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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 4. Sphærozoida Diam. Fig. 1. Sphærozoum trigeminum, n. sp., × 50 An annular colony. The main mass of the jelly-colony is filled up by large alveoles; the entire surface is densely covered with spicula, and beyond this skeleton-cover lie the spherical central capsules, each with an oil-globule. This species is by mistake not mentioned in the text. Fig. 2. Sphærozoum alveolatum, n. sp., × 50 Section through a spherical colony; displaying the inside of a hemisphere. All the central capsules lie in a single stratum on the surface of the jelly-sphere, each being surrounded by a thick-walled alveole. The spicula lie between the alveole and the capsule, which includes a central oil-globule. Fig. 3. Sphærozoum alveolatum, n. sp., × 400 A single central capsule, filled up by crystal-spores. Numerous geminato-radiate spicula and spherical xanthellæ lie between the capsule and the including thick-walled alveole. In the jelly-calymma, between the capsule and the alveole, numerous thin ramified pseudopodia are expanded. Fig. 4. Sphærozoum geminatum, n. sp., × 400 A single central capsule, with a central oil-globule, surrounded by numerous spicula and spherical xanthellæ. The jelly-substance of the calymma is expanded between the points of the spicula. Fig. 5. Sphærozoum variabile, n. sp., × 300 Three isolated spicula. Fig. 6. Sphærozoum pandora, n. sp. (vel Rhaphidozoum pandora), × 300 A group of various spicula. Fig. 7. Sphærozoum verticillatum, n. sp., × 300 A single spiculum. Fig. 8. Sphærozoum arborescens, n. sp., × 300 A single spiculum. Fig. 9. Sphærozoum armatum, n. sp., × 300 A single spiculum.
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 59. Tripocyrtida, Podocyrtida et Phormocyrtida. Diam. Fig. 1. Lampromitra huxleyi, n. sp., × 400 Fig. 2. Amphiplecta callistoma, n. sp., × 400 Fig. 3. Corocalyptra agnesæ, n. sp., × 400 Fig. 4. Corocalyptra emmæ, n. sp., × 400 The shell encloses the trilobate central capsule, with the trilobate nucleus. Fig. 5. Clathrocyclas cassiopejæ, n. sp., × 400 Fig. 6. Clathrocyclas alcmenæ, n. sp., × 400 Fig. 7. Clathrocyclas latonæ, n. sp., × 400 Apical view. Fig. 8. Diplocylas bicorona, n. sp., × 400 Fig. 9. Clathrocyclas ionis, n. sp., × 400 Fig. 10. Corocalyptra elisabethæ, n. sp., × 400 Oblique apical view of the shell, with the quadrilobate central capsule enclosed. Fig. 11. Clathrocyclas europæ, n. sp., × 400 Apical view of the shell, after removal of the cephalis. Fig. 12. Clathrocyclas europæ, n. sp., × 400 Central capsule, seen from above, with the quadrilobate nucleus. Fig. 13. Clathrocyclas danaës, n. sp., × 300 Vertical section through the cephalis and the quadrilobate central capsule, with the quadrilobate nucleus. Fig. 14. Clathrocyclas danaës, n. sp., × 300 Apical view of the shell.
