taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687489/files/figure.png	http://doi.org/10.5281/zenodo.4687489	Figure 2. Molecular phylogeny of heterodont and palaeoheterodont bivalves produced by Bayesian analysis of partial sequences from the 18SrRNA gene. Branches with posterior probabilities <85% have been collapsed. Nodal support is posterior probability/bootstrap (Neighbour-joining using Maximum Likelihood distance, 10 000 reps). Details of taxa and methods in Taylor et al., 2005.	Figure 2. Molecular phylogeny of heterodont and palaeoheterodont bivalves produced by Bayesian analysis of partial sequences from the 18SrRNA gene. Branches with posterior probabilities <85% have been collapsed. Nodal support is posterior probability/bootstrap (Neighbour-joining using Maximum Likelihood distance, 10 000 reps). Details of taxa and methods in Taylor et al., 2005.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687491/files/figure.png	http://doi.org/10.5281/zenodo.4687491	Figure 3. Molecular phylogeny of Lucinidae (from Williams et al., 2004) based on concatenated gene sequence data from 18S rRNA and 28S rRNA genes. Branches collapsed with posterior probabilities of> 90%. Nodal support is posterior probability/bootstrap (NJ using ML distance, 10 000 reps). *Bootstrap support is 96% for lucinid clade B excluding Phacoides pectinatus.	Figure 3. Molecular phylogeny of Lucinidae (from Williams et al., 2004) based on concatenated gene sequence data from 18S rRNA and 28S rRNA genes. Branches collapsed with posterior probabilities of> 90%. Nodal support is posterior probability/bootstrap (NJ using ML distance, 10 000 reps). *Bootstrap support is 96% for lucinid clade B excluding Phacoides pectinatus.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687493/files/figure.png	http://doi.org/10.5281/zenodo.4687493	Figure 4. General anatomy of Anodontia philippiana, Dampier, Western Australia, with left valve and mantle removed. Abbreviations: aa, anterior adductor muscle; exa, exhalant aperture; f, foot; fm, fused mantle; ld, left demibranch of ctenidia; me, mantle edge; mg, mantle gills on septum; p, periostracum; pa, posterior adductor muscle. Shell length = 40 mm	Figure 4. General anatomy of Anodontia philippiana, Dampier, Western Australia, with left valve and mantle removed. Abbreviations: aa, anterior adductor muscle; exa, exhalant aperture; f, foot; fm, fused mantle; ld, left demibranch of ctenidia; me, mantle edge; mg, mantle gills on septum; p, periostracum; pa, posterior adductor muscle. Shell length = 40 mm	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687499/files/figure.png	http://doi.org/10.5281/zenodo.4687499	Figure 5. Tree of lucinid relationships derived from final figure (tableau chronologique de l’evolution des lucines) by Chavan, 1937−1938), including living taxa only.	Figure 5. Tree of lucinid relationships derived from final figure (tableau chronologique de l’evolution des lucines) by Chavan, 1937−1938), including living taxa only.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687495/files/figure.png	http://doi.org/10.5281/zenodo.4687495	Figure 6. Tree summarizing Chavan’s (1969) ideas of relationships in Lucinidae derived from his subfamilial classification of genera. Recent taxa only included.	Figure 6. Tree summarizing Chavan’s (1969) ideas of relationships in Lucinidae derived from his subfamilial classification of genera. Recent taxa only included.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687503/files/figure.png	http://doi.org/10.5281/zenodo.4687503	Figure 7. Composite tree of lucinid relationships derived from Bretsky (1976: figs 3–9) and including living taxa only.	