RMARWE0X–COMPARING ROOT SYSTEMS OF LEMON TREES (ON RIGHT) GROWN WITH MYCORRHIZA AND (ON LEFT) GROWN WITHOUT
RMWB6DPT–Ectopic functional paraganglioma (glomus jugulare) in a patient with VHL.
RF2C81K5N–Mock ear of a man on a white background. The concept of diseases of the outer and middle ear, otitis media. Copy space
RM2AXGC3P–A manual of anatomy . Fig. 250.— Dorsal view ofthe parathyrcoids and theneighboring organs. a, b,right superior and inferiorparathyrcoids, respectively. 340 THE DUCTLESS GLANDSCAROTID BODIES The intercarotid bodies {glomus caroticum) are two small bodiesstructures situated at the bifurcation of each common carotid artery.Each is about the size of a grain of wheat (3 mm. by i mm.). Eachis closely connected with the carotid sympathetics and is grayish-reddish brown, or yellowish in color. RiphiJIclreha./. Fig. 251.—The adrenals, ventral view. (From a photograph.) COCCYGEAL GLAND The coccygeal gl
RMARWAAP–LAB TECHNICIAN COMPARING ROOT SYSTEMS OF LEMON TREES (ON RIGHT) GROWN WITH MYCORRHIZA AND (ON LEFT) GROWN WITHOUT
RMARAN86–Zhou Zhuang Cn Silk 1
RMPFY3B4–. Cunningham's Text-book of anatomy. Anatomy. Pancreatic impression Intermediate angle Posterior angle Fig. 1063.âThe SpleenâVisceral Aspect. The pulp is a spongework of fine fibres covered, at places entirely concealed, by branched connective-tissue corpuscles, reticulum cells. Associated with these, occupying some of the Central blood-space Capillaries Capilla. -Capillaries â Capilaries Central blood-space Fig. 1064.âSection through Glomus Coccygeum (highly .magnified). From J. W. Thomson Walker. smaller spaces of the spongework, are ceUs like very large leucocytes, spleen phagocytes. These
RMW9HATT–Archive image from page 1388 of Cunningham's Text-book of anatomy (1914). Cunningham's Text-book of anatomy cunninghamstextb00cunn Year: 1914 ( GLOMUS COCCYGEUM. 1355 The arteries enter at tlie hilus, run in the trabecule, and branch freely. The smaller arteries have a lymphoid sheath developed in their walls. This replaces the fibrous sheath which the larger arteries receive from the trabeculse. Every here and there the lymphoid sheath expands symmetrically or asymmetrically to form a lymphatic nodule (nodulus lymphaticus lienalis). Many of the nodules thus formed are quite small; others are
RM2AN5YJH–Anatomy, physiology and hygiene for high schools . he tubes and ramify into fine branches in the cortex.These branches end in fine clusters of capillaries known asglomeruli. From each of these clusters a vein issues. Eachcluster of capillaries, or glomerulus(Latin glomus, a ball of cotton ),is suiTounded by the closed, dilatedend of a tuhule ( small tube ). Thewhole structure, the cluster of ves-sels projecting into the closed endof a tubule, is known as a Malpighian(after Malpighi, who first describedit) capsule. The wall of a tubule consists ofa single layer of epithelial cells,mostly cubica
RMPFA8CY–. The development of the frog's egg; an introduction to experimental embryology. Embryology. B Fig. 48. — Three stages in the formation of the pronephros. (A and C after Field.) hollow Stalks are formed leading ventrally into the longitu- dinal canal of the segmental duct. A proliferation of cells from the somatic layer of the meso- blastic somites, dorsal to the pronephros, gives rise to a cover- ing of mesoderm for the pronephros, the pronephric capsule. A little later a protrusion of the splanchnic wall opposite to the funnels of the pronephros forms the glomus (Fig. 47, B). The glomus"