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 45. Porodiscida. Diam. Fig. 1. Stauralastrum rhopalophorum, n. sp., × 200 Fig. 2. Dicranastrum cornutum, n. sp., × 200 Fig. 3. Hagiastrum mosis, n. sp., × 100 Fig. 4. Hagiastrum mosis, n. sp., × 50 Lateral view, from the edge. Fig. 5. Hagiastrum buddhæ, n. sp., × 50 Fig. 6. Stauralastrum cruciforme, n. sp. (in glycerine), × 500 The central capsule contains a large central nucleus with nucleolus, and is surrounded by the jelly calymma and numerous small zooxanthellæ. The endoplasm is radially striped. Fig. 7. Tesserastrum democriti, n. sp., × 100 Fig. 8. Tesserastrum straussii, n. sp., × 500 Fig. 9. Tesserastrum brunonis, n. sp., × 200 Disk seen from the edge. Fig. 10. Amphirhopalum echinatum, n. sp., × 300 Fig. 11. Amphicraspedum maclaganium, n. sp., × 100 Fig. 12. Amphicraspedum wyvilleanum, n. sp., × 300
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 77. Podocampida, Phormocampida et Lithocampida. Diam. Fig. 1. Lithocampe ovata, n. sp., × 500 Fig. 2. Lithocampe urceolata, n. sp., × 400 Fig. 3. Lithocampe diploconus, n. sp., × 400 Fig. 4. Dictyomitra eurythorax, n. sp., × 300 Fig. 5. Eucyrtidium teuscheri, n. sp., × 400 Fig. 6. Lithostrobus cornutus, n. sp., × 400 Fig. 7. Eucyrtidium bütschlii, n. sp., × 400 Fig. 8. Cyrtocapsa compacta, n. sp., × 300 Fig. 9. Stichopilium bicorne, n. sp., × 600 Fig. 10. Artopilium longicorne, n. sp., × 500 Fig. 11. Stichopilium campanulatum, n. sp., × 400 Fig. 12. Artopilium cyrtopterum, n. sp., × 400 Fig. 13. Phormocampe campanula, n. sp., × 400 Fig. 14. Phormocampe eucalyptra, n. sp., × 300 Fig. 15. Cyrtophormis corona, n. sp., × 300 Fig. 16. Phormocampe lamprocyclas, n. sp., × 300 Fig. 17. Cyrtophormis cylindrica, n. sp., × 300 Fig. 18. Cyrtophormis cornuta, n. sp., × 500
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Summary[
edit] Description: Magnification: 250x, bright field (negative image), stacked image Fundort / Site: Barbados Alter / Age: approx. 32-35 million years (late Eocene - early Oligocene) Präparation / Preparation: Andreas Drews Radiolarians are unicellulars of diameter 0.1–0.2 mm that produce intricate mineral skeletons, typically with a central capsule dividing the cell into the inner and outer portions of endoplasm and ectoplasm.The elaborate mineral skeleton is usually made of silica. They are found as zooplankton throughout the ocean, and their skeletal remains make up a large part of the cover of the ocean floor as siliceous ooze. Due to their rapid turn-over of species, they represent an important diagnostic fossil found from the Cambrian onwards. (Source: Wikipedia) This is a stacked image, made by using a microscope and composed of dozens of single photos at different focus levels. For any information about stacking technique, please see:
digital-photography-school.com/a-beginners-guide-to-focus... Date: 17 April 2017, 19:45. Source:
Druppatractus sp - Radiolarian. Author:
Picturepest.
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 140. Belonaspida, Hexalaspida et Diploconida. Diam. Fig. 1. Diploconus amalla, n. sp., × 300 Fig. 2. Diploconus hexaphyllus, n. sp., × 300 Fig. 3. Diploconus cyathiscus, n. sp., × 300 Fig. 4. Diploconus cotyliscus, n. sp., × 400 Polar view. Fig. 5. Diplocolpus serratus, n. sp., × 300 Fig. 6. Diplocolpus cristatus, n. sp., × 400 Fig. 7. Diplocolpus costatus, n. sp., × 400 Fig. 8. Diplocolpus sulcatus, n. sp., × 300 Fig. 9. Diplocolpus dentatus, n. sp., × 300 Meridional section through the centre of the shell. Fig. 10. Hexacolpus infundibulum, n. sp., × 300 Fig. 11. Hexacolpus trypanon, n. sp., × 300 Fig. 12. Hexaconus echinatus, n. sp., × 300 Fig. 13. Coleaspis vaginata, n. sp., × 300 Meridional section through the shell. Fig. 14. Coleaspis hydrotomica, n. sp., × 400 Fig. 15. Hexonaspis hexapleura, n. sp., × 400 A single spine with its thick apophyses. Fig. 16. Hexonaspis hastata, n. sp., × 400
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Singapore, Central Singapore, Singapore
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 26. Liosphærida et Astrosphærida. Diam. Fig. 1. Coscinomma amphisiphon, n. sp., × 300 Fig. 1a. A piece of the lattice-shell, × 600 Fig. 1b. Vertical section through the shell-wall, × 600 Fig. 2. Heliosphæra hexagonaria, n. sp., × 300 Fig. 3. Acanthosphæra castanea, n. sp., × 400 Fig. 4. Acanthosphæra angulata, n. sp., × 300 Fig. 5. Acanthosphæra reticulata, n. sp., × 300 Fig. 6. Heliosphæra coronata, n. sp., × 400 Fig. 6a. A single pore with its coronal, × 300 Fig. 7. Acanthosphæra mucronata, n. sp., × 400 Fig. 8. Acanthosphæra clavata, n. sp., × 400 Fig. 9. Heliosphæra pectinata, n. sp., × 400 Fig. 10. Cenosphæra perforata, n. sp., × 400 Fig. 11. Cenosphæra coronata, n. sp., × 400
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Жизнь животных в 7 томах, 2-е издание, Москва, Просвещение, 1987—89.
