds of iron ores found in Missouri, thus:
75
HISTORY OF THE STATE OF MISSOURI.
Deposits of specular ore in por- phyry.
Deposits of specular ore in sand- stone. Disturbed deposits of specular ore. Drifted deposits of specular ore.
.
- Strata of red hematite.
Disturbed or drifted: deposits of red hematite.
Deposits of limonite on limestone. Disturbed or drifted deposits of limonite.
LEAD .- The annual lead product of Missouri is said now to exceed that of any other state or country; and it is conceded that its lead deposits are the richest in the world. The lead region all lies south of the Mis- souri river; the mineral is found chiefly in the magnesian limestone rocks, which are the great lead-bearing rocks of the world; but it is also found in ferruginous clays, in slates, in gravel beds, and in cherty masses in the clays.
Mr. R. O. Thompson, mining engineer, of St. Louis, has written a sketch of the mode of origin of our lead and some other mineral.deposits, which is plain, concise, and a clear statement of the teachings of science on this very interesting portion of Missouri's geological and mineralogical history. We quote:
"The Azoic rocks in this region, when the great Silurian system began to be.formed,.were.so, many islands, their heads only. elevated above the vast sedimentary sea. The beds upon which the limestones and sand- stones were deposited consisted of the weatherings of the Azoic rocks, which naturally sought the valleys and. became a base for the sedimentary. rock. This boundless sea held in solution lime, magnesia, alumina, man- ganese, lead, copper, cobalt, nickel, iron, and other mineral substances. In this chemical condition gases were evolved and the work of formation . commenced. The two gases forming the great creative power, and aiding solidification, were carbonic acid and sulphuretted hydrogen; the. former seeking its affinity in lime and forming limestone; the sulphur in the latter naturally combining with the other metals, forming sulphates, or sulphur- ets. The work of deposition and solidification being in harmony, it is easy to understand how those minerals exist in a disseminated condition" in these rocks. The slates that we find so rich in galena, presenting the myriad forms of lingula, must also have been formed in the Silurian Age. The distribution arhong the magnesian limestones of these decomposing slates can be most easily accounted for. The decomposed feldspar pro- duced by the weathering of the porphyry became in its change a silicate of alumina, and the sulphur, combining with the lead, disseminated the same in the slate as readily as in the limestone."
The Missouri lead region has been divided or classified into five sub- districts, as follows:
I. The Southeastern Lead District, embraces all or parts of Jefferson, Washington, Franklin, Crawford, Iron, St. Francois, St. Genevieve, Madison, Wayne, Reynolds, and Carter counties, with some mines in the western portion of Cape Girardeau county. Mining has been longest carried on in this district, and the aggregate of the production has been very great, although the work has been chiefly surface mining. Mine-
76
HISTORY OF THE STATE OF MISSOURI.
La-Motte, in this district, was discovered in 1720, by Francis Renault and M. LaMotte, and has been worked more or less ever since.
II. The Central Lead District, comprises, as far as known, the coun- ties of Cole, Cooper, Moniteau, Morgan, Miller, Benton, Maries, Camden, and Osage. Much of the mining done here, again, has been near the surface, the lead first being found in clays, in caves, and in masses in clay but a few inches below the surface. Shafts, however, sunk in the mag- nesian limestone, find rich deposits in lodes and pockets.
III. The Southern Lead District, comprises the counties of Pulaski, La Clede, Texas, Wright, Webster, Douglas, Ozark, and Christian.
IV. The Western Lead District embraces Hickory, Dallas, Polk, St. Clair, Cedar, and Dade counties. Some rich deposits have been found in this district, especially in Hickory county.
V. The Southwestern Lead District comprises Jasper, Newton, Law- rence, Stone, Barry, and McDonald. Here very extensive mining has been done, more especially in the two counties first named, which have, for the last few years, produced more than one-half of the pig-lead mined in. the.state.
. For several years past more than one-half the lead production of the United States has been from Missouri mines. Besides the numerous smelting works supported by them, the manufacture of white lead, lead pipe, sheet lead, etc., contributes materially to the industries and com- merce of the state.
COPPER .- Several varieties of copper ore exist in Missouri mines. Deposits of copper have been discovered in Dent, Crawford, Benton, Maries, Greene, Lawrence, Dade, Taney, Dallas, Phelps, Reynolds and Wright counties. Some of the mines in Shannon county are now profit- ably worked, and mines in Franklin county have yielded good results.
