WHO RAISED TH ;m. -7 Approved For Release 2000/08/15: CIA-RDP96-00792ROO0400590001 One of the mysteries ofStonehenge is hou, the huge stones were placed in position. The drawings below explain a possible method of erecting a trililbon. For each of the uprights a hole is dug; then the stone is hauled into posi- tion on rollers, the bottom end is tipped into the hole, and the stone is heaved into vertical position by hundreds of men on long ropes. The lintel stone is i'ijen raised by levers, in small stages, as a platform is built up under it; finally it is moved sideways until mortises on its underside fit into the tenons on the tops of uprights. The total lack of agreement among the experts hardly inspires confidence: if Stonehenge was so manifestly a structure designed for predicting eclipses, there should be at least some meeting of minds on how it was done. In 1857, in order to settle whether cunei- form had really been deciphered, the Royal. Asiatic Society challenged scholars to submit translations of a newly discovered inscription; four did so, the re- sults were found so alike that there could no longer be room for doubt, and the issue was declared set- tled. When the astronomers who have been studying Stonehenge come up with at least convergent ideas, then we may be readier to believe that its priests knew how to predict eclipses. its original position, one is fallen flat, and two have disappeared.) Newham and Hawkins point out that the short sides of the rectangle are parallel with Stonehenge's main axis. So, when one looks along them to the northeast, one sights, just as along the axis, upon the point of midsummer sunrise. If one looks along them in the opposite direction, toward the southwest, one sights upon the point of mid- winter sunset. And the line of the long sides marks, in the southeast direction, the southernmost point at which the full moon rises at midsummer, and, in the northwest direction, the northernmost point at which it sets at midwinter. Both men were struck by the same idea as to why Salisbury Plain was chosen for i kw~ 4. 4 . d. MCKAEL CRAAG. TTA T.E ATLAS OF -KES EARLY -N BY -DORLING jACQUE KINDEASLEY. LTD 3~ veloped the skill to identify thes( erable accuracy. If, then, this unique megalith number of specific astronomic, was set on a site deliberately ch tions, what of its humbler relat and alignments, even the lone r objects of veneration and no mof astronomically useful? Here we c dropped by a Scot professor ( makes Hawkins' seem like a fire stream of articles bulked out b ander Thom has tried to, demon: hirs and cromlechs of Britain ar Happily, some of Hawkins' findings do converge the site; at its latitude the lines of midsummer sunrise tion to whatever religious purpo! with those o s#Ug at - ht angles and so a rectangu- instruments for determining cei ffbVedu0W. RWWA ~M/08? 0 0 e, a~Vin;opoj & ;MOQACIQJWO although he wapunaware or it. Stonehenge rings not only of the sun and m0( sightlines, Hawkins argues, not only for the midsum- The claim that Stonehenge was so sophisticated an N1.1 . . r I - __ __] --__-;-1 rk~r ;rc nr;~cr, rnid,l forp- I 1114 6_~a, 7 7 Stonehenge, the ruins of an ancient religious center and astronomical observatory. Sightings from different positions and along the various stones were used to predict astronomical events with remarkable accuracy. STONEHENGE, st6n,hen3', is the ruins of a Stone Age monument situate on Salisbury Plain in southern England. It is one of the most imposing and complex of the 40 to 50 prehistoric circular enclosures or "henge" monuments known in the British Isles. The most striking features of Stonehenge are the remains of a great circle of lintel-capped rectangular stone columns surrounding a still taller "horseshoe" of trilithons, each trilithon rOnsisting of two columns supporting the ends of a horizontal top piece, or lintel. The tallest trilithon rises 24 feet (7.3 meters) above ground, and each of the uprights weighs up to 50 tons. Other conspicuous features of the monument include the Slaughter Stone, the Heel Stone, the bluestones, and ditches. Many of the elements have changed through time as the result of natural forces or human activity. Standing stones have toppled, ditches have silted, and additions and changes have been rriade by the prehistoric peoples to whom this site was an important religious center during the Neolithic Period and the Early Bronze Age, roughly from 1900 to 1400 