- Wyle Cop, Shrewsbury, 'A Minute Before Twelve'
- Phrygian Lady
- Theseus - Hyppolita - Deinomache
- Phrygian attired for a religious rite
- Sarmatian - Vesta - Paris
- Phrygian helmets, bow, bipennis, quiver, tunic, axe and javelin
- Asiatic Monarch
- Atys - the Phrygian shepherd
- Photo Engraving Company
- S. Maria della Salute
- Palazzo Contarini, with Spiral Staircase and Byzantine Well-Head
- The Rialto Bridge
- Statue of Bartolomeo Colleoni
- Venice from the Public Gardens
- Palazzo Vendramin
- Ca’ d’Oro
- Grand Canal, with the Riva del Carbon and Rialto Bridge
- Doge’s Palace—The Cortile
- S. Giorgio Maggiore
- Capitals, Atrium, S. Marco
- Byzantine Relief from South Side, S. Marco
- S. Marco—Detail of main door
- S. Marco—Detail of Archivolt
- The Piazzetta
- Palazzo Dario
- Bust of Francesco Foscari
- The Palazzi Giustiniani and Foscari
- Doge’s Palace—Sala del Maggior Consiglio
- Ponte di Paglia
- Remains of Marco Polo’s House
- Doge’s Palace—The Judgment of Solomon Corner
- S. Marco—Façade and Campanile
- Columns of SS. Mark and Theodore
- S. Marco and the Doge’s Palace, with the Loggetta in the Foreground
- The Squero, S. Trovaso
- Vine Pergola on the Giudecca
- S. Pietro in Castello from S. Elena
- Cloister of S. Francesca della Vigna
- Fishing Boats
- On the Lagoons
- Venice in the Sixteenth Century
- Sketch Map of Italy and the Eastern Mediterranean
- Murano
- Fishing Boats on the Giudecca
- Doorway with Coloured Relief of SS. Mark and Anianus
- Byzantine Crosses—Campo S. Maria Mater Domini
- Stomias Boa. From a depth of 1,900 metres
- Sicyonis crassa
M, mouth; S, ciliated groove; T, tentacles. Each tentacle is perforated by a single large aperture. A fact of some importance that supports this hypothesis, as regards some parts of the ocean at least, is presented by the sea-anemones. Many of the shallow-water Actinians are known to possess minute slits in the tentacles and disc, affording a free communication between the general body cavity or cœlenteron and the exterior. In many deep-sea forms the tentacles are considerably shorter and the apertures larger than they are in shallow-water forms. It is difficult to believe that such forms, perforated by, comparatively speaking, large holes, could manage to live in rapidly flowing water, for if they did so they would soon be smothered by the fine mud that composes the floor of all the deep seas. In fact anemones of the type presented by such forms as Sicyonis crassa are only fitted for existence in sluggish or still water. - Globigerina ooze
The Globigerina ooze is perhaps the best known of all the different deep-sea deposits. It was discovered and first described by the officers of the American Coast Survey in 1853. It is found in great abundance in the Atlantic Ocean in regions shallower than 2,200 fathoms. Deeper than this, it gradually merges into the ‘Red mud.’ It is mainly composed of the shells of Foraminifera, and of these the different species of Globigerina are the most abundant. It is probably formed partly by the shells of the dead Foraminifera that actually live on the bottom of the ocean and partly by the shells of those that live near the surface or in intermediate depths and fall to the bottom when their lives are done. So abundant are the shells of these Protozoa that nearly 95 per cent. of the Globigerina ooze is composed of carbonate of lime. The remaining five per cent. is composed of sulphate and phosphate of lime, carbonate of ammonia, the oxides of iron and manganese, and argillaceous matters. The oxides of iron and manganese are probably of meteoric origin; the argillaceous matter may be due to the trituration of lumps of pumice stone and to the deposits caused by dust storms. - Semi-diagrammatic section through the eye of Serolis schythei
a shallow-water species (4–70 fathoms). C, lens; V, crystalline cone; R, rhabdom; N, nerve. (After Beddard.) The eyes of all the deep-sea species are relatively larger than those of the shallow-water ones, except Serolis gracilis, whose eyes seem to be disappearing. But these large eyes of the deep-sea species of Serolis are not capable of any greater perceptive power. In fact, the evidence of degeneration they show, both in minute structure and in the diminution of pigment, proves that they can be of very little use to these animals for perception. - Opostomias micripnus
In Opostomias micripnus, a dark black fish living at a depth of over 2,000 fathoms, there are two rows of ocellar organs running down the sides of the body from the head to the tail. In the living animal they are said to shine with a reddish lustre. In addition to these, the conspicuous organs, there are `groups` of fifty, a hundred, or even more very much smaller organs situated on the sides and back of the fish, each of which is lenticular in shape and consists of a number of short polygonal tubes containing a granular substance with rounded bases resting on the subjacent tissue. The whole organ is covered 79by a simple continuation of the cuticle of the body-wall. The granular substance contained in the tubes is most probably the seat of luminosity. - Saccopharynx ampullaceus
- Melanocetus Murrayi, 1,850–2,450 fathoms
- Hypobythius calycodes
- Collosendeis arcuatus, from a depth of 1,500 metres
- Bentheuphausia amblyops, from 1,000 fathoms
- Polycheles baccata
- Euphausia latifrons, from the surface of the sea
- Bathynomus giganteus
- Bathyteuthis abyssicola