taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03C487EEFFDF547352CBF9B92A920913.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826244/files/figure.png	https://doi.org/10.5281/zenodo.14826244	Figure 10. Representatives of the Boucardicinae (A–F) and Hainesiinae (G). A, Anosocolus anosocolus Fischer-Piete, Ch. P. Blanc, F. Blanc & F. Salvat, 1993, paratype, MNHN-IM-2000-31766. B, Boucardicus notabilis (Smith, 1892), syntype, NHMUK 1891.11.5.13. C, Boucardicus goudoti (Fischer-Piete & Bedoucha, 1965) paratype, MNHN-IM-2000-31765. D, Boucardicus lavalavus lavalavus Emberton, 2002, Madagascar, Manombo Reserve, SMF 321011 (paratype). E, Malarinia hova Haas, 1961 (holotype, CNHM 106701). F, Malarinia calcoperculata Emberton, 1994 (holotype). G, Acroptochia metableta (Crosse & P. Fischer, 1873), MNHN-IM-2000-35171, syntype. Doted line in F indicates the position of the operculum.Photographs: M. Caballer Gutiérrez (A, C); H. Taylor (B); B. Páll-Gergely (D, G); unknown (E); and E. Wildner (F).	Figure 10. Representatives of the Boucardicinae (A–F) and Hainesiinae (G). A, Anosocolus anosocolus Fischer-Piete, Ch. P. Blanc, F. Blanc & F. Salvat, 1993, paratype, MNHN-IM-2000-31766. B, Boucardicus notabilis (Smith, 1892), syntype, NHMUK 1891.11.5.13. C, Boucardicus goudoti (Fischer-Piete & Bedoucha, 1965) paratype, MNHN-IM-2000-31765. D, Boucardicus lavalavus lavalavus Emberton, 2002, Madagascar, Manombo Reserve, SMF 321011 (paratype). E, Malarinia hova Haas, 1961 (holotype, CNHM 106701). F, Malarinia calcoperculata Emberton, 1994 (holotype). G, Acroptochia metableta (Crosse & P. Fischer, 1873), MNHN-IM-2000-35171, syntype. Doted line in F indicates the position of the operculum.Photographs: M. Caballer Gutiérrez (A, C); H. Taylor (B); B. Páll-Gergely (D, G); unknown (E); and E. Wildner (F).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFDF547352CBF9B92A920913.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826250/files/figure.png	https://doi.org/10.5281/zenodo.14826250	Figure 11. Distribution of Alycaeinae (red), Platyrhaphidinae (green), Laotiinae (blue), and Boucardicinae (purple). Data of Alycaeinae were compiled using distribution data for all known taxa of Alycaeinae (~390) from all relevant literature sources (Sajan et al. 2020, Páll- Gergely et al. 2020, 2021a, 2023). Te distribution of Platorhaphe was constructed based on Kobelt (1902), Bartsch (1919), Yen (1939), Zilch (1957), Azuma (1982), and Egorov (2009). Locality data of Laotia and Messageria are from Bavay and Dautzenberg (1904), Saurin (1953), Páll-Gergely (2014), and Chen and Lin (2021).	Figure 11. Distribution of Alycaeinae (red), Platyrhaphidinae (green), Laotiinae (blue), and Boucardicinae (purple). Data of Alycaeinae were compiled using distribution data for all known taxa of Alycaeinae (~390) from all relevant literature sources (Sajan et al. 2020, Páll- Gergely et al. 2020, 2021a, 2023). Te distribution of Platorhaphe was constructed based on Kobelt (1902), Bartsch (1919), Yen (1939), Zilch (1957), Azuma (1982), and Egorov (2009). Locality data of Laotia and Messageria are from Bavay and Dautzenberg (1904), Saurin (1953), Páll-Gergely (2014), and Chen and Lin (2021).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFD8547352E8FEC02ACD0C5D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826244/files/figure.png	https://doi.org/10.5281/zenodo.14826244	Figure 10. Representatives of the Boucardicinae (A–F) and Hainesiinae (G). A, Anosocolus anosocolus Fischer-Piete, Ch. P. Blanc, F. Blanc & F. Salvat, 1993, paratype, MNHN-IM-2000-31766. B, Boucardicus notabilis (Smith, 1892), syntype, NHMUK 1891.11.5.13. C, Boucardicus goudoti (Fischer-Piete & Bedoucha, 1965) paratype, MNHN-IM-2000-31765. D, Boucardicus lavalavus lavalavus Emberton, 2002, Madagascar, Manombo Reserve, SMF 321011 (paratype). E, Malarinia hova Haas, 1961 (holotype, CNHM 106701). F, Malarinia calcoperculata Emberton, 1994 (holotype). G, Acroptochia metableta (Crosse & P. Fischer, 1873), MNHN-IM-2000-35171, syntype. Doted line in F indicates the position of the operculum.Photographs: M. Caballer Gutiérrez (A, C); H. Taylor (B); B. Páll-Gergely (D, G); unknown (E); and E. Wildner (F).	