MASTICHE.

Mastix, Resina Mastiche; Mastich; F. Mastic; G. Mastix.

Botanical Origin—Pistacia Lentiscus L., the lentisk, is a diœcious evergreen, mostly found as a shrub a few feet high; but when allowed to attain its full growth, it slowly acquires the dimensions of a small tree having a dense head of foliage. It is a native of the Mediterranean shores from Syria to Spain, and is found in Portugal, Morocco and the Canaries. In some parts of Italy it is largely cut for fuel.

Mastich is collected in the southern and south-western part of the island of Scio, which was long regarded as the only region in the world capable of affording it. Experiments made in 1856 by Orphanides[651] have proved that excellent mastich might be easily obtained in other islands of the Archipelago, and probably also in Continental Greece. The same botanist remarks that the trees yielding mastich in Scio are exclusively male.

History—Mastich has been known from a very remote period, and is mentioned by Theophrastus,[652] who lived in the 4th century before the Christian era. Both Dioscorides and Pliny notice it as a production of the island of Chio, the modern Scio.

Avicenna[653] described (about the year 1000) two sorts of mastich, the white or Roman (i.e. Mediterranean or Christian), and the dark or Nabathæan,—the latter probably one of the Eastern forms of the drug mentioned at p. 165.

Benjamin of Tudela,[654] who visited the island of Scio when travelling to the East about a.d. 1160-1173, also refers to it yielding mastich, which in fact has always been one of its most important productions, and from the earliest times intimately connected with its history.

Mastich was prescribed in the 13th century by the Welsh “Meddygon Myddvai” as an ingredient of ointments.

In the middle ages the mastich of Scio was held as a monopoly by the Greek emperors, one of whom, Michael Paleologus in 1261, permitted the Genoese to settle in the island. His successor Andronicus II. conceded in 1304 the administration of the island to Benedetto Zaccaria, a rich patrician of Genoa and the proprietor of the alum works of Fokia (the ancient Phocæa), north-west of Smyrna, for ten years, renouncing all tribute during that period. The concession was very lucrative, a large revenue being derived from the Contrata del Mastico or Mastich district: and the Zaccaria family, taking advantage of the weakness of the emperor, determined to hold it as long as possible. In fact they made themselves the real sovereigns of Scio and of some of the adjacent islands, and retained their position until expelled by Andronicus III. in 1329.[655]

The island was retaken by the Genoese under Simone Vignosi in 1346; and then by a remarkable series of events became the property of an association called the Maona (the Arabic word for subsidy or reinforcement). Many of the noblest families of Genoa enrolled themselves in this corporation and settled in the island of Scio; and in order to express the community of interest that governed their proceedings, some of them relinquished their family names and assumed the general name of Giustiniani.[656] This extraordinary society played a part exactly comparable to that of the late East India Company. In Genoa it had its “Officium Chii”; it had its own constitution and mint, and it engaged in wars with the emperors of Constantinople, the Venetians and the Turks, who in turn attacked and ravaged the mastich island and adjacent possessions.

The Giustinianis regulated very strictly the culture of the lentisk and the gathering and export of its produce, and cruelly punished all offenders. The annual export of the drug was 300 to 400 quintals,[657] which were immediately assigned to the four regions with which the Maona chiefly traded. These were Romania (i.e. Greece, Constantinople and the Crimea), Occidente (Italy, France, Spain and Germany), Vera Turchia (Asia Minor), and Oriente (Syria, Egypt, and Northern Africa). In 1364, a quintal was sold for 40 lire; in 1417, the price was fixed at 25 lire. In the 16th century, the whole income from the drug was 30,000 ducats (£13,750),[658] a large sum for that period.

In 1566, the Giustinianis definitively lost their beautiful island, the Turks under Piali Pasha taking it by force of arms under pretext that the customary tribute was not duly paid.[659] A few years before that event, it was visited by the French naturalist Belon[660] who testifies from personal observation to the great care with which the lentisk was cultivated by the inhabitants.

When Tournefort[661] was at Scio in 1701, all the lentisk trees on the island were held to be the property of the Grand Signor, and if any land was sold, the sale did not include the lentisks that might be growing on it. At that time the mastich villages, about twenty in number, were required to pay 286 chests of mastich annually to the Turkish officers appointed to receive the revenue.

