1911 Encyclopædia Britannica/Regalia
REGALIA (Lat. regalis, royal, from rex, king), the ensigns of royalty. The crown (see Crown and Coronet) and sceptre (see Sceptre) are dealt with separately. Other ancient symbols of royal authority are bracelets, the sword, a robe or mantle, and, in Christian times, a ring. Bracelets, as royal emblems, are mentioned in the Bible in connexion with Saul (2 Sam. i. 10), and they have been commonly used by Eastern monarchs. In Europe their later use seems to have been fitfully confined to England, although they were a very ancient ornament for kings among the Teutonic races. Two coronation bracelets are mentioned among the articles of the regalia ordered to be destroyed at the time of the Commonwealth, and two new ones were made at the Restoration. These are of gold, 1½ in. in width, and ornamented with the rose, thistle, harp and fleur-de-lis in enamel round them. They have not been used for modern coronations.
The sword is one of the usual regalia of most countries, and is girded on to the sovereign during the coronation. In England the one sword has been developed into five. The Sword of State is borne before the sovereign on certain state occasions, and at the coronation is exchanged for a smaller sword, with which the king is ceremonially girded. The three other swords of the regalia are the “Curtana,” the Sword of Justice to the Spirituality, and the Sword of Justice to the Temporality. The Curtana has a blade cut off short and square, indicating thereby the quality of mercy.
The mantle, as a symbol of royalty, is almost universal, but in the middle ages other quasi-priestly robes were added to it (see Coronation). The English mantle was formerly made of silk; latterly cloth of gold has been used., The ring, by which the sovereign is wedded to his kingdom, is not of so wide a range of usage. That of the English kings held a large ruby with a cross engraved on it. Recently a sapphire has been substituted for the ruby. Golden spurs, though included among the regalia, are merely used to touch the king's feet, and are not worn.
The orb and cross was not anciently placed in the king's hands during the coronation ceremony, but was carried by him in the left hand on leaving the church. It is emblematically of monarchical rule, and is only used by a reigning sovereign. The idea is undoubtedly derived from the globe with the figure of Victory with which the Roman emperors are depicted. The larger orb of the English regalia is a magnificent ball of gold, 6 in. in diameter, with a band round the centre edged with gems and pearls. A similar band arches the globe, on the top of which is a remarkably fine amethyst 1½ in. in height, upon which rests the cross of gold outlined with diamonds. There is a smaller orb made for Mary II., who reigned jointly with King William III.
The English regalia, with one or two exceptions, were made for the coronation of Charles II. by Sir Robert Vyner. The Scottish regalia preserved at Edinburgh comprise the crown, dating, in part, from Robert the Bruce, the sword of state given to James IV. by Pope Julius II., and two sceptres.
Besides regalia proper, certain other articles are sometimes included under the name, such as the ampulla for the holy oil, and the coronation spoon. The ampulla is of solid gold in the form of an eagle with outspread wings. It weighs 10 oz., and holds 6 oz. of oil. The spoon was not originally used for its present purpose. It is of the 12th or 13th century, with a long handle and egg shaped bowl. Its history is quite unknown.
See Cyril Davenport, The English Regalia, with illustrations in colour of all the regalia; Leopold Wickham Legg, English Coronation Records; The Ancestor, Nos. 1 and 2 (1902); Menin, The Form, &c., of Coronations (translated from French, 1727).