B. c. Speculation on and study of Stonehenge have Coutim-led unab "ted from the time that it was 't me tio n ne I in the literature shortly after the N T"in an C. w of 1066. Its construction has he,, mitt ibut'd to many of the various peoples who have inhabited the British Isles. The most Ivid , e' y held belief was that Stonehenge was built 1y he Britons, a Celtic people, for druidical rites. I ,now known, however, that the Celts and their druid priests did not come to Britain until 1,000 years after Stonehenge was abandoned. The first architectural study of the site was Made in the L7th century by the English archi- ,Let luigO Jones at the command of King Jarnes 1. %fore accurate stirveys and observations were conducted subsequently by such British anti- quaries as John Aubrey, Sir Richard Colt Hoare, and William M. Flinders Petrie. The numbers assigned by Petrie to the various holes and stones are still employed in identifying them. Archaeological research has provided the most trustworthy evidence concerning not only the several phases of construction and their dates, but also the cultures to which they belong. In- terpreting the original function of Stonehenge is partly an archaeological matter and partly an astronomical problem. Scientific excavation and restoration began in the 20th century, especially with the work of William Hawley from 1919 to 1926. The most meticulous investigations were conducted jointly by Richard J. C. Atkinson, Stuart Piggott, and John F. S. Stone frorn 1950 to 1954. The result of these excavations was an extremely complicated picture of successive pe- riods of construction. Construction. The history of Stonehenge may be divided into three main periods. The first major construction, or Period 1, took place be- tween 1900 and 1700 B. C. It was accomplished by people belonging to the secondary Neolithic culture, a blend of earlier hunting and gatherin peoples and the first groups with an agricultural economy to appear in the British Isles. This construction consisted of a eircular ditch and bank about 320 feet (97 meters) in diameter, broken by an entrance causeway from the north- east. Just inside the bank and concentric with it was dug a circ 1e of 56 equally spaced holes- called the Aubrey holes for their 17th century discoverer John Aubrey. The holes were filled with chalk rubble arid, in sonic instances, with cremated human bones. Charcoal from one liole yielded a radiocarbon date of 1848 B. C. t275 years, The t6-foot (4,9-ineter) tall [feel Stone was erected at this time or earlier, a short dis- 751 752 STONEHENGE tance outside the ditch to the northeast. The JIM Stone is a block of sarsen stone, a type of sandstone used for many of the larger stone elements in the monument. The structure of Period 11 (about 1700-1500 B. c. ) does not now exist but can lie inferred from the existence within the ditch and the Aubrey hole circle of the "Q" and "1l" holes. These holes form a double circle, 86 feet (26.2 meters) and 74 feet (22.5 meters) in diameter, each circle originally containing about 38 blue- stones. Many of these stones were removed and used for later constructions. Two parallel ditches were dug outward from the main entrance, form- ing an avenue ninning northeast toward the point on the horizon at which the still rises oil mid- summer day, or the summer solstice. Because of the absence of holes in the western part of the double circle, it would appear that Stone- henge 11 was Dever cornpleted. The architects must have belonged to the Beaker culture, col- onizers who came from the European continent a, the end of the Neolithic Period, for shards of Beaker pottery have been found in association with the traces of this structure. Period III (about 1500-1400 B. c.) witnessed the final and most spectacular phases of construe- tion. One of the princ'pal features is the 100- foot (30.5-meter) circle of 30 sarsen stone columns. Each column weighs about 25 tons; measures about 3 to 4 feet (0.9-1.2 meters) thick, 7 feet (2.1 meters) wide, and 13 feet (4 meters) high; and is capped by a continuous circle of horizontal lintels held in position by mortise and tenon joints. Within tws circle Is the central horse,l,, of five sarsen trilithons referred to reViollsl\ Other features, such as the circles F "Y" 'T' holes outside the sarsen circle and a horseshoe of bluestones within the trilithol, a pear to represent later modifications of, till. Van. The