taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03F1AD5D4C79FFE2FF40FA9BFAEBF9C1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/885702/files/figure.png	https://doi.org/10.5281/zenodo.885702	FIGURES 1 – 4. Praeanchodemus punctaticeps sp. n., light microscopic images of the holotype. Fig. 1, dorsal aspect. Fig. 2, Ventral aspect. Fig. 3, left lateral aspect. Fig. 4, general View with contours of the amber piece.	FIGURES 1 – 4. Praeanchodemus punctaticeps sp. n., light microscopic images of the holotype. Fig. 1, dorsal aspect. Fig. 2, Ventral aspect. Fig. 3, left lateral aspect. Fig. 4, general View with contours of the amber piece.	2017-06-06	Will, Kipling		Zenodo	biologists	Will, Kipling			
03F1AD5D4C79FFE2FF40FA9BFAEBF9C1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/885704/files/figure.png	https://doi.org/10.5281/zenodo.885704	FIGURES 5 – 9. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Fig. 5, anterior part of body, dorsal aspect; the arrows point to the insertions of the supraorbital setae, pronotal lateral and laterobasal seta, and parascutellar seta. Figs 6 – 7, Ventral aspect of head using different grayscale thresholds; the arrows point to the insertions of the setae at the mentum tooth and at the submentum. Fig. 8, anterior part of body, right dorsolateral aspect. Fig. 9, elytra, View from caudat; the arrows point to the insertions of the third discal seta and the subapical seta. Note in Figs. 8 – 9 that the fossilized exoskeleton is markedly dissociated from the inclusion wall (= the negatiVe imprint of the beetle body).	FIGURES 5 – 9. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Fig. 5, anterior part of body, dorsal aspect; the arrows point to the insertions of the supraorbital setae, pronotal lateral and laterobasal seta, and parascutellar seta. Figs 6 – 7, Ventral aspect of head using different grayscale thresholds; the arrows point to the insertions of the setae at the mentum tooth and at the submentum. Fig. 8, anterior part of body, right dorsolateral aspect. Fig. 9, elytra, View from caudat; the arrows point to the insertions of the third discal seta and the subapical seta. Note in Figs. 8 – 9 that the fossilized exoskeleton is markedly dissociated from the inclusion wall (= the negatiVe imprint of the beetle body).	2017-06-06	Will, Kipling		Zenodo	biologists	Will, Kipling			
03F1AD5D4C79FFE2FF40FA9BFAEBF9C1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/885710/files/figure.png	https://doi.org/10.5281/zenodo.885710	FIGURE 18. Praeanchodemus punctaticeps sp. n., reconstruction of the external shape in dorsal View.	FIGURE 18. Praeanchodemus punctaticeps sp. n., reconstruction of the external shape in dorsal View.	2017-06-06	Will, Kipling		Zenodo	biologists	Will, Kipling			
03F1AD5D4C79FFE2FF40FA9BFAEBF9C1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/885708/files/figure.png	https://doi.org/10.5281/zenodo.885708	FIGURES 15 – 17. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Figs 15, anterior part of body, right lateral aspect. Fig. 16, posterior part of body, right lateral aspect; the arrows point to the insertions of the setae of the elytral umbilical series. Fig. 17, seVenth abdominal segment and caudal parts of the female genital using different grayscale thresholds (17 a – b), and reconstructed shape of the gonocoxites (17 c). AbbreViations: acxt: apical gonocoxite; bcxt: basal gonocoxite.	FIGURES 15 – 17. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Figs 15, anterior part of body, right lateral aspect. Fig. 16, posterior part of body, right lateral aspect; the arrows point to the insertions of the setae of the elytral umbilical series. Fig. 17, seVenth abdominal segment and caudal parts of the female genital using different grayscale thresholds (17 a – b), and reconstructed shape of the gonocoxites (17 c). AbbreViations: acxt: apical gonocoxite; bcxt: basal gonocoxite.	2017-06-06	Will, Kipling		Zenodo	biologists	Will, Kipling			
03F1AD5D4C79FFE2FF40FA9BFAEBF9C1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/885706/files/figure.png	https://doi.org/10.5281/zenodo.885706	FIGURES 10 – 14. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Figs 10 – 11, elytra using different grayscale thresholds; the arrows point to the insertions of the discal setae (note that the fossilized left elytron is markedly dissociated from the inclusion wall). Fig. 12, left lateral aspect of pro-, meso-, and metathorax; the arrow points to the insertion of the seta at the mesocoxal ridge. Fig. 13, coxa, trochanter, and femoral base of hind legs; the arrows point to the insertion points of setae (see text for details). Fig. 14, abdominal sternites V-VII; the arrows point to the insertions of the two pairs of setae near apical margin of the seVenth sternite. AbbreViations: mep: metepisternum; mscx: mesocoxa; mtcx: metacoxa; pcx: procoxa.	FIGURES 10 – 14. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Figs 10 – 11, elytra using different grayscale thresholds; the arrows point to the insertions of the discal setae (note that the fossilized left elytron is markedly dissociated from the inclusion wall). Fig. 12, left lateral aspect of pro-, meso-, and metathorax; the arrow points to the insertion of the seta at the mesocoxal ridge. Fig. 13, coxa, trochanter, and femoral base of hind legs; the arrows point to the insertion points of setae (see text for details). Fig. 14, abdominal sternites V-VII; the arrows point to the insertions of the two pairs of setae near apical margin of the seVenth sternite. AbbreViations: mep: metepisternum; mscx: mesocoxa; mtcx: metacoxa; pcx: procoxa.	2017-06-06	Will, Kipling		Zenodo	biologists	Will, Kipling			
