taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
4D3087DEFFD59B11FFC1FD87FCD5FB65.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4688228/files/figure.png	https://doi.org/10.5281/zenodo.4688228	FIG. 1. — A, General aspect of the ground sections in Paul Gervais’ collection; above: section 76 x 26 mm (a format still in use today) from a dinosaur bone (so called “reptile de la Nerthe”) made in Paris by E. Bourgogne (section 27 [N-10]), below: section from an Iguanodon Mantell, 1809 bone made in Great Britain (section 23 [N-7]). The latter section is protected by a cover of strong paper; B, detail of the kind of information written on the labels.This section (section 28 [N-11]) is supposed to be from a dinosaur;C, tooth-like organ of Lamna Cuvier, 1816 (section no. 3), longitudinal section in ordinary transmitted light, a1-3 and b refer to the two main tissue types observed in this section (see description in text); D, Archegosaurus latirostris Jordan, 1849 (i.e. juvenile Archegosaurus decheni Goldfuss, 1847) tooth (section no. 4), cross section in ordinary transmitted light, globular dentine (gd, dark peripheral layer) is close to the tooth surface; E, section of a “cranial bone” of Labyrinthodon Owen, 1842, a synonym of Mastodonsaurus Jaeger, 1828 from Wurtemberg (section no. 7), ordinary transmitted light, a few vascular canals and lignes of arrested growths (arrows, lines of arrested growth) can be observed;F, section of the “temporal scale” of Labyrinthodon from Stuttgart (section no. 9), polarized transmitted light (crossed nicols), the tissue is finely lamellar. Scale bars: A, 26 mm; B, 13 mm; C, 0.55 mm; D, 0.32 mm; E, 1 mm; F, 1.2 mm.	FIG. 1. — A, General aspect of the ground sections in Paul Gervais’ collection; above: section 76 x 26 mm (a format still in use today) from a dinosaur bone (so called “reptile de la Nerthe”) made in Paris by E. Bourgogne (section 27 [N-10]), below: section from an Iguanodon Mantell, 1809 bone made in Great Britain (section 23 [N-7]). The latter section is protected by a cover of strong paper; B, detail of the kind of information written on the labels.This section (section 28 [N-11]) is supposed to be from a dinosaur;C, tooth-like organ of Lamna Cuvier, 1816 (section no. 3), longitudinal section in ordinary transmitted light, a1-3 and b refer to the two main tissue types observed in this section (see description in text); D, Archegosaurus latirostris Jordan, 1849 (i.e. juvenile Archegosaurus decheni Goldfuss, 1847) tooth (section no. 4), cross section in ordinary transmitted light, globular dentine (gd, dark peripheral layer) is close to the tooth surface; E, section of a “cranial bone” of Labyrinthodon Owen, 1842, a synonym of Mastodonsaurus Jaeger, 1828 from Wurtemberg (section no. 7), ordinary transmitted light, a few vascular canals and lignes of arrested growths (arrows, lines of arrested growth) can be observed;F, section of the “temporal scale” of Labyrinthodon from Stuttgart (section no. 9), polarized transmitted light (crossed nicols), the tissue is finely lamellar. Scale bars: A, 26 mm; B, 13 mm; C, 0.55 mm; D, 0.32 mm; E, 1 mm; F, 1.2 mm.	2009-12-31	Ricqlès, Armand de;Taquet, Philippe;Buffrenil, Vivian de		Zenodo	biologists	Ricqlès, Armand de;Taquet, Philippe;Buffrenil, Vivian de			
4D3087DEFFD59B11FFC1FD87FCD5FB65.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4688230/files/figure.png	https://doi.org/10.5281/zenodo.4688230	FIG. 2. — A, Ichthyosaur tooth (section no. 19), cross section in ordinary transmitted light, conspicious growth marks (arrow heads) are present in the dentine; B, neural spine of a plesiosaur (section no. 20), cross section in ordinary transmitted light, the cores of the trabeculae still contain remnants of calcified cartilage matrix (arrow); C, Iguanodon Mantell, 1809 femur (section no. 25), cross section in ordinary transmitted light, the bone tissue is of the laminar type (lb); D, section of an undetermined bone from Rhabdodon Matheron, 1869. (section no. 26), the deep cortex (at the lower right corner of the photo) is extensively eroded and broad resorption bays (asterisk) are created; E, Megatherium Cuvier, 1796 tooth (section no. 36), a and b designate respectively tissues a and b, as described in the text, the sparse remants of tissue c are not visible on this picture, cementing line (cl), vascular canals (vc); F, humerus of a bradypoid (section no. 38), cross section in ordinary transmitted light, primary grossly lamellar cortex (plc), Haversian bone (hb). Scale bars: A, 0.55 mm; B, 0.36 mm; C, 0.85 mm; D, 1 mm; E, 0.20 mm; F, 0.60 mm.	