largest of the bluestones, called tl,,, Altar-Stone, now lies under two fallen trilitll,, stones. Its original location and function art, unknown. The. builders of Stonehenge III almost certainly members of the Early Age Wessex culture, at the time one of the In0% , advanced European cultures outside of the terranean area. Other sites of this culture, larg,_ ly graves, have produced bronze ax blades a,,,l other artifacts resembling strikingly in detail, many objects from central Europe and 1q,_ cenaean Greece. In 1953 a carving of a bron.;, dagger similar in form to those used at MvCenae during the period of the shaft graves was found on one of the sarsen stones. As for the construction techniques of Stone- henge, much practical experimentation has been done with simple equipment to determine po., sible methods of transport and the size of ti labor force needed to move and erect the lara sarsens. Geological studies have shown that the sarsens came from Marlborough Downs, some 20 miles (32 km) north of Stonehenge. The bill(.- stones were brought from the Prescelh, Moull- tains of southwestern Wales, probably bY' sea and then overland by sledges running on rollers. it has been estimated that it might require upwards of 500 men to pu.11 a 50-ton stone up the steepest rsen cir C./,- A 0 stone \ \,rectangle % Af * 10 1 Z hol;s "d Standing stone -1c central horseslio rre d tI 1TVIOn's], circles IF y, and circle and a sln,1 I 91 tile trilith0il are, Aodifications of th :iestones, called tl,,(', two fallen trilitll(,,, all(] function ar, lonelienge III were the Early Bron,e mile one Of the Ino st outside of the M,di. this culture, large- Mze a_x blades and trikingly in detail., Europe and My. _,arving of a bronze -1~c used at Mvcena(~ t graves was found -~chniqucs of Storn,~ vientation has been to determine pos nd the size of the ;and erect the larg(, .tve shown that the igh Downs, some 20 ochenge. The blue- -le Prescelly moul - -)robably by sea an I -ming on. rollers. t I :~ht require upwar .11 d tone up the. steepest ,He stone Standing stone Fallen or missing stone 0 50 Feet STONE'S RIVER, BATTLE OF-STONEWARE .sl )c along the route. Timber cribwork, levers, O~ ropes were considered adequate for raising all stones to vertical positions arid placing Imtels on dicir tops. Function. The original function of this ex- traordinary monument has been the subject of 111lich speculation. It has been thought of as a ruonument, funeral or otherwise, to various leg- endary or historic personages, It has also been considered to be the center of a religious cult. Because of its orientation toward the rising sun, scientists have seen it as an astronomical observa- tory of some kind. Archaeologists are, in general agreement that the site had both a religious and an astronomical function. It is likely that the Monument at Stonehenge, hallowed by its early use as a purely religious structure, became modi- fied gradually in its early phases to perform astronomical functions as well-first to record the advent of the summer solstice, then to predict sunrise, moonrise, and probably eclipses, all as part of a religious and agricultural ritual. In 1963, Gerald Hawkins, an astronomer, used computer to work out all observations that a could be made by sighting along and through the various markers, stone posts, and openings be- hveen uprights, including four "station" stone locations that form a rectangle on the line of the Aubrey holes. His calculations indicated with al- most perfect probability that Stonehenge can be used as an astronomical instrument to predict accurately, with adjustment of movable marking stones orice a year, the niovements of both sun and moon as well as eclipses. Various objections to the theory and its implications have been raised by archaeologists. One. of the important ones is the unlikelihood of the existence of such a. sophisticated device, requiring the passing on of accumulated observational data over a long period of time, in a culture that was otherwise on a COD.