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Major salivary glands Stock Photos and Images
Represents human salivary glands, including the three paired major salivary glands parotid, submandibularand sublingual, vintage line drawing or engra Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/represents-human-salivary-glands-including-the-three-paired-major-salivary-glands-parotid-submandibularand-sublingual-vintage-line-drawing-or-engra-image367219290.htmlRF2C9C7XJ–Represents human salivary glands, including the three paired major salivary glands parotid, submandibularand sublingual, vintage line drawing or engra
A vector medical illustration showing a healthy child next to on suffering from parotitis or inflammation of parotid glands. Stock Vectorhttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/a-vector-medical-illustration-showing-a-healthy-child-next-to-on-suffering-from-parotitis-or-inflammation-of-parotid-glands-image229693412.htmlRFR9KC84–A vector medical illustration showing a healthy child next to on suffering from parotitis or inflammation of parotid glands.
When the salivary glands stop working and the mouth becomes dry, either due to illness or as a side effect of medical treatment, the once routine act of eating can become a major challenge. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/when-the-salivary-glands-stop-working-and-the-mouth-becomes-dry-either-due-to-illness-or-as-a-side-effect-of-medical-treatment-the-once-routine-act-of-eating-can-become-a-major-challenge-image476707081.htmlRM2JKFTMW–When the salivary glands stop working and the mouth becomes dry, either due to illness or as a side effect of medical treatment, the once routine act of eating can become a major challenge.
The three major pairs of salivary glands Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-the-three-major-pairs-of-salivary-glands-24067887.htmlRMBB4ARB–The three major pairs of salivary glands
Salivary Glands Dog muscle Anatomy For Medical Concept 3D Illustration Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/salivary-glands-dog-muscle-anatomy-for-medical-concept-3d-illustration-image439390719.htmlRF2GERY9K–Salivary Glands Dog muscle Anatomy For Medical Concept 3D Illustration
Contributions to the anatomy and development of the salivary glands in the mammalia . ,which might be reahzed by the full development of these rudiments.In both the ventral accessory element has been omitted. It is at-tached to the concavity of the submaxillary duct craniad to its divisioninto three major branches (Bujard). While the human adult fails toutiHze this abundant material at all full), it is interesting to note thatits possibilities are realized in other primates (Huntington), and thatindividual and specific types of this complex jjresent themselves asmore or less complete realizati Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/contributions-to-the-anatomy-and-development-of-the-salivary-glands-in-the-mammalia-which-might-be-reahzed-by-the-full-development-of-these-rudimentsin-both-the-ventral-accessory-element-has-been-omitted-it-is-at-tached-to-the-concavity-of-the-submaxillary-duct-craniad-to-its-divisioninto-three-major-branches-bujard-while-the-human-adult-fails-toutihze-this-abundant-material-at-all-full-it-is-interesting-to-note-thatits-possibilities-are-realized-in-other-primates-huntington-and-thatindividual-and-specific-types-of-this-complex-jjresent-themselves-asmore-or-less-complete-realizati-image340293059.htmlRM2ANHK7F–Contributions to the anatomy and development of the salivary glands in the mammalia . ,which might be reahzed by the full development of these rudiments.In both the ventral accessory element has been omitted. It is at-tached to the concavity of the submaxillary duct craniad to its divisioninto three major branches (Bujard). While the human adult fails toutiHze this abundant material at all full), it is interesting to note thatits possibilities are realized in other primates (Huntington), and thatindividual and specific types of this complex jjresent themselves asmore or less complete realizati