FIG. 2. — A, Ichthyosaur tooth (section no. 19), cross section in ordinary transmitted light, conspicious growth marks (arrow heads) are present in the dentine; B, neural spine of a plesiosaur (section no. 20), cross section in ordinary transmitted light, the cores of the trabeculae still contain remnants of calcified cartilage matrix (arrow); C, Iguanodon Mantell, 1809 femur (section no. 25), cross section in ordinary transmitted light, the bone tissue is of the laminar type (lb); D, section of an undetermined bone from Rhabdodon Matheron, 1869. (section no. 26), the deep cortex (at the lower right corner of the photo) is extensively eroded and broad resorption bays (asterisk) are created; E, Megatherium Cuvier, 1796 tooth (section no. 36), a and b designate respectively tissues a and b, as described in the text, the sparse remants of tissue c are not visible on this picture, cementing line (cl), vascular canals (vc); F, humerus of a bradypoid (section no. 38), cross section in ordinary transmitted light, primary grossly lamellar cortex (plc), Haversian bone (hb). Scale bars: A, 0.55 mm; B, 0.36 mm; C, 0.85 mm; D, 1 mm; E, 0.20 mm; F, 0.60 mm.	2009-12-31	Ricqlès, Armand de;Taquet, Philippe;Buffrenil, Vivian de		Zenodo	biologists	Ricqlès, Armand de;Taquet, Philippe;Buffrenil, Vivian de			
4D3087DEFFD99B15FF34FB5DFBABFA09.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4688230/files/figure.png	https://doi.org/10.5281/zenodo.4688230	FIG. 2. — A, Ichthyosaur tooth (section no. 19), cross section in ordinary transmitted light, conspicious growth marks (arrow heads) are present in the dentine; B, neural spine of a plesiosaur (section no. 20), cross section in ordinary transmitted light, the cores of the trabeculae still contain remnants of calcified cartilage matrix (arrow); C, Iguanodon Mantell, 1809 femur (section no. 25), cross section in ordinary transmitted light, the bone tissue is of the laminar type (lb); D, section of an undetermined bone from Rhabdodon Matheron, 1869. (section no. 26), the deep cortex (at the lower right corner of the photo) is extensively eroded and broad resorption bays (asterisk) are created; E, Megatherium Cuvier, 1796 tooth (section no. 36), a and b designate respectively tissues a and b, as described in the text, the sparse remants of tissue c are not visible on this picture, cementing line (cl), vascular canals (vc); F, humerus of a bradypoid (section no. 38), cross section in ordinary transmitted light, primary grossly lamellar cortex (plc), Haversian bone (hb). Scale bars: A, 0.55 mm; B, 0.36 mm; C, 0.85 mm; D, 1 mm; E, 0.20 mm; F, 0.60 mm.	FIG. 2. — A, Ichthyosaur tooth (section no. 19), cross section in ordinary transmitted light, conspicious growth marks (arrow heads) are present in the dentine; B, neural spine of a plesiosaur (section no. 20), cross section in ordinary transmitted light, the cores of the trabeculae still contain remnants of calcified cartilage matrix (arrow); C, Iguanodon Mantell, 1809 femur (section no. 25), cross section in ordinary transmitted light, the bone tissue is of the laminar type (lb); D, section of an undetermined bone from Rhabdodon Matheron, 1869. (section no. 26), the deep cortex (at the lower right corner of the photo) is extensively eroded and broad resorption bays (asterisk) are created; E, Megatherium Cuvier, 1796 tooth (section no. 36), a and b designate respectively tissues a and b, as described in the text, the sparse remants of tissue c are not visible on this picture, cementing line (cl), vascular canals (vc); F, humerus of a bradypoid (section no. 38), cross section in ordinary transmitted light, primary grossly lamellar cortex (plc), Haversian bone (hb). Scale bars: A, 0.55 mm; B, 0.36 mm; C, 0.85 mm; D, 1 mm; E, 0.20 mm; F, 0.60 mm.	2009-12-31	Ricqlès, Armand de;Taquet, Philippe;Buffrenil, Vivian de		Zenodo	biologists	Ricqlès, Armand de;Taquet, Philippe;Buffrenil, Vivian de			
4D3087DEFFD99B15FF34FB5DFBABFA09.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4688228/files/figure.png	https://doi.org/10.5281/zenodo.4688228	FIG. 1. — A, General aspect of the ground sections in Paul Gervais’ collection; above: section 76 x 26 mm (a format still in use today) from a dinosaur bone (so called “reptile de la Nerthe”) made in Paris by E. Bourgogne (section 27 [N-10]), below: section from an Iguanodon Mantell, 1809 bone made in Great Britain (section 23 [N-7]). The latter section is protected by a cover of strong paper; B, detail of the kind of information written on the labels.This section (section 28 [N-11]) is supposed to be from a dinosaur;C, tooth-like organ of Lamna Cuvier, 1816 (section no. 3), longitudinal section in ordinary transmitted light, a1-3 and b refer to the two main tissue types observed in this section (see description in text); D, Archegosaurus latirostris Jordan, 1849 (i.e. juvenile Archegosaurus decheni Goldfuss, 1847) tooth (section no. 4), cross section in ordinary transmitted light, globular dentine (gd, dark peripheral layer) is close to the tooth surface; E, section of a “cranial bone” of Labyrinthodon Owen, 1842, a synonym of Mastodonsaurus Jaeger, 1828 from Wurtemberg (section no. 7), ordinary transmitted light, a few vascular canals and lignes of arrested growths (arrows, lines of arrested growth) can be observed;F, section of the “temporal scale” of Labyrinthodon from Stuttgart (section no. 9), polarized transmitted light (crossed nicols), the tissue is finely lamellar. Scale bars: A, 26 mm; B, 13 mm; C, 0.55 mm; D, 0.32 mm; E, 1 mm; F, 1.2 mm.	