- siderably lower level of development than the heart of Bronze Age culture in the eastern Mediterranean. DONALD F. BROWN Boston University Further Reading: Atkinson, Richard J. C., Stone- henge (Macmillan 1956); Ilawkins Gerald S., and White, John B., Stonehenge Decoded ~Doubleday 1965); Petrie, William Flinders, Stonehenge (1881); Stone John F. S., Wessex Before the Celts (Praeger 1958). STONE'S RIVER, Battle of, in the American Civil Way, fought Dec. 31, 1862-Jan. 2, 1863, about 30 miles (48 km) southeast of Nashville, Tenn. It is often called the Battle of Murfreesboro. A hard-fought but indecisive conflict, it had no apparent influence on the strategic situation, but President Abraham Lincoln observed that if the Union Anny had been defeated, "the nation could scarcely have lived over it," After Gen. Braxton Bragg led an -unsuccessful invasion of Kentucky in the autumn of 1862, he retired to Murfreesboro, in southeastern Tennessee. Maj. Gen. William S. Rosecrans, the new com- mander of the Union Army of the Cumberland, I'Vas based at Nashville. Eastern Tennessee was favorably inclined to the Union, and the high command in Washington was determined to drive the Confederates from the region. Under strong pressure for action, Rosecrans led his army out of Nashville on Dec. 26, 1862, Rain, fog, and Confederate cavalry patrols hin- dered his advance, and his leading elements did Dot approach Murfreesboro until the evening of the 29th. The next day, the two armies con- 753 fronted each other in strength. Rosecrans had about 45,000 men; Bragg a little less than 40,000, Bragg de0oved his forces astride thc West k of S for tones hiVeT, a few miles northwest of tile tO',VD. The bulk of them were on thc west bank, but one division, alx)ut 5,000 men, was OD the east. Rosecrans concentrated entirely 011 the west side of the river. The battle plans. of. the opposing commanders were identical in p11DCl h'. Each planned to hold with his right wing anTattack with his left wing, seeking an eDVelopinent of die enemy. Bragg struck first, about 6 A. M. on Dec. 31. He surpri .sed the Union troops at the right end of the line; many were cooking breakfast. His assault gathered iiionientuni as reinforcements ar- jived. The Union right was bent back at right angles to the left, and by midafternoon the Union anny was compressed into a tight horseshoe with its back to the river. But stout resistance and minor counterattacks had jolted the Confederates, Bragg called for the division on the east bank of the river to strength- en a last blow, but its commander did not move, fearing a Union attack. At a council that night, some Union generals wished to retreat to Nash- ville, but Rosecrans decided to hold. OD Jan. 1, there was little fighting. Both armies Were exhausted and had. suffered heavy losses. The next day, the only important action was east of the river, where a Union force that had crossed there repulsed a Confederate attack. Bragg realized that Rosecrans had received ammunition and supplies, and on Jan. 3 be With- drew through Murfreesboro arid proceeded south. Rosecrans occupied the toxvii but did not pursue his foe. The situation in Tennessee remained static for six months, but by holding fast Rose- crans had averted what would have been a. seT ion S defeat for the Union at that stage of the war. The Union losses were about 12,800 men killed wounded and missing. Ile Confederate casuaities totalea about 11,600. The, Stones River National Battlefield now occupies part of the battle site. In the Stones River (or Murfreesboro) National Cemetery are graves of soldiers of both armies. STONEWARE is a hard, nonporous ceramic. It is made of a highly, siliceous paste, either a special clay or clay mixed with other materials, such as ground flint, feldspar, or ruarble. The paste is fired at a high temperature until it vitrifies (fuses) to form a nonporous, glassy sub- stance that gives a ringing sound when struck. Stoneware thus differs from soft, low-fired porous earthenware. It closely resembles hard, high- fired, nonporous porcelain and is often called por- celaneous ware. However, because stoneware is usually heavy and opaque, with a bluish gray or reddish brown color, Western authorities have tended to distinguish it from porcelain, which they characterize as thin, translucent, and white., Stoneware May have incised, impressed, or applied relief decorations. It may be unglazed, or it may be glazed to resist acidic liquids or for decoration. A thin, slightly pitted salt glaze is common. Thicker, colored lead glazes are also found. Stonewares were made in Shang China be- fore 1000 B. c, Heavy, poreelaneous stonewares of the Han, Vang, Sun and Yuan dynasties had black or brown painted 5ecoration or relief decora- tion with celadon green glaze. In the Ming period, roved For Release 2000/08/15: CIA-RDP96-00792ROO0400590001-9