In the beginning of the present century, when Olivier[662] paid a visit to the island of Chios, he found 50,000 ocche (one occa = 2·82 lb. avdp. = 1·28 kilogrammes) or somewhat more to be the annual harvest of mastich.

The month of January, 1850, was memorable throughout Greece and the Archipelago for a frost of unparalleled severity which proved very destructive to the mastich trees of Scio, and occasioned a scarcity of the drug that lasted for many years.[663]

The foregoing statements show that for centuries past Scio or Chios was famed for this resin; there are however a few evidences proving that at least a little mastich used also to be collected in other islands. Amari[664] quoted an Arabic geographer of the 12th century speaking of “il mastice di Pantellaria cavato da’ lentischi e lo storace odorifero.” Pantellaria, Kossura of the ancients, is the small volcanic island south-west of Sicily, not far from Tunis. In a list enumerating the drugs to be met with in 1582 in the fair of Frankfurt[665] we find even mastich of Cyprus quoted as superior to the common. Cyprian mastich again occurs in the pharmaceutical tariffs of 1612 and 1669 of the same city, and in many others of that time.[666]

The disuse into which mastich has fallen makes it difficult to understand its ancient importance; but a glance at the pharmacopœias of the 15th, 16th, and 17th centuries shows that it was an ingredient of a large number of compound medicines.[667]

Secretion—In the bark of the stems and branches of the mastich shrub, there are resin-ducts like those in the aromatic roots of Umbelliferæ or Compositæ. In Pistacia they may even be shown in the petioles. The wood is devoid of resin,[668] so that slight incisions are sufficient to provoke the resinous exudation, the bark being not very thick, and liable to scale off.

Collection—In Scio incisions are made about the middle of June in the bark of the stems and principal branches. From these incisions which are vertical and very close together, the resin speedily flows, and soon hardens and dries. After 15 to 20 days it is collected with much care in little baskets lined with white paper or clean cotton wool. The ground below the trees is kept hard and clean, and flat pieces of stone are often laid on it that the droppings of resin may be saved uninjured by dirt. There is also some spontaneous exudation from the small branches which is of very fine quality. The operations are carried on by women and children and last for a couple of months. A fine tree may yield as much as 8 to 10 pounds of mastich.

The dealers in Scio distinguish three or four qualities of the drug, of which the two finer are called κυλιστὸ and ϕλισκάρι, that collected from the ground πῆττα, and the worst of all ϕλοῦδα.[669]

Description—The best sort of mastich consists of roundish tears about the size of small peas, together with pieces of an oblong or pear-shaped form. They are of a pale yellow or slightly greenish tint darkening by age, dusty and slightly opaque on the surface but perfectly transparent within. The mastich of late imported has been washed; the tears are no longer dusty, but have a glassy transparent appearance. Mastich is brittle, has a conchoidal fracture, a slight terebinthinous balsamic odour. It speedily softens in the mouth, and may be easily masticated and kneaded between the teeth, in this respect differing from sandarac, a tear of which breaks to powder when bitten.

Inferior mastich is less transparent, and consists of masses of larger size and less regular shape, often contaminated with earthy and vegetable impurities.

The sp. gr. of selected tears of mastich is about 1·06. They soften at 99° C. but do not melt below 108°.

Mastich dissolves in half its weight of pure warm acetone and then deviates the ray of polarized light to the right. On cooling, the solution becomes turbid. It dissolves slowly in 5 parts of oil of cloves, forming even in the cold a clear solution; it is but little soluble in glacial acetic acid or in benzol.

Chemical Composition—Mastich is soluble to the extent of about 90 per cent in cold alcohol; the residue, which has been termed Masticin or Beta-resin of Mastich, is a translucent, colourless, tough substance, insoluble in boiling alcohol or in solution of caustic alkali, but dissolving in ether or oil of turpentine. According to Johnston, it is somewhat less rich in oxygen than the following.