FIG. 1. — A, General aspect of the ground sections in Paul Gervais’ collection; above: section 76 x 26 mm (a format still in use today) from a dinosaur bone (so called “reptile de la Nerthe”) made in Paris by E. Bourgogne (section 27 [N-10]), below: section from an Iguanodon Mantell, 1809 bone made in Great Britain (section 23 [N-7]). The latter section is protected by a cover of strong paper; B, detail of the kind of information written on the labels.This section (section 28 [N-11]) is supposed to be from a dinosaur;C, tooth-like organ of Lamna Cuvier, 1816 (section no. 3), longitudinal section in ordinary transmitted light, a1-3 and b refer to the two main tissue types observed in this section (see description in text); D, Archegosaurus latirostris Jordan, 1849 (i.e. juvenile Archegosaurus decheni Goldfuss, 1847) tooth (section no. 4), cross section in ordinary transmitted light, globular dentine (gd, dark peripheral layer) is close to the tooth surface; E, section of a “cranial bone” of Labyrinthodon Owen, 1842, a synonym of Mastodonsaurus Jaeger, 1828 from Wurtemberg (section no. 7), ordinary transmitted light, a few vascular canals and lignes of arrested growths (arrows, lines of arrested growth) can be observed;F, section of the “temporal scale” of Labyrinthodon from Stuttgart (section no. 9), polarized transmitted light (crossed nicols), the tissue is finely lamellar. Scale bars: A, 26 mm; B, 13 mm; C, 0.55 mm; D, 0.32 mm; E, 1 mm; F, 1.2 mm.	2009-12-31	Ricqlès, Armand de;Taquet, Philippe;Buffrenil, Vivian de		Zenodo	biologists	Ricqlès, Armand de;Taquet, Philippe;Buffrenil, Vivian de			
4D3087DEFFC59B0DFD14FF2BFCB6F94B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4688232/files/figure.png	https://doi.org/10.5281/zenodo.4688232	FIG. 3. — A, Scapula of Mylodon Owen, 1859 (section no. 53),cross section in ordinary transmitted light, the bone tissue is of the dense Haversian type;B, Mylodon osteoderm (section no. 67), main frame:radial section in ordinary transmitted light; detail:polarized transmitted light revealing cyclic growth marks in the outer cortex; C, Typotherium Gervais, 1867, a junior synonym of Mesotherium Serres, 1867 molar (section no. 75) at low enlargement, at the crown-root junction, three different tissues can be observed in ordinary transmitted light:orthodentine (d), cement (c), and wedged between the two formers,a triangular splinter of enamel (e); D, closer view at the striae of Retzius (Str. r) in the enamel of Typotherium molar, same section as above, transmitted polarized light; E, cetacean rib (section no. 82), cross section in ordinary transmitted light, bone tissue is of a dense Haversian type (hb); F, Macrotherium Lartet, 1837, a synonym of Anisodon Lartet, 1851 ulna (section no. 89), cross section in ordinary transmitted light. Dense Haversian tissue (hb). Scale bars: A, 1.15 mm; B main, 2.10 mm; B inset, 2 mm; C, D, 1 mm; E, 0.30 mm; F, 0.40 mm.	FIG. 3. — A, Scapula of Mylodon Owen, 1859 (section no. 53),cross section in ordinary transmitted light, the bone tissue is of the dense Haversian type;B, Mylodon osteoderm (section no. 67), main frame:radial section in ordinary transmitted light; detail:polarized transmitted light revealing cyclic growth marks in the outer cortex; C, Typotherium Gervais, 1867, a junior synonym of Mesotherium Serres, 1867 molar (section no. 75) at low enlargement, at the crown-root junction, three different tissues can be observed in ordinary transmitted light:orthodentine (d), cement (c), and wedged between the two formers,a triangular splinter of enamel (e); D, closer view at the striae of Retzius (Str. r) in the enamel of Typotherium molar, same section as above, transmitted polarized light; E, cetacean rib (section no. 82), cross section in ordinary transmitted light, bone tissue is of a dense Haversian type (hb); F, Macrotherium Lartet, 1837, a synonym of Anisodon Lartet, 1851 ulna (section no. 89), cross section in ordinary transmitted light. Dense Haversian tissue (hb). Scale bars: A, 1.15 mm; B main, 2.10 mm; B inset, 2 mm; C, D, 1 mm; E, 0.30 mm; F, 0.40 mm.	2009-12-31	Ricqlès, Armand de;Taquet, Philippe;Buffrenil, Vivian de		Zenodo	biologists	Ricqlès, Armand de;Taquet, Philippe;Buffrenil, Vivian de			