RMW15MY8–Archive image from page 167 of The development of the frog's. The development of the frog's egg; an introduction to experimental embryology . developmentoffro00morg Year: 1897 EF EF'eF- EFl EH EM B AU AF' AF- TA AF Fig. 46, A. — AF. Afferent branchial vessel. AR. Anterior cerebral artery. CA, CP. Anterior and posterior commissural vessel. EFi, EF-, EF, EF4. Efferent branchial vessels of the first, second, third, and fourth brancliial arches. EH. Ef- ferent hyoid vessel. EM. Eft'ei-ent mandibular vessel, (i. Glomus. O. Aorta. P. Pronephros. RT. Truncus arteriosus. S. Segmental duct. (After
RM2AWD5CB–The Cambridge natural history . th adductorswell developed, heart with two aortae, branchiae free, withoutinterlamellar junctions, no siphons; renal and generative aper-tures distinct. Fam. 1. Arcadae.-—Mantle edge with composite eyes; shellround or trapezoidal, solid, often with stout bushy periostracum;ligament often external, on a special area; hinge with numer-ous lamelliform teeth. Ordovician . Principal genera : Area (inch Barhatia,Scaph%da, and Gucullaeci), heart dorsal torectum; Pectuncidus, Glomus^ Lvmo])sis;Trinacria and Nucidina (Tertiary). Fam. 2. Trigoniidae.—Foot large,hatchet -
RMPFA8DH–. The development of the frog's egg; an introduction to experimental embryology. Embryology. EF* EF^'eF-^ EFl EH EM B. AU AF" AF- TA AF^ Fig. 46, A. — AF. Afferent branchial vessel. AR. Anterior cerebral artery. CA, CP. Anterior and posterior commissural vessel. EFi, EF-, EF^, EF*4. Efferent branchial vessels of the first, second, third, and fourth brancliial arches. EH. Ef- ferent hyoid vessel. EM. Eft'ei-ent mandibular vessel, (i. Glomus. O. Aorta. P. Pronephros. RT. Truncus arteriosus. S. Segmental duct. (After jNIarshall.) B. — AFi, AF-^, AF3. Afferent branchial vessels. AU. Auricle.
RM2AFYJTN–. The illustrated companion to the Latin dictionary and Greek lexicon; forming a glossary of all the words representing visible objects connected with the arts, manufactures, and every-day life of the Greeks and Romans, with representations of nearly two thousand objects from the antique. trike, O Rome!Others have been found in Greece,inscribed with the figure of a thun-derbolt, or AEHAI, « Take this. GLOMUS (toAutttj). A clew, orball of wool (Hor.Ep. i. 13. 14. Lu-cret. i. 360.), or flax(Plin. H.N. xxxvi.19. § 4.), taken offthe spindle (fusus)after it had beenspun into worstedor thread, and r
RMRDN36J–. Tales of fishes . Fishing. XIPHIAS Glomus, THE BROADSWORDED GLADIATOR OF THE SEA. 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.. Grey, Zane, 1872-1939. New York, London : Harper & Brothers
RMREF8F8–. Comparative anatomy. Anatomy, Comparative. nephrostome glomus. 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.. Neal, Herbert V. (Herbert Vincent), 1869-1940; Rand, Herbert W. (Herbert Wilbur), 1872-1960. Philadelphia : P. Blakiston's Son
RMRN5H07–. Animal biology. Zoology; Biology. Cayify ofmyo- -f-ome Pronephric ducf. ,— Glomus Coelom Mesonephn'c iubule. 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.. Wolcott, Robert Henry, 1868-1934. New York ; London : McGraw-Hill Book Company, Inc.
RMRN5GYN–. Animal biology. Zoology; Biology. ,— Glomus Coelom Mesonephn'c iubule. Glomeru/us Uesofiephn'c cfucf //ephrosfonie Coe/om B. 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.. Wolcott, Robert Henry, 1868-1934. New York ; London : McGraw-Hill Book Company, Inc.
RMRN5FE9–. Animal biology. Zoology; Biology. Cavity of myo- tome Pronephric duct. Glomus Coelom Mesonephr/c cfucf Mesonephnc tubu/e. 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.. Wolcott, Robert Henry, 1868-1934; University of Nebraska (Lincoln campus). Dept. of Zoology. New York ; London : McGraw-Hill Book Company, Inc.
