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Bible Encyclopedias
Syenite
1911 Encyclopedia Britannica
a name first used by Pliny to designate rocks of the same type as the hornblendic granite of Syene (Assouan) in Upper Egypt, so extensively used in ancient times for architectural work and monuments. Transferred by Werner to a rock of much the same appearance, though not identical in mineralogical character with the Egyptian granite, from the Plauen 'scher Grrund near Dresden, it is now used as the group name of a class of holo-crystalline plutonic rocks composed essentially of an alkali felspar and a ferromagnesian mineral. The structure and appearance are very much the same as that of a hornblendic granite; from which it is difficult to distinguish these rocks in hand specimens. The important difference, however, is the absence or scarcity of quartz in the syenites. Their essential components are orthoclase, often with some albite, and augite, hornblende or biotite. The orthoclase is white or pink, and forms nearly one half of the rock. It may be veined with albite (microperthite) and small crystals of plagioclase (mostly andesine and oligoclase) often are present, usually having better crystalline forms than the potash felspar. The prevalent hornblende is green, but brown hornblende and dark blue hornblende, of strong pleochroism, occur in some syenites which are rich in apatite, zircon, magnetite and pyrites; quartz as above stated is rarely absent but should never be abundant, otherwise the rock becomes a granite. Nepheline and sodalite occur only in those rocks which show transitions to the nepheline-syenites. The structure of syenites is almost exactly the same as that of the granites; varieties with porphyritic felspar are known but none of these rocks are evenly granular. The apatite, zircon and magnetite crystallize first, and occur as small well-shaped crystals enclosed in the other minerals. Sphene also is of early formation; then follow augite, biotite and hornblende, the pyroxene usually taking precedence, but regular intergrowths due to simultaneous crystallization of these three minerals are common. The plagioclase felspar succeeds the ferromagnesian minerals, and the alkali felspar is last to crystallize with the exception of the small amount of quartz and of micropegmatite, if these are present. Exceptions to this rule occur, as for example when part of the soda-lime felspar has separated out of the magma before the ferric minerals have ceased to grow, and is consequently enclosed in them in ophitic fashion. Some syenites have a fluxion or even "augen" structure, due to movements during consolidation; orbicular structure may also occur but is very rare.
Although syenites are by no means common rocks and are not of equal importance with granites and diorites from a geological standpoint, they exhibit many varieties which are of interest. Transitional forms between syenite and granite are common as these rocks very frequently occur in the same mass and can hardly be separated from one another in the field. These syenites, comparatively rich in quartz, have been called syenite-granites. Many of the rocks known to the older geologists and shown on the early maps as "syenite" are of this type; others are hornblendic granites in which quartz is not abundant or conspicuous. Another variety of quartzsyenite, very rich in pink alkali felspar (microperthite), is known as nordmarkite; it occurs in Norway, Sweden and Scotland, and contains usually only a small amount of brown biotite and green augite.
The more normal syenites (with only small percentages of quartz) may be divided into augite-, hornblendeand biotite-syenites, according to their prevalent ferric mineral, but usually the rock contains two or even three of the dark-coloured bisilicates. Augitesyenites occur in Saxony and in Norway. In the latter country the most abundant type is laurvikite. These rocks may be red or grey in colour and very largely consist of a perthitic or cryptoperthitic alkali felspar having a beautiful shimmering dull metallic reflection or play of colours. They are coarse-grained rocks, and their great freshness and iridescent appearance when polished make them favourite ornamental stones for facades and pillars. The large felspars have often an elongated elliptical form and are arranged in sub-parallel fashion apparently by fluxion movements. Quartz is usually absent and plagioclase is still more uncommon, but the occasional presence of nepheline and sodalite indicates that these rocks are connected with the nepheline-syenites of the laurvikite type. The ferromagnesian minerals show a great variety and include diopside, aegirine-augite, biotite, brown hornblende, hypersthene and olivine. Zircon is often abundant (zircon-syenite). Rocks very similar to the laurvikites of Norway are known in the Sawtooth Mountains of Texas. These augite-syenites which have plagioclase and orthoclase felspar in nearly equal quantity are called nonzonites. Hornblende-syenites are regarded as being the typical members of the group, hence the best-known syenite, the original rock which Werner described, is of this kind; they are not very common, but occur in Germany, Piedmont and other places, usually with hornblende-granites and diorites. Biotitesvenites also are not frequent, being usually accompanied by granites of which they represent modifications poor in quartz. Most of the rock formerly known as mica-syenites are now grouped with the lamprophyres as minettes. The following analyses show the chemical composition of a few of the principal types of syenite. They are characterized by a moderate amount of silica, relatively high alkalis (with potash usually preponderating) and alumina, while lime and magnesia are more variable but never in great amount.
(J. S. F.) alkalis. The augite is usually pale green and may be in perthitic Sylburg, Friedrich' (1536-1596), German classical intergrowth with the hornblende. The mica is always of brown scholar, son of a farmer, was born at Wetter near Marburg. colour, as muscovite is not known to occur in these rocks. In He studied at Marburg, Jena, Geneva, and, lastly, Paris, where the alkali syenites dark green soda augites may be present; his teacher was Henry Estienne (Stephanus), to whose great other syenites contain a violet augite which has the lamella Greek Thesaurus Sylburg afterwards made important contribu structure of diallage. tions. Returning to Germany, he held educational posts at Neu The accessory minerals include sphene (very frequent), i haus near Worms and at Lich near Giessen, where he edited a useful edition of the Institutiones in graecam linguam (1580) of Nicolaus Clenardus (Cleynaerts, 1495-1542). In 1583 he resigned his post at Lich and moved to Frankfort-on-the-Main to act as corrector and editor of Greek texts for the enterprising publisher Johann Wechel. To his Frankfort period belong the editions of Pausanias, Herodotus, Dionysius of Halicarnassus (one of his best pieces of work and highly praised by Niebuhr), Aristotle, the Greek and Latin sources for the history of the Roman emperors and the IIEpi' 6vvTa Ccus of Apollonius Dyscolus. In 1591 he removed to Heidelberg, where he became librarian to the elector palatine. The Wechel series was continued by Hieronymus Commelinus of Heidelberg, for whom Sylburg edited Clement of Alexander, Justin Martyr, the Etymologicum magnum, the Scriptores de re rustica, the Greek gnomic poets, Xenophon, Nonnus and other works. All Sylburg's editions show great critical power and indefatigable industry. He died on the 17th of February 1596, a victim of over-work.
See F. Koldewey, in Allgemeine deutsche Biographie; K. W. Justi, in Strieder's Hessische Gelehrten-Geschichte, xviii. (Marburg, 1819); C. Bursian, Geschichte der classischen Philologie in Deutschland (1883); J. E. Sandys, Hist. of Class. Schol., ii. (1908), p. 270.
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Chisholm, Hugh, General Editor. Entry for 'Syenite'. 1911 Encyclopedia Britanica. https://www.studylight.org/​encyclopedias/​eng/​bri/​s/syenite.html. 1910.