Contributions to the anatomy and development of the salivary glands in the mammalia . nt duct b, but if in its place VII B hadbeen emploed as a coronal link between the conducting lines VIand VIII, then the conditions shown in Figs. 8a and &b wouldhave resulted. The two conditions just discussed find their concrete illustration inthe two relations exhibited in the adult human subject between theducts of the submaxillary and greater sublingual (Bartholinian) glandswhen the latter structure develops as one of the major glands of theintermandibular complex. It is thus not dififtcult to see how b Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/contributions-to-the-anatomy-and-development-of-the-salivary-glands-in-the-mammalia-nt-duct-b-but-if-in-its-place-vii-b-hadbeen-emploed-as-a-coronal-link-between-the-conducting-lines-viand-viii-then-the-conditions-shown-in-figs-8a-and-b-wouldhave-resulted-the-two-conditions-just-discussed-find-their-concrete-illustration-inthe-two-relations-exhibited-in-the-adult-human-subject-between-theducts-of-the-submaxillary-and-greater-sublingual-bartholinian-glandswhen-the-latter-structure-develops-as-one-of-the-major-glands-of-theintermandibular-complex-it-is-thus-not-dififtcult-to-see-how-b-image340270331.htmlRM2ANGJ7R–Contributions to the anatomy and development of the salivary glands in the mammalia . nt duct b, but if in its place VII B hadbeen emploed as a coronal link between the conducting lines VIand VIII, then the conditions shown in Figs. 8a and &b wouldhave resulted. The two conditions just discussed find their concrete illustration inthe two relations exhibited in the adult human subject between theducts of the submaxillary and greater sublingual (Bartholinian) glandswhen the latter structure develops as one of the major glands of theintermandibular complex. It is thus not dififtcult to see how b
An atlas of human anatomy for students and physicians . ctus sublingualis major Sublingual gland Glandula sublingualis Submaxillary dutjt, or duct of WhartonDviclns 111 maxillaris (Whartoni) Hyoid bone Os hyoideum? See Appendix, note 3. Process of the submaxillary gland Mylohyoid muscle /i M mjloh) Oldens 5 See note • to p. 4SO. Fig. 687.—Glandula Sublingualis, the Sublingual Gland, with a Portion of the Submaxillary Gland, SEEN FROM THE INNER (ORAL) SiDE. EXCRETORY DUCTS OF THESE GLANDS. LEFT SiDE. Glandulse salivales—Salivary glands. CEPHALIC AND CERVICAL PORTIONS OF THE DIGESTIVE ORGANS 425 Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/an-atlas-of-human-anatomy-for-students-and-physicians-ctus-sublingualis-major-sublingual-gland-glandula-sublingualis-submaxillary-dutjt-or-duct-of-whartondviclns-111-maxillaris-whartoni-hyoid-bone-os-hyoideum-see-appendix-note-3-process-of-the-submaxillary-gland-mylohyoid-muscle-i-m-mjloh-oldens-5-see-note-to-p-4so-fig-687glandula-sublingualis-the-sublingual-gland-with-a-portion-of-the-submaxillary-gland-seen-from-the-inner-oral-side-excretory-ducts-of-these-glands-left-side-glandulse-salivalessalivary-glands-cephalic-and-cervical-portions-of-the-digestive-organs-425-image338347315.htmlRM2AJD1CK–An atlas of human anatomy for students and physicians . ctus sublingualis major Sublingual gland Glandula sublingualis Submaxillary dutjt, or duct of WhartonDviclns 111 maxillaris (Whartoni) Hyoid bone Os hyoideum? See Appendix, note 3. Process of the submaxillary gland Mylohyoid muscle /i M mjloh) Oldens 5 See note • to p. 4SO. Fig. 687.—Glandula Sublingualis, the Sublingual Gland, with a Portion of the Submaxillary Gland, SEEN FROM THE INNER (ORAL) SiDE. EXCRETORY DUCTS OF THESE GLANDS. LEFT SiDE. Glandulse salivales—Salivary glands. CEPHALIC AND CERVICAL PORTIONS OF THE DIGESTIVE ORGANS 425