RMRN5FDR–. Animal biology. Zoology; Biology. Glomus Coelom Mesonephr/c cfucf Mesonephnc tubu/e. 6lof77eru/us f^ephrostotne Coe/om B. 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.. Wolcott, Robert Henry, 1868-1934; University of Nebraska (Lincoln campus). Dept. of Zoology. New York ; London : McGraw-Hill Book Company, Inc.
RMREFG0E–. Comparative anatomy of vertebrates. Anatomy, Comparative; Vertebrates -- Anatomy. UROGENITAL SYSTEM. 313 so that the whole resembles a renal corpuscle, but is different in origin. In either case the exuding fluid passes into the metaccele from which it is drawn by the cilia of the nephrostomes and passed into the tubules. The blood is brought to the glomus or glomeruli by short segmental arteries arising from the dorsal aorta (fig. 318) and, after passing through the capillaries, it is carried away by the postcardinal veins of the corresponding side to the heart, these veins keeping pace in
RMRDT0T0–. Text book of vertebrate zoology. Vertebrates; Anatomy, Comparative. UROGENITAL ORGANS. 119 participate in its formation. From this time on the prone- phric duct is usually called the mesonephric or Wolffian duct. The aorta likewise forms segmental twigs, which grow out to- wards the splanchnic layer of the nephrotome, and give rise to a series of vascular networks, the glomeruli, which differ from the glomus of the pronephros in that they project not into the larger body cavity (splanchnocoele), but into the cavity of the. Fig. 127. Diagram of the development of the nephridial system in the
RMRN82W6–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. 501 with Telleyesniczky's Bichromate-acetic and the older ones in Zenker's fluid, I stained these in bulk with Grenachee's borax- carmine and Ehrlich's Haematoxylin respectively. As these embryos ranged from the time of the appearance of the primitive streak on- wards by successive slight differences in age I was enabled to make a comparison of the kidney in embryos at many different stages. In addition to a description of the pronephros and its duct, the mesonephros, glomus and glomeruH, I hope to add observations upon the d
RMRD6DGB–. Cunningham's Text-book of anatomy. Anatomy. Pancreatic impression Intermediate angle Posterior angle Fig. 1063.âThe SpleenâVisceral Aspect. The pulp is a spongework of fine fibres covered, at places entirely concealed, by branched connective-tissue corpuscles, reticulum cells. Associated with these, occupying some of the Central blood-space Capillaries Capilla. -Capillaries â Capilaries Central blood-space Fig. 1064.âSection through Glomus Coccygeum (highly .magnified). From J. W. Thomson Walker. smaller spaces of the spongework, are ceUs like very large leucocytes, spleen phagocytes. These
RMRN5FEG–. Animal biology. Zoology; Biology. 332 METAZOAN PHYLA (Fig. 229). If these tubules belong to metameres located far forward in the body, the organ is called a pronephros, or head kidney; such tubules open freely into the coelom by a ciliated funnel and take the waste from it (Fig. 230). The vascular organ which passes the excretions from the blood into the coelom is known as a glomus. If the metameres represented are farther back, the organ is called a mesonephros; each Pronephric tubule. Cavity of myo- tome Pronephric duct. Please note that these images are extracted from scanned page images
RMRN5H0Y–. Animal biology. Zoology; Biology. 326 METAZOAN PHYLA (Fig. 216). If these tubules belong to metameres located far forward in the body, the organ is called a pronephros, or head kidney; such tubules open freely into the coelom by a ciliated funnel and take the waste from it (Fig. 217). The vascular organ which passes the excretions from the blood into the coelom is known as a glomus. If the metameres represented are farther back, the organ is called a mesonephros; each Pronephric tubule. Cayify ofmyo- -f-ome Pronephric ducf. Please note that these images are extracted from scanned page images