Figure 10. Representatives of the Boucardicinae (A–F) and Hainesiinae (G). A, Anosocolus anosocolus Fischer-Piete, Ch. P. Blanc, F. Blanc & F. Salvat, 1993, paratype, MNHN-IM-2000-31766. B, Boucardicus notabilis (Smith, 1892), syntype, NHMUK 1891.11.5.13. C, Boucardicus goudoti (Fischer-Piete & Bedoucha, 1965) paratype, MNHN-IM-2000-31765. D, Boucardicus lavalavus lavalavus Emberton, 2002, Madagascar, Manombo Reserve, SMF 321011 (paratype). E, Malarinia hova Haas, 1961 (holotype, CNHM 106701). F, Malarinia calcoperculata Emberton, 1994 (holotype). G, Acroptochia metableta (Crosse & P. Fischer, 1873), MNHN-IM-2000-35171, syntype. Doted line in F indicates the position of the operculum.Photographs: M. Caballer Gutiérrez (A, C); H. Taylor (B); B. Páll-Gergely (D, G); unknown (E); and E. Wildner (F).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFD8547352CEFB8E28FF0D83.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826244/files/figure.png	https://doi.org/10.5281/zenodo.14826244	Figure 10. Representatives of the Boucardicinae (A–F) and Hainesiinae (G). A, Anosocolus anosocolus Fischer-Piete, Ch. P. Blanc, F. Blanc & F. Salvat, 1993, paratype, MNHN-IM-2000-31766. B, Boucardicus notabilis (Smith, 1892), syntype, NHMUK 1891.11.5.13. C, Boucardicus goudoti (Fischer-Piete & Bedoucha, 1965) paratype, MNHN-IM-2000-31765. D, Boucardicus lavalavus lavalavus Emberton, 2002, Madagascar, Manombo Reserve, SMF 321011 (paratype). E, Malarinia hova Haas, 1961 (holotype, CNHM 106701). F, Malarinia calcoperculata Emberton, 1994 (holotype). G, Acroptochia metableta (Crosse & P. Fischer, 1873), MNHN-IM-2000-35171, syntype. Doted line in F indicates the position of the operculum.Photographs: M. Caballer Gutiérrez (A, C); H. Taylor (B); B. Páll-Gergely (D, G); unknown (E); and E. Wildner (F).	Figure 10. Representatives of the Boucardicinae (A–F) and Hainesiinae (G). A, Anosocolus anosocolus Fischer-Piete, Ch. P. Blanc, F. Blanc & F. Salvat, 1993, paratype, MNHN-IM-2000-31766. B, Boucardicus notabilis (Smith, 1892), syntype, NHMUK 1891.11.5.13. C, Boucardicus goudoti (Fischer-Piete & Bedoucha, 1965) paratype, MNHN-IM-2000-31765. D, Boucardicus lavalavus lavalavus Emberton, 2002, Madagascar, Manombo Reserve, SMF 321011 (paratype). E, Malarinia hova Haas, 1961 (holotype, CNHM 106701). F, Malarinia calcoperculata Emberton, 1994 (holotype). G, Acroptochia metableta (Crosse & P. Fischer, 1873), MNHN-IM-2000-35171, syntype. Doted line in F indicates the position of the operculum.Photographs: M. Caballer Gutiérrez (A, C); H. Taylor (B); B. Páll-Gergely (D, G); unknown (E); and E. Wildner (F).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFD8547351DFFCE72B9C0C99.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826244/files/figure.png	https://doi.org/10.5281/zenodo.14826244	Figure 10. Representatives of the Boucardicinae (A–F) and Hainesiinae (G). A, Anosocolus anosocolus Fischer-Piete, Ch. P. Blanc, F. Blanc & F. Salvat, 1993, paratype, MNHN-IM-2000-31766. B, Boucardicus notabilis (Smith, 1892), syntype, NHMUK 1891.11.5.13. C, Boucardicus goudoti (Fischer-Piete & Bedoucha, 1965) paratype, MNHN-IM-2000-31765. D, Boucardicus lavalavus lavalavus Emberton, 2002, Madagascar, Manombo Reserve, SMF 321011 (paratype). E, Malarinia hova Haas, 1961 (holotype, CNHM 106701). F, Malarinia calcoperculata Emberton, 1994 (holotype). G, Acroptochia metableta (Crosse & P. Fischer, 1873), MNHN-IM-2000-35171, syntype. Doted line in F indicates the position of the operculum.Photographs: M. Caballer Gutiérrez (A, C); H. Taylor (B); B. Páll-Gergely (D, G); unknown (E); and E. Wildner (F).	