Figure 7. Composite tree of lucinid relationships derived from Bretsky (1976: figs 3–9) and including living taxa only.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687487/files/figure.png	http://doi.org/10.5281/zenodo.4687487	Figure 1. Diversity of form within Lucinidae. A, Plicolucina flabellata Glover, Taylor & Slack-Smith, 2003, Shell length (SL) = 22 mm; B, Lamellolucina trisulcata Taylor & Glover, 2002, SL = 10 mm; C, Codakia tigerina (Linnaeus, 1758), SL = 70 mm; D, Anodontia philippiana (Reeve, 1850), SL = 66 mm; E, Miltha childrenae (Gray 1825), SL = 82 mm; F, Eomiltha voorhoevi, SL = 80 mm; G, Austriella corrugata (Deshayes, 1843), SL = 60 mm; H, Ctena bella (Conrad, 1837), SL = 25 mm; I, Rasta lamyi (Abrard, 1942), SL = 30 mm; J, Pompholigina gibba (Gray, 1825), SL = 27 mm; K, Myrtea spinifera (Montagu, 1803), SL = 26 mm.	Figure 1. Diversity of form within Lucinidae. A, Plicolucina flabellata Glover, Taylor & Slack-Smith, 2003, Shell length (SL) = 22 mm; B, Lamellolucina trisulcata Taylor & Glover, 2002, SL = 10 mm; C, Codakia tigerina (Linnaeus, 1758), SL = 70 mm; D, Anodontia philippiana (Reeve, 1850), SL = 66 mm; E, Miltha childrenae (Gray 1825), SL = 82 mm; F, Eomiltha voorhoevi, SL = 80 mm; G, Austriella corrugata (Deshayes, 1843), SL = 60 mm; H, Ctena bella (Conrad, 1837), SL = 25 mm; I, Rasta lamyi (Abrard, 1942), SL = 30 mm; J, Pompholigina gibba (Gray, 1825), SL = 27 mm; K, Myrtea spinifera (Montagu, 1803), SL = 26 mm.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687505/files/figure.png	http://doi.org/10.5281/zenodo.4687505	Figure 8. TEM section through part of ctenidial filament of Anodontia ovum (Reeve, 1850), Lizard Island, Queensland, showing central blood space flanked by bacteriocytes and intercalary cells. Scale bar = 5 µm. Abbreviations: b, bacteria; ba, bacteriocyte; bs, blood space; eic, distal extension of intercalary cell; ic, intercalary cell; ly, lysosome; m, microvilli; n, nucleus.	Figure 8. TEM section through part of ctenidial filament of Anodontia ovum (Reeve, 1850), Lizard Island, Queensland, showing central blood space flanked by bacteriocytes and intercalary cells. Scale bar = 5 µm. Abbreviations: b, bacteria; ba, bacteriocyte; bs, blood space; eic, distal extension of intercalary cell; ic, intercalary cell; ly, lysosome; m, microvilli; n, nucleus.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687507/files/figure.png	http://doi.org/10.5281/zenodo.4687507	Figure 9. SEM section of ctenidial filament of Lucinisca nassula (Conrad, 1846) showing bacteriocytes and granule cells. Scale bar = 10 µm. Abbreviations b, bacteriocyte with rod-shaped bacteria. gr, granule cell and granules.	Figure 9. SEM section of ctenidial filament of Lucinisca nassula (Conrad, 1846) showing bacteriocytes and granule cells. Scale bar = 10 µm. Abbreviations b, bacteriocyte with rod-shaped bacteria. gr, granule cell and granules.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687509/files/figure.png	http://doi.org/10.5281/zenodo.4687509	Figure 10. Mantle gills in lucinids. A, Codakia tigerina; B, Lucina pensylvanica; C, Phacoides pectinatus; D, Anodontia philippiana. Scale bars = 1 mm.	Figure 10. Mantle gills in lucinids. A, Codakia tigerina; B, Lucina pensylvanica; C, Phacoides pectinatus; D, Anodontia philippiana. Scale bars = 1 mm.