RMRHJPNH–. Biology of the vertebrates : a comparative study of man and his animal allies. Vertebrates; Vertebrates -- Anatomy; Anatomy, Comparative. , Nerve Cord Notochord "—Dorsal Aorta ^"Cardinal Vein ^Glomerulus Intestine Fig. 373. Cross section diagram showing pronephridial stage of the excretory system. Successive glomeruli frequently fuse into a single, elongate capillary-mass, known as a glomus (See Fig. 374). join together, down each side of the body, to form a common segmental, or pronephric, duct. This duct is eventually extended posteriorly, mainly by additions from the coelomic wa
RMRN82KP–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. 510 I hope to show in my next paper how important has been the influence of the process of segmentation and the dorsal shifting of the tubule openings, in modifying the anterior kidney tubules and glomus: it is more than probable that many workers on the develop-. Fig. XV. Fig. XIV. Transverse section through a Chrysemys embryo with 18 proto- vertebrae. On the left side of the figure is segment XI right side, middle region ; on the right side of figure is segment XI left side posterior region. Lettering as in Fig. XI. Fig. XV
RMRHJPNY–. Biology of the vertebrates : a comparative study of man and his animal allies. Vertebrates; Vertebrates -- Anatomy; Anatomy, Comparative. 442 Biology of the Vertebrates Myo to m e—2*?t 7 y Pronephridium--^? Nephrostome—iy^"^- Segmental Duct — T/o"" Nephrocoele—)f Coelom—eK'St. , Nerve Cord Notochord "—Dorsal Aorta ^"Cardinal Vein ^Glomerulus Intestine Fig. 373. Cross section diagram showing pronephridial stage of the excretory system. Successive glomeruli frequently fuse into a single, elongate capillary-mass, known as a glomus (See Fig. 374). join together, dow
RMRN82M8–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. pr. d. sp. cd. Fig. IX. sp. cd. pr. d.. Fig. X. each side). In the Dogfish the change was simplified owing to the insignificance of a vascular glomus. See figs. XI, XII and XIII. The pronephros in Chrysemys is thus confined to segments YII to X: in rather late embryos it appears as a number of tubules (from 6 to 8) opening at one end into the extreme anterior region of the coelom and at the other into the pronephric (segmental) duct. The vascular glomus also remains until a comparatively late'em- bryonic stage as a much broke
RMRD9D6C–. Einführung in die vergleichende Anatomie der Wirbeltiere, für Studierende. 406 Prouephros und Mesonephros. kröses, in welcher sich, in Verbindung mit der Aorta, Blutgefäße ent- wickeln. Aus diesem Gefäßknäuel bildet sich der als Filtrations- apparat, d. h. zur Wasserausscheidung dienende, mannigfachen Größe-, Form- und Strukturschwankungen unterliegende Glomerulus. Mehrere Glomeruli können zu einem Glomus verschmelzen. Innere Vornierenkämmeriihen. Innerer VSS^y Glomerulus 1 Nephrostom des sekundären Nephrostomkanälchens Nebenkanälchen Fig. 298. Schema der Bildung des Glomerulus. Aus dem Ekto
RMRN82MN–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. gl. e.r. Fig. VII. Diagrams illustrating the relations between pronephric and meso- nephric tubules. Pronephric duct black; nephrotome unshaded; somite with trans- verse shading; lateral plate with vertical shading. A k B represent an anterior and posterior pronephric tubule at an early stage. C & D represent the same tubules respectively as a later stage. E & F show transition stages from a pronephric to a mesonephric tubule. gl. glomus; gl.ex. external glomerulus; gl.in. internal glomerulus; m.t. mesonephric tubule;