The soluble portion of mastich, called Alpha-resin of Mastich, possesses acid properties, and like many other resins has the formula C₂₀H₃₂O₃. Hartsen[670] asserts that it can be obtained in crystals. Its alcoholic solution is precipitated by an alcoholic solution of neutral acetate of lead. Mastich contains a very little volatile oil.

Commerce—Mastich still forms the principal revenue of Scio, from which island the export in 1871 was 28,000 lb. of picked, and 42,000 lb. of common. The market price of picked mastich was equal to 6s. 10d. per lb.—that of common 2s. 10d. The superior quality is sent to Turkey, especially Constantinople, also to Trieste, Vienna, and Marseilles, and a small quantity to England. The common sort is employed in the East in the manufacture of raki and other cordials.[671]

Uses—Mastich is not now regarded as possessing any important therapeutic virtues, and as a medicine is becoming obsolete. Even in varnish making it is no longer employed as formerly, its place being well supplied by less costly resins, such for example as dammar.

Varieties—There is found in the Indian bazaars a kind of mastich which though called Mustagi-rúmí (Roman mastich), is not imported from Europe but from Kabul, and is the produce of Pistacia Khinjuk Stocks, and the so-called P. cabulica St. trees growing all over Sind, Belúchistan and Kabul.[672] This drug, of which the better qualities closely approximate to the mastich of Scio, sometimes appears in the European market under the name of East Indian or Bombay Mastich. We find that when dissolved in half its weight of acetone or benzol, it deviates the ray of light to the right.

The solid resin of the Algerian form of P. Terebinthus L., known as P. atlantica Desf., is collected and used as mastich by the Arab tribes of Northern Africa.[673]

TEREBINTHINA CHIA

Botanical Origin—Pistacia Terebinthus L. (P. atlantica Desf., P. palæstina Boiss., P. cabulica Stocks), a tree 20 to 40 feet or more in height, in some countries only a shrub, common on the islands and shores of the Mediterranean as well as throughout Asia Minor, extending, as P. palæstina, to Syria and Palestine; and eastward, as P. cabulica, to Belúchistan and Afghanistan. It is found under the form called P. atlantica in Northern Africa, where it grows to a large size, and in the Canary Islands.

These several forms are mostly regarded as so many distinct species; but after due consideration and the examination of a large number of specimens both dried and living, we have arrived at the conclusion that they may fairly be united under a single specific name. The extreme varieties certainly present great differences of habit, as anyone would observe who had compared Pistacia Terebinthus as the straggling bush which it is in Languedoc and Provence, with the noble umbrageous tree it forms in the neighbourhood of Smyrna. But the different types are united by so many connecting links, that we have felt warranted in dissenting from the opinion usually held respecting them.

On the branches of Pistacia Terebinthus, a kind of galls is produced, which we shall briefly notice in our article Gallæe halepenses.

History—The terebinth was well known to the ancients; it is the τέρμινθος of Theophrastus, τερέβινθος of other authors, and the Alah of the Old Testament.[674] Among its products, the kernels were regarded by Dioscorides as unwholesome, though agreeable in taste. By pressing them, the original Oil of Turpentine, τερεβίνθινον ἔλαιον, a mixture of essential and fat oil was obtained, as it is in the East to the present day. The resinous juice of the stem and branches, the true, primitive turpentine, ῤητίνη τερμινθίνη, was celebrated as the finest of all analogous products, and preferred both to mastich and the pinic resins. To the latter however the name of turpentine was finally applied.[675]

Collection—The resinous juice is secreted in the bark, according to Unger,[676] and Marchand,[677] in special cells precisely as mastich in P. Lentiscus. That found in commerce is collected in the island of Scio. To some extent it exudes spontaneously, yet in greater abundance after incisions made in the stems and branches. This is done in spring, and the resin continues to flow during the whole summer; but the quantity is so small that not more that 10 or 11 ounces are obtained from a large tree in the course of a year. The turpentine, hardened by the coolness of the night, is scraped from the stem down which it has flowed, or from flat stones placed at the foot of the tree to receive it. As it is, when thus collected, always mixed with foreign substances, it is purified to some extent by straining through small baskets, after having been liquefied by exposure to the sun.