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687511/files/figure.png	http://doi.org/10.5281/zenodo.4687511	Figure 11. Posterior apertures of a range of lucinid species. All SEMs of critical point dried specimens. A, Anodontia omissa (Iredale, 1930), Moreton Bay Queensland; B, Phacoides pectinatus (Gmelin, 1792), Brazil; C, Bathyaustriella thionipta (Glover et al., 2004), Kermadec Ridge, New Zealand; D, Ctena bella (Conrad, 1837), Lizard Island, Queensland; E, Pillucina vietnamica Zorina, 1978, Port Douglas, Queensland; F, Wallucina assimilis (Angas, 1867), Jervis Bay, New South Wales; G, Lucina adansoni d’Orbigny, 1839, Cape Verde Islands. H, Cardiolucina pisiformis (Thiele, 1930), Shark Bay, Western Australia; I, Myrtea spinifera (Montagu, 1803), Oban Scotland. Images adjusted to similar scale. Abbreviations: ex, exhalant aperture; in, inhalant aperture; p, papillae; vf, ventral mantle fusion.	Figure 11. Posterior apertures of a range of lucinid species. All SEMs of critical point dried specimens. A, Anodontia omissa (Iredale, 1930), Moreton Bay Queensland; B, Phacoides pectinatus (Gmelin, 1792), Brazil; C, Bathyaustriella thionipta (Glover et al., 2004), Kermadec Ridge, New Zealand; D, Ctena bella (Conrad, 1837), Lizard Island, Queensland; E, Pillucina vietnamica Zorina, 1978, Port Douglas, Queensland; F, Wallucina assimilis (Angas, 1867), Jervis Bay, New South Wales; G, Lucina adansoni d’Orbigny, 1839, Cape Verde Islands. H, Cardiolucina pisiformis (Thiele, 1930), Shark Bay, Western Australia; I, Myrtea spinifera (Montagu, 1803), Oban Scotland. Images adjusted to similar scale. Abbreviations: ex, exhalant aperture; in, inhalant aperture; p, papillae; vf, ventral mantle fusion.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687513/files/figure.png	http://doi.org/10.5281/zenodo.4687513	Figure 12. Posterior apertures of Fimbria fimbriata (Lizard Island, Queensland) showing double row of papillae, and short length of mantle fusion ventral to inhalant aperture. Abbreviations: ex, exhalant aperture; in, inhalant aperture; pg, pedal gape; vf, ventral fusion.	Figure 12. Posterior apertures of Fimbria fimbriata (Lizard Island, Queensland) showing double row of papillae, and short length of mantle fusion ventral to inhalant aperture. Abbreviations: ex, exhalant aperture; in, inhalant aperture; pg, pedal gape; vf, ventral fusion.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687515/files/figure.png	http://doi.org/10.5281/zenodo.4687515	Figure 13. A, B, internal moulds showing right sides of Ilionia prisca, Silurian, Gotland, Sweden. A, BMNH, Shell length (SL) = 70 mm; B, BMNH, SL = 55 mm. C, D, outside and inside of left valve of Eomiltha voorhoevi, Recent, Mozambique, ANSP 234103, SL = 70 mm.	Figure 13. A, B, internal moulds showing right sides of Ilionia prisca, Silurian, Gotland, Sweden. A, BMNH, Shell length (SL) = 70 mm; B, BMNH, SL = 55 mm. C, D, outside and inside of left valve of Eomiltha voorhoevi, Recent, Mozambique, ANSP 234103, SL = 70 mm.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
03DB87FEFFE3062CAF40FBEEFBE68687.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/4687517/files/figure.png	http://doi.org/10.5281/zenodo.4687517	Figure 14. Internal mould of Paracyclas proavia (Goldfuss, 1840) from the Devonian, Eifel, Germany (BMNH Pal. Department L25554). Shell length = 56 mm. A, right side, anterior adductor scar arrowed; B, detail of anterior adductor scar showing ventral detachment from pallial line. aas, anterior adductor muscle scar; pl, pallial line.	Figure 14. Internal mould of Paracyclas proavia (Goldfuss, 1840) from the Devonian, Eifel, Germany (BMNH Pal. Department L25554). Shell length = 56 mm. A, right side, anterior adductor scar arrowed; B, detail of anterior adductor scar showing ventral detachment from pallial line. aas, anterior adductor muscle scar; pl, pallial line.	2006-11-30	Taylor, John D.;Glover, Emily A.		Zenodo	biologists	Taylor, John D.;Glover, Emily A.			