RMRN8P35–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. 597. Fig. 11. Schema der Glomerulus- und VornierenkammerbilduDg. B. erstes diffe- rentes Stadium, b) Bildung der Vornierenkammer. verschmelzen. Diesem inneren Glomus können sich aber noch andere Filtrationsapparate zugesellen. Die Vornierenkammer liegt zwischen Aorta und Vena cardinalis post,; wie von der Aorta, so können auch von der Vene sich in die Vornierenkammer Ausbuclitungen einstülpen, und so entsteht in der That eine Vornierenkammer, die im Inneren einer wenigstens glomerulsähnlichen Bildung liegt, wie das bei Amia c
RMRMKEPF–. Annals of the South African Museum = Annale van die Suid-Afrikaanse Museum. Natural history. 364 Annals of the South African Museum.. Fig. 70.—Ebalia tuberculata Miers. a, carapace <J$, with sagittal profile of dorsum, b, c, d, varieties of granulation (plan and elevation), e, 1st pleopod <$. Ebalia glomus Stebb. /, carapace $, with sagittal profile of $ (left) and <$ (right). g, 1st pleopod J. Ebalia tuberculosa f. postulans Stebb. h, carapace <$, with sagittal profile. Ebalia tuberculosa f. scandens Stebb. i, carapace $ (granular mosaic only partly indicated), with sagittal pro
RMRN9HAF–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. Her, Fig. 3. Querschnitt des hinteren Endes des linken Pronephros, von dem nur noch zwei Trichterkanäle und das aus seiner Nische in die Pericardialhöhle hineinragende Glomus getroffen sind. ca. 100/1. sagt: „Er (der MALPiGHi'sche Körper) besitzt einen kleinen, zuweilen gelappten Glomerulus." Ich finde diesen 2V2—3 Mal so lang wie einen Urnierenglomerulus. Nach Semon ragt der Glomerulus „in den von der Kapsel umschlossenen Binnenraum hinein". Es soll also eine Kapsel, d. h. eine BowMAN'sche Kapsel vorhanden sein, un
RMRN8P6Y–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. 39 ausnahmsweise wieder in die Aorta gelangen. Dabei aber erscheint das Festhalten von Formelementen im Glomus nicht als zufälliges Re- sultat seines Baues, sondern steht in unmittelbarem Zusammenhang mit seiner Funktion. Davon überzeugte mich folgender Versuch. Es interessierte mich die Frage, wie sich die Zellen der Pronephros- kanälchen zu den festen Partikeln verhalten, die in den Körperhohl- raum geraten; ob sie nicht diese Partikelchen in sich aufnehmen, ähnhch den Zellen der Nephridien der Ringelwürmer. Ich nahm Quappe
RMRN8P7R–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. 36 mail schon sagen, daß der erweiterte Teil des Gefäßes, der im letzten Stadium zum Zentrum gerückt war, die Wurzel der Aorta bildet, und der spaltförmige den Glomus, der in der Gegend des zweiten Trichters sich mit der Wurzel der Aorta vereinigt, weiter zurück aber von der- selben getrennt ist. Die Deutung der Tatsachen wird auch an den folgenden Stadien bestätigt.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these
RMRN8P89–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. Fig. 1. Erklärung für alle Abbildungen: a Aoi-ta. ar Aortawurzel, bc Anlage der Bow- MANschen Kapsel, c Kanal, der Aorta und Glomus verbindet, ch Chorda, cv Kardinal- vene, crm Karminkörnchen, en Darm. / Falte, die den Hohlraum des Trichters vom Mesonephroskanälchen-Hohlraum trennt, g Glomus, gar gemeinsame Anlage für Glomus und Aortawurzel. Ic Leukoeyt, der aus dem Glomus austritt. men Anlage zum Mesonephroskanälcheu. m-p Anlage zum MxVLPiGHischen Knäuel. nph Anlage zum Mesonephrostrichter. P Pronephros, pd Pronephrosgang. s