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Summary[
edit] Description: My last radiolarian for this year, promise ;-) To all of you who love these unearthly beings as much as I do: I found a new specimen slide under the christmas tree! So 2017 will also see some new radiolarian pictures. The one above is the first picture taken from this very specimen slide. I wish you a happy 2017, whereever you are! 400x magnified, stacked image, bright field (negative image) Radiolarie / Radiolarian Fundort / Site: Barbados (sediment sample) Alter / Age: fossil (Middle Eocene to Oligocene) Präparation / Preparation: Andreas Drews, 2016 Disclaimer: As usual, I'm in a hurry, so please be patient with me. I will react to your comments and faves asap!. Date: 30 December 2016, 13:26. Source:
Theopera sp. - Radiolarian - 400x. Author:
Picturepest.
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Summary[
edit] Description: English: Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 46. Porodiscida. Diam. Fig. 1. Histiastrum boseanum, n. sp.,: ×: 400. Fig. 2. Histiastrum pentadiscus, n. sp.,: ×: 200. Fig. 3. Histiastrum quadrigatum, n. sp.,: ×: 300. Fig. 4. Histiastrum velatum, n. sp.,: ×: 200. Fig. 5. Stephanastrum quadratum, n. sp.,: ×: 200. Date: 1887. Source:
https://archive.org/details/reportonradiolar00haecrich. Author: Ernst Haeckel (1834-1919); engravings by Adolf Giltsch (1852-1911).
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 94. Tympanida. Diam. Fig. 1. Tympanidium foliosum, n. sp., × 400 Fig. 2. Octotympanum cervicorne, n. sp., × 400 Fig. 3. Octotympanum octonarium, n. sp., × 400 Fig. 4. Tympaniscus quadrupes, n. sp., × 400 Fig. 5. Tympaniscus dipodiscus, n. sp., × 400 Frontal view. Fig. 6. Tympaniscus dipodiscus, n. sp., × 400 Lateral view. Fig. 7. Tympaniscus tripodiscus, n. sp., × 400 Frontal view. Fig. 8. Microcubus zonarius, n. sp., × 300 Fig. 9. Microcubus dodecastoma, n. sp., × 300 Fig. 10. Microcubus amphispyris, n. sp., × 400 Fig. 11. Pseudocubus obeliscus, n. sp., × 400 Fig. 12. Pseudocubus hexapylus, n. sp., × 300 Fig. 13. Lithocubus geometricus, n. sp., × 200 Fig. 14. Paratympanum octostylum, n. sp., × 400 Fig. 15. Dystympanium dictyocha, n. sp., × 400 Lateral view. Fig. 16. Dystympanium dictyocha, n. sp., × 400 Apical view. Fig. 17. Circotympanum octogonium, n. sp., × 500 Fig. 18. Tympanidium binoctonum, n. sp., × 400
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 22. Cubosphærida. Diam. Fig. 1. Hexalonche pythagoræa, n. sp., × 300 Fig. 2. Hexalonche conicornis, n. sp., × 300 Fig. 3. Hexalonche aristarchi, n. sp., × 400 Fig. 4. Hexalonche philosophica, n. sp., × 400 Fig. 5. Hexalonche anaximandri, n. sp., × 400 Fig. 6. Hexalonche octocolpa, n. sp., × 300 Fig. 6a. The inner shell alone. Fig. 7. Hexalonche heracliti, n. sp., × 300 Fig. 8. Hexalonche octahedra, n. sp., × 400 Fig. 8a. The inner shell alone. Fig. 9. Hexancistra tricuspis, n. sp., × 300 Fig. 10. Hexancistra triserrata, n. sp., × 300 Fig. 11. Hexancistra quadricuspis, n. sp., × 300
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 18. Liosphærida et Astrosphærida. Diam. Fig. 1. Centrocubus cladostylus, n. sp., × 100 Fig. 2. Octodendron spathillatum, n. sp., × 300 The entire inner shell, but a small part only of the outer shell is represented. Fig. 3. Octodendron cubocentron, n. sp., × 400 The central capsule (somewhat irregular by compression?) exhibits a large excentric nucleus (probably dislocated artificially?). Fig. 4. Octodendron spathillatum, n. sp., × 800 Free distal end of a radial spine, with the spathillæ on the end of the branches. Fig. 5. Rhizosphæra serrata, n. sp., × 300 Fig. 6. Rhizosphæra serrata, n. sp., × 300 Medullary shell. Fig. 7. Rhizosphæra serrata, n. sp., × 600 A single radial spine. Fig. 8. Plegmosphæra exodictyon, n. sp., × 200 The central shell-cavity encloses the spherical central capsule and the concentric nucleus. Fig. 9. Spongodrymus elaphococcus, n. sp., × 150 The entire inner shell, but only a small part of the outer spongy envelope is represented.