Figure 10. Representatives of the Boucardicinae (A–F) and Hainesiinae (G). A, Anosocolus anosocolus Fischer-Piete, Ch. P. Blanc, F. Blanc & F. Salvat, 1993, paratype, MNHN-IM-2000-31766. B, Boucardicus notabilis (Smith, 1892), syntype, NHMUK 1891.11.5.13. C, Boucardicus goudoti (Fischer-Piete & Bedoucha, 1965) paratype, MNHN-IM-2000-31765. D, Boucardicus lavalavus lavalavus Emberton, 2002, Madagascar, Manombo Reserve, SMF 321011 (paratype). E, Malarinia hova Haas, 1961 (holotype, CNHM 106701). F, Malarinia calcoperculata Emberton, 1994 (holotype). G, Acroptochia metableta (Crosse & P. Fischer, 1873), MNHN-IM-2000-35171, syntype. Doted line in F indicates the position of the operculum.Photographs: M. Caballer Gutiérrez (A, C); H. Taylor (B); B. Páll-Gergely (D, G); unknown (E); and E. Wildner (F).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFD85473534CFA512CC30B4D.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826244/files/figure.png	https://doi.org/10.5281/zenodo.14826244	Figure 10. Representatives of the Boucardicinae (A–F) and Hainesiinae (G). A, Anosocolus anosocolus Fischer-Piete, Ch. P. Blanc, F. Blanc & F. Salvat, 1993, paratype, MNHN-IM-2000-31766. B, Boucardicus notabilis (Smith, 1892), syntype, NHMUK 1891.11.5.13. C, Boucardicus goudoti (Fischer-Piete & Bedoucha, 1965) paratype, MNHN-IM-2000-31765. D, Boucardicus lavalavus lavalavus Emberton, 2002, Madagascar, Manombo Reserve, SMF 321011 (paratype). E, Malarinia hova Haas, 1961 (holotype, CNHM 106701). F, Malarinia calcoperculata Emberton, 1994 (holotype). G, Acroptochia metableta (Crosse & P. Fischer, 1873), MNHN-IM-2000-35171, syntype. Doted line in F indicates the position of the operculum.Photographs: M. Caballer Gutiérrez (A, C); H. Taylor (B); B. Páll-Gergely (D, G); unknown (E); and E. Wildner (F).	Figure 10. Representatives of the Boucardicinae (A–F) and Hainesiinae (G). A, Anosocolus anosocolus Fischer-Piete, Ch. P. Blanc, F. Blanc & F. Salvat, 1993, paratype, MNHN-IM-2000-31766. B, Boucardicus notabilis (Smith, 1892), syntype, NHMUK 1891.11.5.13. C, Boucardicus goudoti (Fischer-Piete & Bedoucha, 1965) paratype, MNHN-IM-2000-31765. D, Boucardicus lavalavus lavalavus Emberton, 2002, Madagascar, Manombo Reserve, SMF 321011 (paratype). E, Malarinia hova Haas, 1961 (holotype, CNHM 106701). F, Malarinia calcoperculata Emberton, 1994 (holotype). G, Acroptochia metableta (Crosse & P. Fischer, 1873), MNHN-IM-2000-35171, syntype. Doted line in F indicates the position of the operculum.Photographs: M. Caballer Gutiérrez (A, C); H. Taylor (B); B. Páll-Gergely (D, G); unknown (E); and E. Wildner (F).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFD8547151FFFA952CCD0E00.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826254/files/figure.png	https://doi.org/10.5281/zenodo.14826254	Figure 12. Representatives of the Alycaeinae.A, Alocaeus eodouxi Venmans, 1956, Annam, Touranne, leg. Fruhstorfer, coll. Möllendorff, SMF 109290. B, Stomacosmethis dohrni (O. Boetger, 1893), Borneo, leg. H. Dohrn 1889, coll. O. Boetger, SMF 109278 (lectotype). C, Diorox amphora (Benson, 1856), UMZC I.102850, syntype. D, Dicharax hebes (Benson, 1857), Vorder-Indien, Khasi Berge, coll. Möllendorff, SMF 109244. E, Metalocaeus melanopoma (Pilsbry, 1900), lectotype, ANSP 78815.	