RMRN9HA1–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. 59. Fig. 4. Querschnitt des hinteren Endes des rechten Pronephros, von dem nur noch ein Trichterkanal und die Enden eines oder zweier Trichter sowie das aus seiner Nische in das sehr enge Cölom hineinragende Glomus getroflFen sind. ca. lOO/l. beuteis hinein. Ebenso ist auch am rechten Pronephros (Fig. 4) ganz unzweifelhaft der Glomerulus in einer Nische gelagert, welche durch eine langgezogene Oefifnuug mit dem hier nur sehr engen Cölomblind- sack in Verbindung steht, an dem der Pronephros liegt. Daß diese Oefif- nungen etwa
RMRN8P7B–. Anatomischer Anzeiger. Anatomy, Comparative; Anatomy, Comparative. w Fig. 3. Fig. 4. Auf Figur 4 (Schnitt durch einen Rana-Embryo, 2 Tage vor dem Ausschlüpfen) sieht man statt der schmalen Spalte einen geräumigen Sack, den zweifellosen Glomus; seine Wände sind dermaßen ausge- dehnt, daß die Peritonaeumzellen weit auseinandergetreten sind und zerstreut auf der Hülle des Glomus sitzen ^). Die andere Hälfte des Gefäßes, die im vorausgehenden Stadium als Wurzel der Aorta be- zeichnet wurde, vereinigte sich mit seinem Paar von der anderen Seite zu einem Gefäße — die Wurzeln der Aorta bildeten die
RMRN96AB–. Anatomischer Anzeiger. Anatomy, Comparative. 81 wall (Fig. 1). Further back the plate narrows (Fig. 2) to a thick band that lies on a bridge of tissue between the great cardinal vein and the mesonephros; still further back the band becomes grooved; and again after a considerable number of sections we find the groove closing over to form a tube. Fig. 1. Fig. 2.. ,rnd. Ao. Aorta. A. C. Alimentary canal. Br. Bronchus. C. V. Cardinal vein. D. Diver- ticulum of coelom. Gl. Glomus. M. d. Müllerian duct or its Anlage. Mes. Mesonephros. Fig. 1. Section through a Crocodile 12 mm in length. Fig. 2. Se
RMRC68RM–. Embryology. Embryology; Embryology; genealogy. STRUCTURE OF THE EMBRYO AT HATCHING SPINAL CORD NOTOCHORD DORSAL AORTA NEPHROSTOME PRONEPHRIC TUBULE PRONEPHRIC DUCT 137 NEURAL CREST DERMATOME MYOTOME SCLEROTOME POSTERIOR CARDINAL VEIN GLOMUS. SPLANCHNIC LAYER OF MESODERM SOMATIC LAYER OF MESODERM COELOM Fig. 79. A section through the somites and pronephros. The pronephros and its relation to the blood system is highly diagrammatic. An actual cross section of an embryo does not show all these relationships. Several cross sections must be studied in order to reconstruct the essential parts of t
RMRCRJE3–. The development of the frog's egg; an introduction to experimental embryology. Embryology. B Fig. 48. — Three stages in the formation of the pronephros. (A and C after Field.) hollow Stalks are formed leading ventrally into the longitu- dinal canal of the segmental duct. A proliferation of cells from the somatic layer of the meso- blastic somites, dorsal to the pronephros, gives rise to a cover- ing of mesoderm for the pronephros, the pronephric capsule. A little later a protrusion of the splanchnic wall opposite to the funnels of the pronephros forms the glomus (Fig. 47, B). The glomus"
RMRCRJF8–. The development of the frog's egg; an introduction to experimental embryology. Embryology. EF* EF^'eF-^ EFl EH EM B. AU AF" AF- TA AF^ Fig. 46, A. — AF. Afferent branchial vessel. AR. Anterior cerebral artery. CA, CP. Anterior and posterior commissural vessel. EFi, EF-, EF^, EF*4. Efferent branchial vessels of the first, second, third, and fourth brancliial arches. EH. Ef- ferent hyoid vessel. EM. Eft'ei-ent mandibular vessel, (i. Glomus. O. Aorta. P. Pronephros. RT. Truncus arteriosus. S. Segmental duct. (After jNIarshall.) B. — AFi, AF-^, AF3. Afferent branchial vessels. AU. Auricle.
RMREF8F2–. Comparative anatomy. Anatomy, Comparative. nephrostome glomus. somite dorsal aorta D. 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.. Neal, Herbert V. (Herbert Vincent), 1869-1940; Rand, Herbert W. (Herbert Wilbur), 1872-1960. Philadelphia : P. Blakiston's Son
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