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 67. Podocyrtida. Diam. Fig. 1. Lithornithium falco, n. sp., × 400 Fig. 2. Lithornithium fringilla, n. sp., × 400 Fig. 3. Lithornithium ciconia, n. sp., × 400 Fig. 4. Lithornithium trochilus, n. sp., × 400 Fig. 5. Theopera fusiformis, n. sp., × 400 Fig. 6. Theopera chytropus, n. sp., × 400 Fig. 7. Theopera prismatica, n. sp., × 300 Fig. 8. Theopera cortina, n. sp., × 400 Fig. 9. Rhopalocanium delphicum, n. sp., × 400 Fig. 10. Rhopalocanium lasanum, n. sp., × 300 Fig. 11. Lithochytris lanterna, n. sp., × 300 Fig. 12. Lithochytris cortina, n. sp., × 300 Fig. 13. Lithochytris pyriformis, n. sp., × 400 Fig. 14. Lithochytris lucerna, n. sp., × 300 Fig. 15. Lithochytris pteropus, n. sp., × 300 Fig. 16. Lithochytris galeata, n. sp., × 400
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Identifier: americanannualof28newy (
find matches)Title:
The American annual of photographyYear:
1914 (
1910s)Authors: Subjects:
PhotographyPublisher:
New York : Tennant and WardContributing Library:
Harold B. Lee LibraryDigitizing Sponsor:
Brigham Young UniversityView Book Page:
Book ViewerAbout This Book:
Catalog EntryView All Images:
All Images From Book Click here to
view book online to see this illustration in context in a browseable online version of this book.Text Appearing Before Image:valuable results, thanthat of photo-micrography, which enables the microscopist tosecure a wealth of detail from the minute forms of life quiteimpossible by any system of sketching through a cameralucida. Vlt should not be forgotten that both camera and cameralucida may be a fruitful source of error, either through absenceof knowledge necessary to avoid it, or the bias of what is calledthe personal equation. For pictorial purposes this individu- 34 ality is of the highest importance, and latitude is rightly givenin the treatment of both negative and print, but to the scientificworker whose aim should be to depict nature simply as it issuch doctoring of a negative is strictly forbidden. Mereprettiness is of no value unless it conveys a truthful renderingof the object photographed, and this dominating element ofaccuracy should be borne in mind by all photo-micrographers.Now, it is a strange fact that there are many medical studentsand amateurs in every grade of society who take up pho-Text Appearing After Image:ENLARGED POLYCYSTINA. Illustrating Article Microscope and Camera, by Walter Bagshaw, F.R.M.S. tography as a hobby, while at the same time regularly usingthe microscope for serious work who nevertheless have nevertried the camera and microscope in combination. This may arise from lack of thought, though probably atotal misconception of fancied difficulties has had a deterringeffect. Whether from one or both causes the purpose of thepresent article is to call attention to the fascinating simplicityof photographing through the microscope. Independent ofweather, scenery, and sunshine, the photographer may be seatedat a comfortable fireside by gaslight and produce pictures mar- 35 velous and instructive; records of a vast kingdom invisible tothe unassisted eye. A simple experiment will enable theowner of any microscope to use it as a magic lantern forprojecting a magnified picture of his slide on to a piece ofwhite cardboard, and the only difference betwixt enlargementsmade in this mannerNote About Images Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original work.