ZINC .- Sulphuret, 'carbonate and silicate of zinc are found in nearly all the lead mines of southwestern Missouri; and zinc ores are also found in most of the counties along the Ozark range. What the lead miners call " black-jack," and throw away, is sulphuret of zinc. Newton and Jasper counties are rich in zinc ores; and Taney county has an extensive vein of calamine, or carbonate of zinc.
COBALT .- Valuable to produce the rich blue colors in glass and porce- lain, and for other purposes in the arts, is found in considerable quantities at Mine-La-Motte.
MANGANESE .- Used in glass manufacture and the arts; it is found in St. Genevieve and other counties.
NICKEL .- Found in workable quantities at Mine-La-Motte.
77
HISTORY OF THE STATE OF MISSOURI.
BUILDING STONE.
Missouri abounds in solid, durable materials for buildings; she has quarries of red and gray granites, and very fine limestones, sandstones and marbles. In Crawford, Washington and Franklin counties there are workable beds of " onyx marble," a stalagmite formation found in caves, and very rich and valuable for mantles, table-tops, vases, ornaments, etc. This marble is not found anywhere else in the United States, and has been imported from Algiers and Mexico, at great cost. As an illustration of the high repute abroad, and substantial home value of Missouri products in the stone line, we give a case in point.
The new state capitol at Des Moines, Iowa, which will cost $3,000,000, and is said to be the largest and finest public edifice in the United States outside of Washington city, is built mostly of materials from Missouri, except the rough masonry and brickwork. The Missouri stones and their cost is as follows:
St. Genevieve buff sandstone. $ 147,289.83 Carroll county blue limestone. 139,238.54
Fourteen red granite columns, 18 feet, 4} inches long, 2 ft. 3 in. diameter, turned and polished at St. Louis .... 8,144,50
Total paid by Iowa to Missouri on this one building. . $ 294,672.87
Other examples of Missouri building stone will be of interest. The Archimedes limestone is used for the U. S. custom house in. St. Louis .. The encrinital limestone is used for the State University building, and court house at Columbia. The Trenton limestone is used in the. court house at St. Louis. A stratum called "cotton rock" in the magnesian limestone formation, is used for the state house and court house at Jeffer- son City. Encrinital marble is found in Marion county, and other varie- ties occur in Cooper, Cape Girardeau, St. Louis, Iron and Ozark coun- ties. In the bluffs on the Niangua, a marble crops out twenty feet thick, which is a fine-grained, crystaline, silico-magnesian limestone, of a light drab color, slightly tinged or clouded with peach blossom. Some of the beautiful Ozark marbles have been used in ornamenting the national capitol at Washington.
Lithographic limestone is found in Macon county.
EARTHS, CLAYS, OCHRES, ETC.
Kaolin, or decomposed feldspar, is a clay for making porcelain ware, and is found in and shipped from southeastern Missouri. Fine pottery clays are found in all the coal bearing region. North of the Missouri river many beds of best fire-clay are found, which is extensively manufac- tured at St. Louis into fire brick, gas retorts, metallurgists' crucibles, etc.
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HISTORY OF THE STATE OF MISSOURI.
Yellow and red ochres, ferruginous clays, and sulphate of baryta, all val. uable in the mannfacture of mineral and fire-proof paints, are found in great abundance all through the iron districts. Near St. Genevieve there is a bank of saccharoidal sand which is twenty feet in height, and miles in extent. The mass is inexhaustible. Two analyses give the following results:
Silica 98.81 99.02
Lime. 0.92 . 0.98
The sand is very friable, and nearly as white as snow. It is not oxy- dized or discolored by heat, and the glass made from it is clear and unstained. One firm in St. Louis has annually exported more than 3,500 tons of this sand to the glass manufactories of Wheeling, Steubenville and Pittsburg.
GEOGRAPHY OF MISSOURI.
LOCATION AND AREA.
The state of Missouri (with the exception of the Pan-Handle, in the southeast corner, which extends 34 miles further south), lies between the parallels 36 degrees 30 minutes and 40 degrees 30 minutes north latitude, and between longitudes 12 degrees 2 minutes, and 18 degrees and 51 min- utes west from Washington. Its southern boundary line, extended east- ward, would pass along the southern boundaries of Tennessee and Vir- ginia. The line of the northern boundary, extended in the same direction, would pass north of the centers of Illinois, Indiana and Ohio, and near the centers of Pennsylvania and New Jersey. Extending these lines west- ward, they would embrace the entire state of Kansas, and a considerable portion of Nebraska on the north and of the Indian Territory south.
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