Contributions to the anatomy and development of the salivary glands in the mammalia . FIG.148. FIG.151.. FIG. 149. FIG. 152. Plate LXXXHI Figs. 153-156. Sections of the alveolingual region of a 14 millimeter embn,-o.Columbia Collection. Xo. 122. showing an early stage of the anlage ofthe sublingualis major. Serial sections, X 115, reduced to 5. JO. Submaxillar)- anlage. jj. Greater sublingual anlage. 48. Lingual ner-e. 4Q. SubmaxUlan,- ganglion. 5/. Mylohyoid muscle 52. Genioglossus muscle. jj. Geniohyoid muscle. y6. Meckels cartilage. 70. Inferior dental nerve. PLATE LXXXIII. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/contributions-to-the-anatomy-and-development-of-the-salivary-glands-in-the-mammalia-fig148-fig151-fig-149-fig-152-plate-lxxxhi-figs-153-156-sections-of-the-alveolingual-region-of-a-14-millimeter-embn-ocolumbia-collection-xo-122-showing-an-early-stage-of-the-anlage-ofthe-sublingualis-major-serial-sections-x-115-reduced-to-5-jo-submaxillar-anlage-jj-greater-sublingual-anlage-48-lingual-ner-e-4q-submaxulan-ganglion-5-mylohyoid-muscle-52-genioglossus-muscle-jj-geniohyoid-muscle-y6-meckels-cartilage-70-inferior-dental-nerve-plate-lxxxiii-image340225779.htmlRM2ANEHCK–Contributions to the anatomy and development of the salivary glands in the mammalia . FIG.148. FIG.151.. FIG. 149. FIG. 152. Plate LXXXHI Figs. 153-156. Sections of the alveolingual region of a 14 millimeter embn,-o.Columbia Collection. Xo. 122. showing an early stage of the anlage ofthe sublingualis major. Serial sections, X 115, reduced to 5. JO. Submaxillar)- anlage. jj. Greater sublingual anlage. 48. Lingual ner-e. 4Q. SubmaxUlan,- ganglion. 5/. Mylohyoid muscle 52. Genioglossus muscle. jj. Geniohyoid muscle. y6. Meckels cartilage. 70. Inferior dental nerve. PLATE LXXXIII.
Contributions to the anatomy and development of the salivary glands in the mammalia . andsublingualis major of the left side of a pig embryo of 15 millimeters.Princeton CoUection, No. 2 lo. Slide 6, row 3, section i. This sectionis 150/U caudal to the lingual crossing, X 115, reduced 5. Fig. 4. Transverse coronal section through the anlages of the submaxiUary andsublingualis major of the left side of a pig embryo of 16 millimeters.Princeton Collection, No. 217. Slide 7, row i, section 6. This sectionis 60 fx caudal to the lingual crossing, X 115, reduced 5. 1. Alveolingual region. 2. Circumlin Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/contributions-to-the-anatomy-and-development-of-the-salivary-glands-in-the-mammalia-andsublingualis-major-of-the-left-side-of-a-pig-embryo-of-15-millimetersprinceton-couection-no-2-lo-slide-6-row-3-section-i-this-sectionis-150u-caudal-to-the-lingual-crossing-x-115-reduced-5-fig-4-transverse-coronal-section-through-the-anlages-of-the-submaxiuary-andsublingualis-major-of-the-left-side-of-a-pig-embryo-of-16-millimetersprinceton-collection-no-217-slide-7-row-i-section-6-this-sectionis-60-fx-caudal-to-the-lingual-crossing-x-115-reduced-5-1-alveolingual-region-2-circumlin-image340219705.htmlRM2ANE9KN–Contributions to the anatomy and development of the salivary glands in the mammalia . andsublingualis major of the left side of a pig embryo of 15 millimeters.Princeton CoUection, No. 2 lo. Slide 6, row 3, section i. This sectionis 150/U caudal to the lingual crossing, X 115, reduced 5. Fig. 4. Transverse coronal section through the anlages of the submaxiUary andsublingualis major of the left side of a pig embryo of 16 millimeters.Princeton Collection, No. 217. Slide 7, row i, section 6. This sectionis 60 fx caudal to the lingual crossing, X 115, reduced 5. 1. Alveolingual region. 2. Circumlin