When Tournefort[678] visited Scio in 1701, the island was said to produce scarcely 300 okes or ocche (one occa = 2·82 lb. avdp.); a century later Olivier[679] stated, that the turpentine was becoming very scarce, 200 ocche only, or even less, being the annual yield. It was then carefully collected by means of little earthen vessels tied to the incised stems. The trade is asserted to be now almost exclusively in the hands of the Jews, who dispose of the drug in the interior part of the Turkish Empire.[680]

Description—A specimen collected by Maltass near Smyrna in 1858 was, after ten years, of a light yellowish colour, scarcely fluid though perfectly transparent, nearly of the odour of melted colophony or mastich, and without much taste. We found it readily soluble in spirit of wine, amylic alcohol, glacial acetic acid, benzol, or acetone, the solution in each case being very slightly fluorescent. The alcoholic solution reddens litmus, and is neither bitter nor acrid. Two parts of this genuine turpentine dissolved in one of acetone deviate a ray of polarized light 7° to the right[681] in a column 50 mm. long.

Chian turpentine as found in commerce and believed to be genuine, is a soft solid, becoming brittle, by exposure to the air; viewed in mass it appears opaque and of a dull brown hue. If pressed while warm between two slips of glass, it is seen to be transparent, of a yellowish-brown, and much contaminated by various impurities in a state of fine division. It has an agreeable, mild terebinthinous odour and very little taste. The whitish powder with which old Chian turpentine becomes covered, shows no trace of crystalline structure when examined under the microscope.

Chemical Composition—Chian turpentine consists of resin and essential oil. The former is probably identical with the Alpha-resin of mastich. The Beta-resin or Masticin appears to be absent, for we find that Chian turpentine deprived of its essential oil by a gentle heat, dissolves entirely (impurities excepted) in alcohol sp. gr. 0·815, which is by no means the case with mastich.

The essential oil which we obtained by distilling with water 64 ounces of Chian turpentine of authentic origin, amounted to nearly 14½ per cent. It has the odour of the drug; sp. gr. 0·869; boiling point 161° C.; it deviates the ray of polarized light 12·1° to the right. In common with turpentine oils of the Coniferæ, it contains a small amount of an oxygenated oil, and is therefore vividly attacked by sodium. When this reaction is over and the oil is again distilled, it boils at 157° C. and has a sp. gr. of 0·862. It has now a more agreeable odour, resembling a mixture of cajuput, mace, and camphor, and nearly the same rotatory power (11·5° to the right). By saturation with dry hydrochloric acid, it yields a solid compound after some weeks. After treatment with sodium and rectification, the oil was found[682] to consist of C 88·75, H 11·40 per cent., which is the composition of oil of turpentine.

Uses—Chian Turpentine appears to have exactly the properties of the pinic turpentines; in British medicine it is almost obsolete. In Greece it is sometimes added to wine or used to flavour cordials, in the same manner as turpentine of the pine, or mastich.

GALLÆ CHINENSES SEU JAPONICÆ.

Botanical Origin—The plant which bears this important kind of gall, is Rhus semialata Murray (Rh. Bucki-amela Roxb.), a tree attaining 30 to 40 feet, common in Northern India, China and Japan, ascending in the outer Himalaya and the Kasia hills to elevations of 2,500 to 6,000 feet.[683]

History—In China these galls are probably known and used both medicinally and in dyeing since very long; they are mentioned in the herbal Puntsaou, written in the middle of the 16th century. They also occur in Cleyer’s “Specimen medicinæ sinicæ,” Frankfort, 1682, No. 225, under the name u poi çu.[684] Kämpfer[685] also mentions a tree “Baibokf, vulgo Fusi,” growing on the hills, the pinnate leaves of which he found often provided with an excrescence: “Ἐπίϕνσι foliorum informi, tuberosa, multiplici, tenui, dura, cava, Gallæ nostratis usu praestante.” No doubt this refers to the galls under notice; they began to be imported into Europe about 1724, and are noticed by Geoffroy[686] as Oreilles des Indes, but they seem to have soon disappeared from the market. Pereira directed attention to them in 1844, since which time they have formed a regular and abundant article of import both from China and Japan.