Figure 12. Representatives of the Alycaeinae.A, Alocaeus eodouxi Venmans, 1956, Annam, Touranne, leg. Fruhstorfer, coll. Möllendorff, SMF 109290. B, Stomacosmethis dohrni (O. Boetger, 1893), Borneo, leg. H. Dohrn 1889, coll. O. Boetger, SMF 109278 (lectotype). C, Diorox amphora (Benson, 1856), UMZC I.102850, syntype. D, Dicharax hebes (Benson, 1857), Vorder-Indien, Khasi Berge, coll. Möllendorff, SMF 109244. E, Metalocaeus melanopoma (Pilsbry, 1900), lectotype, ANSP 78815.	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFD8547151FFFA952CCD0E00.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826250/files/figure.png	https://doi.org/10.5281/zenodo.14826250	Figure 11. Distribution of Alycaeinae (red), Platyrhaphidinae (green), Laotiinae (blue), and Boucardicinae (purple). Data of Alycaeinae were compiled using distribution data for all known taxa of Alycaeinae (~390) from all relevant literature sources (Sajan et al. 2020, Páll- Gergely et al. 2020, 2021a, 2023). Te distribution of Platorhaphe was constructed based on Kobelt (1902), Bartsch (1919), Yen (1939), Zilch (1957), Azuma (1982), and Egorov (2009). Locality data of Laotia and Messageria are from Bavay and Dautzenberg (1904), Saurin (1953), Páll-Gergely (2014), and Chen and Lin (2021).	Figure 11. Distribution of Alycaeinae (red), Platyrhaphidinae (green), Laotiinae (blue), and Boucardicinae (purple). Data of Alycaeinae were compiled using distribution data for all known taxa of Alycaeinae (~390) from all relevant literature sources (Sajan et al. 2020, Páll- Gergely et al. 2020, 2021a, 2023). Te distribution of Platorhaphe was constructed based on Kobelt (1902), Bartsch (1919), Yen (1939), Zilch (1957), Azuma (1982), and Egorov (2009). Locality data of Laotia and Messageria are from Bavay and Dautzenberg (1904), Saurin (1953), Páll-Gergely (2014), and Chen and Lin (2021).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFDA546C512CF9D1291F0A43.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826258/files/figure.png	https://doi.org/10.5281/zenodo.14826258	Figure 13. Representatives of the Platyrhaphidinae (A, B) and Laotiinae (C–F). A, Platorhaphe lowi (de Morgan, 1885) (shell cleaned).B, Platorhaphe lowi (shell covered by mud, usual for living specimens). C, syntype of Laotia pahiensis Saurin, 1953 (MNHN-IM-2000-28217). D, lectotype of Messageria scalarioides (Bavay & Dautzenberg, 1904) (MNHN-IM-2000-32414).E, F, paralectotype (MNHN-IM-2000-32415); outlined area indicates the position of tube endings. Photographs:Manuel Caballer (C) and B. Páll-Gergely (all others).	Figure 13. Representatives of the Platyrhaphidinae (A, B) and Laotiinae (C–F). A, Platorhaphe lowi (de Morgan, 1885) (shell cleaned).B, Platorhaphe lowi (shell covered by mud, usual for living specimens). C, syntype of Laotia pahiensis Saurin, 1953 (MNHN-IM-2000-28217). D, lectotype of Messageria scalarioides (Bavay & Dautzenberg, 1904) (MNHN-IM-2000-32414).E, F, paralectotype (MNHN-IM-2000-32415); outlined area indicates the position of tube endings. Photographs:Manuel Caballer (C) and B. Páll-Gergely (all others).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFDA546C512CF9D1291F0A43.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826250/files/figure.png	https://doi.org/10.5281/zenodo.14826250	Figure 11. Distribution of Alycaeinae (red), Platyrhaphidinae (green), Laotiinae (blue), and Boucardicinae (purple). Data of Alycaeinae were compiled using distribution data for all known taxa of Alycaeinae (~390) from all relevant literature sources (Sajan et al. 2020, Páll- Gergely et al. 2020, 2021a, 2023). Te distribution of Platorhaphe was constructed based on Kobelt (1902), Bartsch (1919), Yen (1939), Zilch (1957), Azuma (1982), and Egorov (2009). Locality data of Laotia and Messageria are from Bavay and Dautzenberg (1904), Saurin (1953), Páll-Gergely (2014), and Chen and Lin (2021).	