Contributions to the anatomy and development of the salivary glands in the mammalia . FIG. 149. FIG. 152. Plate LXXXHI Figs. 153-156. Sections of the alveolingual region of a 14 millimeter embn,-o.Columbia Collection. Xo. 122. showing an early stage of the anlage ofthe sublingualis major. Serial sections, X 115, reduced to 5. JO. Submaxillar)- anlage. jj. Greater sublingual anlage. 48. Lingual ner-e. 4Q. SubmaxUlan,- ganglion. 5/. Mylohyoid muscle 52. Genioglossus muscle. jj. Geniohyoid muscle. y6. Meckels cartilage. 70. Inferior dental nerve. PLATE LXXXIII.. FIG. 153. FIG. 155. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/contributions-to-the-anatomy-and-development-of-the-salivary-glands-in-the-mammalia-fig-149-fig-152-plate-lxxxhi-figs-153-156-sections-of-the-alveolingual-region-of-a-14-millimeter-embn-ocolumbia-collection-xo-122-showing-an-early-stage-of-the-anlage-ofthe-sublingualis-major-serial-sections-x-115-reduced-to-5-jo-submaxillar-anlage-jj-greater-sublingual-anlage-48-lingual-ner-e-4q-submaxulan-ganglion-5-mylohyoid-muscle-52-genioglossus-muscle-jj-geniohyoid-muscle-y6-meckels-cartilage-70-inferior-dental-nerve-plate-lxxxiii-fig-153-fig-155-image340225052.htmlRM2ANEGEM–Contributions to the anatomy and development of the salivary glands in the mammalia . FIG. 149. FIG. 152. Plate LXXXHI Figs. 153-156. Sections of the alveolingual region of a 14 millimeter embn,-o.Columbia Collection. Xo. 122. showing an early stage of the anlage ofthe sublingualis major. Serial sections, X 115, reduced to 5. JO. Submaxillar)- anlage. jj. Greater sublingual anlage. 48. Lingual ner-e. 4Q. SubmaxUlan,- ganglion. 5/. Mylohyoid muscle 52. Genioglossus muscle. jj. Geniohyoid muscle. y6. Meckels cartilage. 70. Inferior dental nerve. PLATE LXXXIII.. FIG. 153. FIG. 155.
Contributions to the anatomy and development of the salivary glands in the mammalia . FIG.135. FIG.138. Plate LXXIX Fig. i3g. The submaxillary and sublingualis major anlages in a 13.5 millimeterembryo. Columbia Collection, No. iSg. Right side. From a wa.x re-construction, X 75, reduced to i. Fig. 140. The submaxillary and sublingualis major anlages in a 16 5 millmieterembr>-o. From a wax reconstruction, X 75, reduced to j. 2Q. Lingual sulcus. JO. Submaxillary aniage. ji. Postglandular flange. jj. Greater sublingual aniage. 44. Epithelium of alveolingual region. 4!^. Lingual nerve. PLATE LXX Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/contributions-to-the-anatomy-and-development-of-the-salivary-glands-in-the-mammalia-fig135-fig138-plate-lxxix-fig-i3g-the-submaxillary-and-sublingualis-major-anlages-in-a-135-millimeterembryo-columbia-collection-no-isg-right-side-from-a-wax-re-construction-x-75-reduced-to-i-fig-140-the-submaxillary-and-sublingualis-major-anlages-in-a-16-5-millmieterembrgt-o-from-a-wax-reconstruction-x-75-reduced-to-j-2q-lingual-sulcus-jo-submaxillary-aniage-ji-postglandular-flange-jj-greater-sublingual-aniage-44-epithelium-of-alveolingual-region-4!-lingual-nerve-plate-lxx-image340227923.htmlRM2ANEM57–Contributions to the anatomy and development of the salivary glands in the mammalia . FIG.135. FIG.138. Plate LXXIX Fig. i3g. The submaxillary and sublingualis major anlages in a 13.5 millimeterembryo. Columbia Collection, No. iSg. Right side. From a wa.x re-construction, X 75, reduced to i. Fig. 140. The submaxillary and sublingualis major anlages in a 16 5 millmieterembr>-o. From a wax reconstruction, X 75, reduced to j. 2Q. Lingual sulcus. JO. Submaxillary aniage. ji. Postglandular flange. jj. Greater sublingual aniage. 44. Epithelium of alveolingual region. 4!^. Lingual nerve. PLATE LXX