03F1AD5D4C7CFFE3FF40F9F1FEE1FD03.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/885702/files/figure.png	https://doi.org/10.5281/zenodo.885702	FIGURES 1 – 4. Praeanchodemus punctaticeps sp. n., light microscopic images of the holotype. Fig. 1, dorsal aspect. Fig. 2, Ventral aspect. Fig. 3, left lateral aspect. Fig. 4, general View with contours of the amber piece.	FIGURES 1 – 4. Praeanchodemus punctaticeps sp. n., light microscopic images of the holotype. Fig. 1, dorsal aspect. Fig. 2, Ventral aspect. Fig. 3, left lateral aspect. Fig. 4, general View with contours of the amber piece.	2017-06-06	Will, Kipling		Zenodo	biologists	Will, Kipling			
03F1AD5D4C7CFFE3FF40F9F1FEE1FD03.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/885704/files/figure.png	https://doi.org/10.5281/zenodo.885704	FIGURES 5 – 9. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Fig. 5, anterior part of body, dorsal aspect; the arrows point to the insertions of the supraorbital setae, pronotal lateral and laterobasal seta, and parascutellar seta. Figs 6 – 7, Ventral aspect of head using different grayscale thresholds; the arrows point to the insertions of the setae at the mentum tooth and at the submentum. Fig. 8, anterior part of body, right dorsolateral aspect. Fig. 9, elytra, View from caudat; the arrows point to the insertions of the third discal seta and the subapical seta. Note in Figs. 8 – 9 that the fossilized exoskeleton is markedly dissociated from the inclusion wall (= the negatiVe imprint of the beetle body).	FIGURES 5 – 9. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Fig. 5, anterior part of body, dorsal aspect; the arrows point to the insertions of the supraorbital setae, pronotal lateral and laterobasal seta, and parascutellar seta. Figs 6 – 7, Ventral aspect of head using different grayscale thresholds; the arrows point to the insertions of the setae at the mentum tooth and at the submentum. Fig. 8, anterior part of body, right dorsolateral aspect. Fig. 9, elytra, View from caudat; the arrows point to the insertions of the third discal seta and the subapical seta. Note in Figs. 8 – 9 that the fossilized exoskeleton is markedly dissociated from the inclusion wall (= the negatiVe imprint of the beetle body).	2017-06-06	Will, Kipling		Zenodo	biologists	Will, Kipling			
03F1AD5D4C7CFFE3FF40F9F1FEE1FD03.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/885706/files/figure.png	https://doi.org/10.5281/zenodo.885706	FIGURES 10 – 14. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Figs 10 – 11, elytra using different grayscale thresholds; the arrows point to the insertions of the discal setae (note that the fossilized left elytron is markedly dissociated from the inclusion wall). Fig. 12, left lateral aspect of pro-, meso-, and metathorax; the arrow points to the insertion of the seta at the mesocoxal ridge. Fig. 13, coxa, trochanter, and femoral base of hind legs; the arrows point to the insertion points of setae (see text for details). Fig. 14, abdominal sternites V-VII; the arrows point to the insertions of the two pairs of setae near apical margin of the seVenth sternite. AbbreViations: mep: metepisternum; mscx: mesocoxa; mtcx: metacoxa; pcx: procoxa.	FIGURES 10 – 14. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Figs 10 – 11, elytra using different grayscale thresholds; the arrows point to the insertions of the discal setae (note that the fossilized left elytron is markedly dissociated from the inclusion wall). Fig. 12, left lateral aspect of pro-, meso-, and metathorax; the arrow points to the insertion of the seta at the mesocoxal ridge. Fig. 13, coxa, trochanter, and femoral base of hind legs; the arrows point to the insertion points of setae (see text for details). Fig. 14, abdominal sternites V-VII; the arrows point to the insertions of the two pairs of setae near apical margin of the seVenth sternite. AbbreViations: mep: metepisternum; mscx: mesocoxa; mtcx: metacoxa; pcx: procoxa.	2017-06-06	Will, Kipling		Zenodo	biologists	Will, Kipling			
03F1AD5D4C7CFFE3FF40F9F1FEE1FD03.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/885708/files/figure.png	https://doi.org/10.5281/zenodo.885708	FIGURES 15 – 17. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Figs 15, anterior part of body, right lateral aspect. Fig. 16, posterior part of body, right lateral aspect; the arrows point to the insertions of the setae of the elytral umbilical series. Fig. 17, seVenth abdominal segment and caudal parts of the female genital using different grayscale thresholds (17 a – b), and reconstructed shape of the gonocoxites (17 c). AbbreViations: acxt: apical gonocoxite; bcxt: basal gonocoxite.	FIGURES 15 – 17. Praeanchodemus punctaticeps sp. n., Volume rendering of the holotype. Figs 15, anterior part of body, right lateral aspect. Fig. 16, posterior part of body, right lateral aspect; the arrows point to the insertions of the setae of the elytral umbilical series. Fig. 17, seVenth abdominal segment and caudal parts of the female genital using different grayscale thresholds (17 a – b), and reconstructed shape of the gonocoxites (17 c). AbbreViations: acxt: apical gonocoxite; bcxt: basal gonocoxite.	2017-06-06	Will, Kipling		Zenodo	biologists	Will, Kipling			
03F1AD5D4C7CFFE3FF40F9F1FEE1FD03.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/885710/files/figure.png	https://doi.org/10.5281/zenodo.885710	FIGURE 18. Praeanchodemus punctaticeps sp. n., reconstruction of the external shape in dorsal View.	FIGURE 18. Praeanchodemus punctaticeps sp. n., reconstruction of the external shape in dorsal View.	2017-06-06	Will, Kipling		Zenodo	biologists	Will, Kipling			