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 55. Phænocalpida, Anthocyrtida et Sethocyrtida. Diam. Fig. 1. Sethoconus facetus, n. sp. (vel Phlebarachnium facetum), × 300 Upper part of the shell. Fig. 2. Sethoconus venosus, n. sp. (vel Phlebarachnium venosum), × 250 Shell including the four-lobed central capsule. Fig. 3. Sethophormis aurelia, n. sp. (vel Leptarachnium aurelia), × 100 Shell seen from above. Fig. 4. Sethophormis aurelia, n. sp., × 400 Cephalis more enlarged, with the enclosed four-lobed central capsule. Fig. 5. Cladarachnium ramosum, n. sp., × 300 Apical view. Fig. 6. Cladarachnium ramosum, n. sp., × 70 Lateral view. Fig. 7. Bathropyramis interrupta, n. sp., × 300 Apical part of the shell, from above. Fig. 8. Litharachnium araneosum, n. sp., × 300 Apical part of the shell, from above. Fig. 9. Litharachnium epeira, n. sp., × 500 Oblique view of the shell. Fig. 10. Litharachnium araneosum, n. sp., × 50 Lateral view. Fig. 11. Periarachnium periplectum, n. sp., × 500 Shell enclosing the trilobed central capsule.
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Summary[
edit] Description: English: Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 23. Cubosphærida. Diam. Fig. 1. Hexadendron bipinnatum, n. sp.,: ×: 400. Fig. 2. Hexacromyum octahedrum, n. sp.,: ×: 400. Fig. 3. Hexancistra mirabilis, n. sp. (= Hexapitys mirabilis),: ×: 400. The spherical central capsule encloses the concentric spherical inner shell (which is filled up by the nucleus), and is surrounded by the octahedral outer shell. The latter is enveloped by the octahedral calymma, which is radially striated and contains numerous xanthellæ. Fig. 4. Hexacaryum arborescens, n. sp.,: ×: 400. Fig. 5. Hexacontium clavigerum, n. sp.,: ×: 300. Date: 1887. Source:
https://archive.org/details/reportonradiolar00haecrich. Author: Ernst Haeckel (1834-1919); engravings by Adolf Giltsch (1852-1911).
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 28. Liosphærida et Astrosphærida. Diam. Fig. 1. Haliomma lirianthus, n. sp., × 300 Fig. 1a. Medullary shell, × 300 Fig. 1b. Three pores of the cortical shell, × 900 Fig. 2. Carposphæra nodosa, n. sp., × 300 Fig. 2a. The medullary shell is visible, the upper half of the cortical shell being taken off, × 300 Fig. 3. Heliosoma radians, n. sp., × 300 Fig. 3a. Medullary shell, × 300 Fig. 4. Heliosoma hastatum, n. sp., × 400 Fig. 5. Haliomma compactum, n. sp., × 400 Fig. 5a. The upper half of the cortical shell is removed, × 300 Fig. 6. Haliomma macrodoras, n. sp., × 400 Fig. 7. Haliomma circumtextum, n sp., × 400 Fig. 8. Elatomma juniperinum, n. sp., × 400 Fig. 8a. Medullary shell, × 400
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Illustration from Report on the Radiolaria collected by H.M.S. Challenger during the years 1873-1876. Part III. Original description follows: Plate 75. Podocampida et Phormocampida. Diam. Fig. 1. Artopilium elegans, n. sp. (vel Trictenartus elegans), × 200 Fig. 2. Artophormis horrida, n. sp., × 300 Fig. 3. Cyrtopera thoracoptera, n. sp. (vel Artopera thoracoptera), × 300 Fig. 4. Stichophæna ærostatica, n. sp. (vel Artophæna ærostatica), × 400 Fig. 5. Cyrtophormis turricula, n. sp., × 300 Fig. 6. Stichopodium dictyopodium, n. sp., × 400 Fig. 7. Artopilium trifenestra, n. sp. (vel Clathropyrgus trifenestra), × 500 Fig. 8. Artopilium stichopterygium, n. sp., × 400 Fig. 9. Stichophormis cornutella, n. sp., × 400 Fig. 10. Cyrtopera laguncula, n. sp. (vel Cyrtolagena laguncula), × 400 Fig. 11. Stichopera pectinata, n. sp., × 500 Fig. 12. Stichophæna ritteriana, n. sp., × 400