Contributions to the anatomy and development of the salivary glands in the mammalia . FIG.135. FIG.138. Plate LXXIX Fig. i3g. The submaxillary and sublingualis major anlages in a 13.5 millimeterembryo. Columbia Collection, No. iSg. Right side. From a wa.x re-construction, X 75, reduced to i. Fig. 140. The submaxillary and sublingualis major anlages in a 16 5 millmieterembr>-o. From a wax reconstruction, X 75, reduced to j. 2Q. Lingual sulcus. JO. Submaxillary aniage. ji. Postglandular flange. jj. Greater sublingual aniage. 44. Epithelium of alveolingual region. 4!^. Lingual nerve. PLATE LXX Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/contributions-to-the-anatomy-and-development-of-the-salivary-glands-in-the-mammalia-fig135-fig138-plate-lxxix-fig-i3g-the-submaxillary-and-sublingualis-major-anlages-in-a-135-millimeterembryo-columbia-collection-no-isg-right-side-from-a-wax-re-construction-x-75-reduced-to-i-fig-140-the-submaxillary-and-sublingualis-major-anlages-in-a-16-5-millmieterembrgt-o-from-a-wax-reconstruction-x-75-reduced-to-j-2q-lingual-sulcus-jo-submaxillary-aniage-ji-postglandular-flange-jj-greater-sublingual-aniage-44-epithelium-of-alveolingual-region-4!-lingual-nerve-plate-lxx-image340227674.htmlRM2ANEKTA–Contributions to the anatomy and development of the salivary glands in the mammalia . FIG.135. FIG.138. Plate LXXIX Fig. i3g. The submaxillary and sublingualis major anlages in a 13.5 millimeterembryo. Columbia Collection, No. iSg. Right side. From a wa.x re-construction, X 75, reduced to i. Fig. 140. The submaxillary and sublingualis major anlages in a 16 5 millmieterembr>-o. From a wax reconstruction, X 75, reduced to j. 2Q. Lingual sulcus. JO. Submaxillary aniage. ji. Postglandular flange. jj. Greater sublingual aniage. 44. Epithelium of alveolingual region. 4!^. Lingual nerve. PLATE LXX
Contributions to the anatomy and development of the salivary glands in the mammalia . i, section 8. This sectionis 45 IX caudal to the lingual crossing, X 115. reduced i. Figs. 6, 7, 8. Three successive coronal sections through the anlages of the sub-maxillary and sublingualis major of the left side of a pig embrjO of19 millimeters. Princeton Collection, No. 168. Slide 13, row 2,sections 5, 4, 3. The section of Fig. 6 is 30 /i caudal to the lingualcrossing, X 115, reduced . 1. Alveolingual region. 2. Circumlingual space.J. Marginal caity. 4. Lingual sulcus. 5. .lveolar sulcus. 7. Submaxilla Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/contributions-to-the-anatomy-and-development-of-the-salivary-glands-in-the-mammalia-i-section-8-this-sectionis-45-ix-caudal-to-the-lingual-crossing-x-115-reduced-i-figs-6-7-8-three-successive-coronal-sections-through-the-anlages-of-the-sub-maxillary-and-sublingualis-major-of-the-left-side-of-a-pig-embrjo-of19-millimeters-princeton-collection-no-168-slide-13-row-2sections-5-4-3-the-section-of-fig-6-is-30-i-caudal-to-the-lingualcrossing-x-115-reduced-1-alveolingual-region-2-circumlingual-spacej-marginal-caity-4-lingual-sulcus-5-lveolar-sulcus-7-submaxilla-image340219402.htmlRM2ANE98X–Contributions to the anatomy and development of the salivary glands in the mammalia . i, section 8. This sectionis 45 IX caudal to the lingual crossing, X 115. reduced i. Figs. 6, 7, 8. Three successive coronal sections through the anlages of the sub-maxillary and sublingualis major of the left side of a pig embrjO of19 millimeters. Princeton Collection, No. 168. Slide 13, row 2,sections 5, 4, 3. The section of Fig. 6 is 30 /i caudal to the lingualcrossing, X 115, reduced . 1. Alveolingual region. 2. Circumlingual space.J. Marginal caity. 4. Lingual sulcus. 5. .lveolar sulcus. 7. Submaxilla