Figure 11. Distribution of Alycaeinae (red), Platyrhaphidinae (green), Laotiinae (blue), and Boucardicinae (purple). Data of Alycaeinae were compiled using distribution data for all known taxa of Alycaeinae (~390) from all relevant literature sources (Sajan et al. 2020, Páll- Gergely et al. 2020, 2021a, 2023). Te distribution of Platorhaphe was constructed based on Kobelt (1902), Bartsch (1919), Yen (1939), Zilch (1957), Azuma (1982), and Egorov (2009). Locality data of Laotia and Messageria are from Bavay and Dautzenberg (1904), Saurin (1953), Páll-Gergely (2014), and Chen and Lin (2021).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFC7546C519DFEFB2D2A0EB2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826258/files/figure.png	https://doi.org/10.5281/zenodo.14826258	Figure 13. Representatives of the Platyrhaphidinae (A, B) and Laotiinae (C–F). A, Platorhaphe lowi (de Morgan, 1885) (shell cleaned).B, Platorhaphe lowi (shell covered by mud, usual for living specimens). C, syntype of Laotia pahiensis Saurin, 1953 (MNHN-IM-2000-28217). D, lectotype of Messageria scalarioides (Bavay & Dautzenberg, 1904) (MNHN-IM-2000-32414).E, F, paralectotype (MNHN-IM-2000-32415); outlined area indicates the position of tube endings. Photographs:Manuel Caballer (C) and B. Páll-Gergely (all others).	Figure 13. Representatives of the Platyrhaphidinae (A, B) and Laotiinae (C–F). A, Platorhaphe lowi (de Morgan, 1885) (shell cleaned).B, Platorhaphe lowi (shell covered by mud, usual for living specimens). C, syntype of Laotia pahiensis Saurin, 1953 (MNHN-IM-2000-28217). D, lectotype of Messageria scalarioides (Bavay & Dautzenberg, 1904) (MNHN-IM-2000-32414).E, F, paralectotype (MNHN-IM-2000-32415); outlined area indicates the position of tube endings. Photographs:Manuel Caballer (C) and B. Páll-Gergely (all others).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFC7546C519DFEFB2D2A0EB2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826242/files/figure.png	https://doi.org/10.5281/zenodo.14826242	Figure 9. Maximum likelihood phylogenetic tree of Diplommatinidae and Cyclophoridae, including some other selected caenogastropod sequences, based on sequence data from COI, H3, and 28S. Te tree is unrooted. Given that the main objective of the study was to gain a beter understanding of the topologies within the families Diplommatinidae and Cyclophoridae, this arrangement provides a beter overview. Numbers at the branches are SH-aLRT (as a percentage), approximate Bayes and ultrafast bootstrap support (as a percentage) values. For clarity, only values of>80%/>0.9/>90% are indicated. Coloured branches indicate taxa with microtunnel systems. Colour code: red, Platyrhaphidinae; green, Alycaeinae; orange, Laotiinae; blue, Boucardicinae.	Figure 9. Maximum likelihood phylogenetic tree of Diplommatinidae and Cyclophoridae, including some other selected caenogastropod sequences, based on sequence data from COI, H3, and 28S. Te tree is unrooted. Given that the main objective of the study was to gain a beter understanding of the topologies within the families Diplommatinidae and Cyclophoridae, this arrangement provides a beter overview. Numbers at the branches are SH-aLRT (as a percentage), approximate Bayes and ultrafast bootstrap support (as a percentage) values. For clarity, only values of>80%/>0.9/>90% are indicated. Coloured branches indicate taxa with microtunnel systems. Colour code: red, Platyrhaphidinae; green, Alycaeinae; orange, Laotiinae; blue, Boucardicinae.	