REGENERATION OF LOST PARTS. A loss and renewal of living material, either continual or periodical, is a familiar occurrence in the tissues of higher animals. The surface of the human skin, the inner lining of the mouth and respiratory organs, the blood corpuscles, the ends of the nails, and many other portions of tissues are continuously being destroyed and replaced. The hair of many mammals, the feathers of birds, the epidermis of reptiles, and the antlers of stags are shed and replaced periodically. In these normal cases the regeneration depends on the existence of special formative layers or groups of cells, and must be regarded in each case as a special adaptation, with individual limitations and peculiarities, rather than as a mere exhibition of the fundamental power of growth and reproduction displayed by living substance. Many tissues, even in the highest animals, are capable of replacing an abnormal loss of substance. Thus in mammals, portions of muscular tissue, of epithelium, of bone, and of nerve, after accidental destruction or removal, may be renewed. The characteristic feature of such cases appears to be, in the higher animals at any rate, that lost cells are replaced only from cells of the same morphological order—epiblastic cells from the epiblast, mesoblastic from the mesoblast, and so forth. It is also becoming clear that, at least in the higher animals, regeneration is in intimate relation with the central nervous system. The process is in direct relation to the general power of growth and reproduction possessed by protoplasm, and is regarded by pathologists as the consequence of “removal of resistances to growth.” It is much less common in the tissues of higher plants, in which the adult cells have usually lost the power of reproduction, and in which the regeneration of lost parts is replaced by a very extended capacity for budding. Still, more complicated reproductions of lost parts occur in many cases, and are more difficult to understand.
In Amphibia the entire epidermis, together with the slime-glands and the integument sense-organs, is regenerated by the epidermic cells in the vicinity of the defect. The whole limb of a Salamander or a Triton will grow again and again after amputation. Similar renewal is either rarer or more difficult in the case of Siren and Proteus. In frogs regeneration of amputated limbs does not usually take place, but instances have been recorded. Chelonians, crocodiles and snakes are unable to regenerate lost parts to any extent, while lizards and geckoes possess the capacity in a high degree. The capacity is absent almost completely in birds and mammals. In coelenterates, worms, and tunicates the power is exhibited in a very varying extent. In Hydra, Nais, and Lumbriculus, after transverse section, each part may complete the whole animal. In most worms the greater, and in particular the anterior part, will grow a new posterior part, but the separated posterior portion dies. In Hydra, sagittal and horizontal amputations result in the completion of the separated parts. In worms such operations result in death, which no doubt may be a mere consequence of the more severe wound. Extremely interesting instances of regeneration are what are called “Heteromorphoses,” where the removed part is replaced by a dissimilar structure. The tail of a lizard, grown after amputation, differs in structure from the normal tail: the spinal cord is replaced by an epithelial tube which gives off no nerves; the vertebrae are replaced by an unsegmented cartilaginous tube; very frequently “super-regeneration” occurs, the amputated limb or tail being replaced by double or multiple new structures.
J. Loeb produced many heteromorphoses on lower animals. He lopped off the polyp head and the pedal disc of a Tubularia, and supported the lopped stem in an inverted position in the sand; the original pedal end, now superior, gave rise to a new polyp head, while the neck-end, on regeneration, formed a pedal disc. In Cerianthus, a sea-anemone, and in Cione, an ascidian, regeneration after his operations resulted in the formation of new mouth-openings in abnormal places, surrounded by elaborate structures characteristic of normal mouths. Other observers have recorded heteromorphoses in Crustacea, where antennulae have been regenerated in place of eyes. It appears that, in the same fashion as more simply organized animals display a capacity for reproduction of lost parts greater than that of higher animals, so embryos and embryonic structures generally have a higher power of renewal than that displayed by the corresponding adult organs or organisms. Moreover, experimental work on the young stages of organisms has revealed a very striking series of phenomena, similar to the heteromorphoses in adult tissues, but more extended in range. H. Driesch, O. Hertwig and others, by separating the segmentation spheres, by destroying some of them, by compressing young embryos by
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Fig. 7.—The Sr Georges Spurs. | ||||||||||||||||||||||||
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Fig. 1.—Silver-Gilt Altar Dish dated 1660, with representation of the Last Supper; it forms part of the Altar plate at the Coronation and is in the custody of the Chapels Royal. | Fig. 2.—The Wine Fountain State Crown, presented to Charles II. by the Corporation of Plymouth. | |||