. Bulletin of the Natural History Museum Zoology. . Fig. 33 Diagram summarizing some of the major types of foregut morphology found among the Crassispirinae. Not to scale. A, Crassispira (Crassispira) spp. - with acinous salivary glands. Funa spp. - with single tube acinous gland. B, Crassispira (Gibbaspira) dysoni. C, Crassispira (Glossispira) harfordiana flucki. D, Crassispira (Crassiclava) spp. E, Burchia new species. F, Crassispira (Striospira) tepocana.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bulletin-of-the-natural-history-museum-zoology-fig-33-diagram-summarizing-some-of-the-major-types-of-foregut-morphology-found-among-the-crassispirinae-not-to-scale-a-crassispira-crassispira-spp-with-acinous-salivary-glands-funa-spp-with-single-tube-acinous-gland-b-crassispira-gibbaspira-dysoni-c-crassispira-glossispira-harfordiana-flucki-d-crassispira-crassiclava-spp-e-burchia-new-species-f-crassispira-striospira-tepocana-please-note-that-these-images-are-extracted-from-scanned-page-images-that-may-have-been-digitally-enhanced-for-readability-coloration-image233859012.htmlRMRGD5FG–. Bulletin of the Natural History Museum Zoology. . Fig. 33 Diagram summarizing some of the major types of foregut morphology found among the Crassispirinae. Not to scale. A, Crassispira (Crassispira) spp. - with acinous salivary glands. Funa spp. - with single tube acinous gland. B, Crassispira (Gibbaspira) dysoni. C, Crassispira (Glossispira) harfordiana flucki. D, Crassispira (Crassiclava) spp. E, Burchia new species. F, Crassispira (Striospira) tepocana.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration
. Annals of the South African Museum = Annale van die Suid-Afrikaanse Museum. Natural history. SOUTH AFRICAN JANOLIDAE J salivary glands extends anteriorly from the stomach and enters the buccal mass near its anterior limit via glandular ducts. The salivary glands are thick at their insertion, taper sharply and again expand into the dendritic portion. The oesophagus is wide throughout its length and enters the highly ridged stomach. Three major branches of the digestive gland emerge from the stomach. At the posterior limit of the stomach the intestine curves to the right and continues posterio Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/annals-of-the-south-african-museum-=-annale-van-die-suid-afrikaanse-museum-natural-history-south-african-janolidae-j-salivary-glands-extends-anteriorly-from-the-stomach-and-enters-the-buccal-mass-near-its-anterior-limit-via-glandular-ducts-the-salivary-glands-are-thick-at-their-insertion-taper-sharply-and-again-expand-into-the-dendritic-portion-the-oesophagus-is-wide-throughout-its-length-and-enters-the-highly-ridged-stomach-three-major-branches-of-the-digestive-gland-emerge-from-the-stomach-at-the-posterior-limit-of-the-stomach-the-intestine-curves-to-the-right-and-continues-posterio-image236428685.htmlRMRMJ75H–. Annals of the South African Museum = Annale van die Suid-Afrikaanse Museum. Natural history. SOUTH AFRICAN JANOLIDAE J salivary glands extends anteriorly from the stomach and enters the buccal mass near its anterior limit via glandular ducts. The salivary glands are thick at their insertion, taper sharply and again expand into the dendritic portion. The oesophagus is wide throughout its length and enters the highly ridged stomach. Three major branches of the digestive gland emerge from the stomach. At the posterior limit of the stomach the intestine curves to the right and continues posterio