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFC7546C519DFEFB2D2A0EB2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826230/files/figure.png	https://doi.org/10.5281/zenodo.14826230	Figure 6. Tube–microtunnel system of Platorhaphe. B, Platorhaphe pusilla (Sowerby, 1843) (NHMW 11691); other panels show Platorhaphe lowi (de Morgan, 1885). A, C, cross-sectional view of the inner tube (arrow shows view of D). B, white framed area shows microtunnels. D, ventral view of the inner tube inside body whorl.E, F, end of inner tube visible from the aperture in oblique view. G, inner tube inside apical whorls (white line indicates border between protoconch and teleoconch).	Figure 6. Tube–microtunnel system of Platorhaphe. B, Platorhaphe pusilla (Sowerby, 1843) (NHMW 11691); other panels show Platorhaphe lowi (de Morgan, 1885). A, C, cross-sectional view of the inner tube (arrow shows view of D). B, white framed area shows microtunnels. D, ventral view of the inner tube inside body whorl.E, F, end of inner tube visible from the aperture in oblique view. G, inner tube inside apical whorls (white line indicates border between protoconch and teleoconch).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFC7546C52A9F9B12C6A0969.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826258/files/figure.png	https://doi.org/10.5281/zenodo.14826258	Figure 13. Representatives of the Platyrhaphidinae (A, B) and Laotiinae (C–F). A, Platorhaphe lowi (de Morgan, 1885) (shell cleaned).B, Platorhaphe lowi (shell covered by mud, usual for living specimens). C, syntype of Laotia pahiensis Saurin, 1953 (MNHN-IM-2000-28217). D, lectotype of Messageria scalarioides (Bavay & Dautzenberg, 1904) (MNHN-IM-2000-32414).E, F, paralectotype (MNHN-IM-2000-32415); outlined area indicates the position of tube endings. Photographs:Manuel Caballer (C) and B. Páll-Gergely (all others).	Figure 13. Representatives of the Platyrhaphidinae (A, B) and Laotiinae (C–F). A, Platorhaphe lowi (de Morgan, 1885) (shell cleaned).B, Platorhaphe lowi (shell covered by mud, usual for living specimens). C, syntype of Laotia pahiensis Saurin, 1953 (MNHN-IM-2000-28217). D, lectotype of Messageria scalarioides (Bavay & Dautzenberg, 1904) (MNHN-IM-2000-32414).E, F, paralectotype (MNHN-IM-2000-32415); outlined area indicates the position of tube endings. Photographs:Manuel Caballer (C) and B. Páll-Gergely (all others).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFC7546C52A9F9B12C6A0969.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826250/files/figure.png	https://doi.org/10.5281/zenodo.14826250	Figure 11. Distribution of Alycaeinae (red), Platyrhaphidinae (green), Laotiinae (blue), and Boucardicinae (purple). Data of Alycaeinae were compiled using distribution data for all known taxa of Alycaeinae (~390) from all relevant literature sources (Sajan et al. 2020, Páll- Gergely et al. 2020, 2021a, 2023). Te distribution of Platorhaphe was constructed based on Kobelt (1902), Bartsch (1919), Yen (1939), Zilch (1957), Azuma (1982), and Egorov (2009). Locality data of Laotia and Messageria are from Bavay and Dautzenberg (1904), Saurin (1953), Páll-Gergely (2014), and Chen and Lin (2021).	Figure 11. Distribution of Alycaeinae (red), Platyrhaphidinae (green), Laotiinae (blue), and Boucardicinae (purple). Data of Alycaeinae were compiled using distribution data for all known taxa of Alycaeinae (~390) from all relevant literature sources (Sajan et al. 2020, Páll- Gergely et al. 2020, 2021a, 2023). Te distribution of Platorhaphe was constructed based on Kobelt (1902), Bartsch (1919), Yen (1939), Zilch (1957), Azuma (1982), and Egorov (2009). Locality data of Laotia and Messageria are from Bavay and Dautzenberg (1904), Saurin (1953), Páll-Gergely (2014), and Chen and Lin (2021).