Formation—Chinese galls are vesicular protuberances formed on the leafstalks and branches of the above-mentioned tree, by the puncture of an insect, identified and figured by Doubleday[687] as a species of Aphis, and subsequently named provisionally by Jacob Bell[688] A. chinensis. We have no account by any competent observer of their growth; and as to their development, we can only imagine it from the analogous productions seen in Europe. According to Doubleday, it is probable that the female aphis punctures the upper surface of a leaf (more probably leafstalk), the result of the wound being the growth of a hollow expansion in the vegetable tissue. Of this cavity the creature takes possession and brings forth a progeny which lives by puncturing the inner surface of their home, thus much increasing the tendency to a morbid expansion of the soft growing tissue in an outward direction. Meanwhile the neck of the sac-like gall thickens, the aperture contracts and finally closes, imprisoning all the inmates. Here they live and multiply until, as in the case of the pistacia gall of Europe, the sac ruptures and allows of their escape. This, we may imagine, takes place at the period when, after some generations all wingless and perhaps all female (for the female aphis produces for several generations without impregnation), a winged generation is brought forth of both sexes. These may then fly to other spots, and deposit eggs for a further propagation of their race.

The galls are collected when their green colour is changing into yellow; they are then scalded.[689]

Description—The galls are light and hollow, varying in length from 1 to 2½ inches, and of extremely diverse and irregular form. The simplest are somewhat egg-shaped, the smaller end being attached to the leafstalk; but the form is rarely so regular, and more often the body of the gall is distorted by numerous knobby or horn-like protuberances or branches; or the gall consists of several lobes uniting in their lower part and gradually attenuated to the point by which the excrescence is attached to the leaf.[690] But though the form is thus variable, the structure of these bodi4s is very characteristic. They are striated towards the base, and completely covered on other parts with a thick, velvety, grey down, which rubbed off on the prominences, displays the reddish-brown colour of the shell itself. The latter is ⅒ to ¹/₂₀ of an inch in thickness, translucent and horny, but brittle with a smooth and shining fracture. It is rather smoother on the inner surface and of lighter colour than on the outer.

The galls when broken are generally found to contain a white, downy-looking substance, together with the minute, dried-up bodies of the killed insect.[691]

The drug as imported from Japan is usually a little smaller and paler; it mostly fetches a better price in the market.

Microscopic Structure—The tissue of the galls is made up of thin-walled, large cells irregularly traversed by small vascular bundles and laticiferous vessels. The latter are mostly not branched. The parenchyme is loaded with lumps of tannic matter and starch, the latter having mostly lost by the treatment with boiling water its granular appearance. The epidermis of the galls is covered with little tapering hairs, consisting each of 1-5 cells, to which is due the velvety down of the drug.

Chemical Composition—Chinese or Japanese galls contain about 70 per cent. of a tannic acid, which has been first shown by Stein in 1849 to be identical with that derived from oak galls (see Gallæ halepenses), the so-called gallo-tannic or common tannic acid.[692] It is remarkable that this substance, which is by no means widely distributed, is also present in Rhus coriaria, a species indigenous in the Mediterranean region. Its leaves and shoots are the well-known dyeing and tanning material Sumach.

Stein, however, pointed out at the same time, that in Chinese galls gallo-tannic acid is accompanied by a small amount, about 4 per cent., of a different tannic matter.

Commerce—At present the supplies arrive chiefly from Hankow, from which great trading city the export, in 1872, was no less than 30,949 peculs, equal to 36,844 cwt; 21,611 peculs, value 136,214 taels (one tael about 6s.) in 1874. In 1877 all China exported not more than 17,515 peculs. A little is also shipped from Canton and Ningpo.[693] The quantity imported from China into the United Kingdom in 1872 was 8621 cwts., valued at £20,098. In the China trade returns, the drug is always miscalled “Nut galls,” or “gallnuts.” Only those called “Wu-pei-tze” are the galls under examination. There are also oak galls exported from China resembling those from Western Asia. Japanese galls, “Kifushi,” are shipped in increasing quantities at Hiogo.[694]

Uses—The galls under notice are employed, chiefly in Germany, for the manufacture of tannic acid, gallic acid, and pyrogallol.