. Bulletin of the Natural History Museum Zoology. Fig. 25 Diagram (with Fig. 26) summarizing some of the major types of foregut morphology found amongst the Conoidea, with radulae, where present, illustrated alongside. Not to scale. A. Clavus unizonalis; B. Clionella sinuata; C. Turricula nelliae spurius; D. Mangelia nebula; E. Ophiodermella biennis; F. Daphnella reeveana. Abbreviations: asg, accessory salivary glands; sg, salivary glands; rs, radular sac; vg, venom gland; black dots are sphincters. radular sac is located far behind the base of the proboscis. Therefore, it is doubtful that the Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bulletin-of-the-natural-history-museum-zoology-fig-25-diagram-with-fig-26-summarizing-some-of-the-major-types-of-foregut-morphology-found-amongst-the-conoidea-with-radulae-where-present-illustrated-alongside-not-to-scale-a-clavus-unizonalis-b-clionella-sinuata-c-turricula-nelliae-spurius-d-mangelia-nebula-e-ophiodermella-biennis-f-daphnella-reeveana-abbreviations-asg-accessory-salivary-glands-sg-salivary-glands-rs-radular-sac-vg-venom-gland-black-dots-are-sphincters-radular-sac-is-located-far-behind-the-base-of-the-proboscis-therefore-it-is-doubtful-that-the-image233856878.htmlRMRGD2RA–. Bulletin of the Natural History Museum Zoology. Fig. 25 Diagram (with Fig. 26) summarizing some of the major types of foregut morphology found amongst the Conoidea, with radulae, where present, illustrated alongside. Not to scale. A. Clavus unizonalis; B. Clionella sinuata; C. Turricula nelliae spurius; D. Mangelia nebula; E. Ophiodermella biennis; F. Daphnella reeveana. Abbreviations: asg, accessory salivary glands; sg, salivary glands; rs, radular sac; vg, venom gland; black dots are sphincters. radular sac is located far behind the base of the proboscis. Therefore, it is doubtful that the
. Bulletin of the Natural History Museum Zoology. 88 Y.I. KANTOR, A. MEDINSKAYA AND J.D. TAYLOR. Fig. 34 Diagram summarizing some of the major types of foregut morphology found among the Crassispirinae. Not to scale. A, Antiguraleus morganus. B, Cheungbeia spp. C, Nquma scalpta (anastomosing tubular salivary glands) and Naudedhllia praetermissa (simple tubular salivary glands). D, Inquisitor latifasciata and Ptychobela suturalis with a retracted proboscis. E, Ptychobela suturalis with protracted proboscis. F, Haedropleura septangularis. G, Hindsiclava spp. buccal mass and the nerve ring, usual Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bulletin-of-the-natural-history-museum-zoology-88-yi-kantor-a-medinskaya-and-jd-taylor-fig-34-diagram-summarizing-some-of-the-major-types-of-foregut-morphology-found-among-the-crassispirinae-not-to-scale-a-antiguraleus-morganus-b-cheungbeia-spp-c-nquma-scalpta-anastomosing-tubular-salivary-glands-and-naudedhllia-praetermissa-simple-tubular-salivary-glands-d-inquisitor-latifasciata-and-ptychobela-suturalis-with-a-retracted-proboscis-e-ptychobela-suturalis-with-protracted-proboscis-f-haedropleura-septangularis-g-hindsiclava-spp-buccal-mass-and-the-nerve-ring-usual-image233858998.htmlRMRGD5F2–. Bulletin of the Natural History Museum Zoology. 88 Y.I. KANTOR, A. MEDINSKAYA AND J.D. TAYLOR. Fig. 34 Diagram summarizing some of the major types of foregut morphology found among the Crassispirinae. Not to scale. A, Antiguraleus morganus. B, Cheungbeia spp. C, Nquma scalpta (anastomosing tubular salivary glands) and Naudedhllia praetermissa (simple tubular salivary glands). D, Inquisitor latifasciata and Ptychobela suturalis with a retracted proboscis. E, Ptychobela suturalis with protracted proboscis. F, Haedropleura septangularis. G, Hindsiclava spp. buccal mass and the nerve ring, usual