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFC7546C5292FD9129E10DE0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826230/files/figure.png	https://doi.org/10.5281/zenodo.14826230	Figure 6. Tube–microtunnel system of Platorhaphe. B, Platorhaphe pusilla (Sowerby, 1843) (NHMW 11691); other panels show Platorhaphe lowi (de Morgan, 1885). A, C, cross-sectional view of the inner tube (arrow shows view of D). B, white framed area shows microtunnels. D, ventral view of the inner tube inside body whorl.E, F, end of inner tube visible from the aperture in oblique view. G, inner tube inside apical whorls (white line indicates border between protoconch and teleoconch).	Figure 6. Tube–microtunnel system of Platorhaphe. B, Platorhaphe pusilla (Sowerby, 1843) (NHMW 11691); other panels show Platorhaphe lowi (de Morgan, 1885). A, C, cross-sectional view of the inner tube (arrow shows view of D). B, white framed area shows microtunnels. D, ventral view of the inner tube inside body whorl.E, F, end of inner tube visible from the aperture in oblique view. G, inner tube inside apical whorls (white line indicates border between protoconch and teleoconch).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFC7546D51E6F8A329030D8F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826258/files/figure.png	https://doi.org/10.5281/zenodo.14826258	Figure 13. Representatives of the Platyrhaphidinae (A, B) and Laotiinae (C–F). A, Platorhaphe lowi (de Morgan, 1885) (shell cleaned).B, Platorhaphe lowi (shell covered by mud, usual for living specimens). C, syntype of Laotia pahiensis Saurin, 1953 (MNHN-IM-2000-28217). D, lectotype of Messageria scalarioides (Bavay & Dautzenberg, 1904) (MNHN-IM-2000-32414).E, F, paralectotype (MNHN-IM-2000-32415); outlined area indicates the position of tube endings. Photographs:Manuel Caballer (C) and B. Páll-Gergely (all others).	Figure 13. Representatives of the Platyrhaphidinae (A, B) and Laotiinae (C–F). A, Platorhaphe lowi (de Morgan, 1885) (shell cleaned).B, Platorhaphe lowi (shell covered by mud, usual for living specimens). C, syntype of Laotia pahiensis Saurin, 1953 (MNHN-IM-2000-28217). D, lectotype of Messageria scalarioides (Bavay & Dautzenberg, 1904) (MNHN-IM-2000-32414).E, F, paralectotype (MNHN-IM-2000-32415); outlined area indicates the position of tube endings. Photographs:Manuel Caballer (C) and B. Páll-Gergely (all others).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
03C487EEFFC7546D51E6F8A329030D8F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14826230/files/figure.png	https://doi.org/10.5281/zenodo.14826230	Figure 6. Tube–microtunnel system of Platorhaphe. B, Platorhaphe pusilla (Sowerby, 1843) (NHMW 11691); other panels show Platorhaphe lowi (de Morgan, 1885). A, C, cross-sectional view of the inner tube (arrow shows view of D). B, white framed area shows microtunnels. D, ventral view of the inner tube inside body whorl.E, F, end of inner tube visible from the aperture in oblique view. G, inner tube inside apical whorls (white line indicates border between protoconch and teleoconch).	Figure 6. Tube–microtunnel system of Platorhaphe. B, Platorhaphe pusilla (Sowerby, 1843) (NHMW 11691); other panels show Platorhaphe lowi (de Morgan, 1885). A, C, cross-sectional view of the inner tube (arrow shows view of D). B, white framed area shows microtunnels. D, ventral view of the inner tube inside body whorl.E, F, end of inner tube visible from the aperture in oblique view. G, inner tube inside apical whorls (white line indicates border between protoconch and teleoconch).	2024-12-12	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán		Zenodo	biologists	Páll-Gergely, Barna;Ruthensteiner, Bernhard;Harl, Josef;Magonyi, Nóra M.;Asami, Takahiro;Krizsik, Virág;Schwaha, Tomas;Fehér, Zoltán			