. Bulletin of the Natural History Museum Zoology. . Fig. 25 Diagram (with Fig. 26) summarizing some of the major types of foregut morphology found amongst the Conoidea, with radulae, where present, illustrated alongside. Not to scale. A. Clavus unizonalis; B. Clionella sinuata; C. Turricula nelliae spurius; D. Mangelia nebula; E. Ophiodermella biennis; F. Daphnella reeveana. Abbreviations: asg, accessory salivary glands; sg, salivary glands; rs, radular sac; vg, venom gland; black dots are sphincters. radular sac is located far behind the base of the proboscis. Therefore, it is doubtful that t Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bulletin-of-the-natural-history-museum-zoology-fig-25-diagram-with-fig-26-summarizing-some-of-the-major-types-of-foregut-morphology-found-amongst-the-conoidea-with-radulae-where-present-illustrated-alongside-not-to-scale-a-clavus-unizonalis-b-clionella-sinuata-c-turricula-nelliae-spurius-d-mangelia-nebula-e-ophiodermella-biennis-f-daphnella-reeveana-abbreviations-asg-accessory-salivary-glands-sg-salivary-glands-rs-radular-sac-vg-venom-gland-black-dots-are-sphincters-radular-sac-is-located-far-behind-the-base-of-the-proboscis-therefore-it-is-doubtful-that-t-image233856888.htmlRMRGD2RM–. Bulletin of the Natural History Museum Zoology. . Fig. 25 Diagram (with Fig. 26) summarizing some of the major types of foregut morphology found amongst the Conoidea, with radulae, where present, illustrated alongside. Not to scale. A. Clavus unizonalis; B. Clionella sinuata; C. Turricula nelliae spurius; D. Mangelia nebula; E. Ophiodermella biennis; F. Daphnella reeveana. Abbreviations: asg, accessory salivary glands; sg, salivary glands; rs, radular sac; vg, venom gland; black dots are sphincters. radular sac is located far behind the base of the proboscis. Therefore, it is doubtful that t
. Bulletin of the Natural History Museum Zoology. FOREGUT ANATOMY OF CRASSISPIRINE GASTROPODS ire 63. Fig. 8 Crassispira (Striospira) tepocana Dall, 1919. Semidiagrammatic longitudinal section of the foregut (salivary ducts and glands not shown). marginal teeth of the wishbone type (Fig. 1 la), with a solid, sharply- pointed major limb and a shorter, slender, secondary limb. The marginal tooth is long, ca. 175pm (1.1% of SL, 2.9% AL). Crassispira (Striospira) tepocana Dall, 1919 (Fig. 8) Rhynchodeum and proboscis The rhynchostomal sphincter is small and anteriorly located. The epithelium of th Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/bulletin-of-the-natural-history-museum-zoology-foregut-anatomy-of-crassispirine-gastropods-ire-63-fig-8-crassispira-striospira-tepocana-dall-1919-semidiagrammatic-longitudinal-section-of-the-foregut-salivary-ducts-and-glands-not-shown-marginal-teeth-of-the-wishbone-type-fig-1-la-with-a-solid-sharply-pointed-major-limb-and-a-shorter-slender-secondary-limb-the-marginal-tooth-is-long-ca-175pm-11-of-sl-29-al-crassispira-striospira-tepocana-dall-1919-fig-8-rhynchodeum-and-proboscis-the-rhynchostomal-sphincter-is-small-and-anteriorly-located-the-epithelium-of-th-image233859493.htmlRMRGD64N–. Bulletin of the Natural History Museum Zoology. FOREGUT ANATOMY OF CRASSISPIRINE GASTROPODS ire 63. Fig. 8 Crassispira (Striospira) tepocana Dall, 1919. Semidiagrammatic longitudinal section of the foregut (salivary ducts and glands not shown). marginal teeth of the wishbone type (Fig. 1 la), with a solid, sharply- pointed major limb and a shorter, slender, secondary limb. The marginal tooth is long, ca. 175pm (1.1% of SL, 2.9% AL). Crassispira (Striospira) tepocana Dall, 1919 (Fig. 8) Rhynchodeum and proboscis The rhynchostomal sphincter is small and anteriorly located. The epithelium of th
