taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
324E87DE693CFFA586702FA056098D16.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15316541/files/figure.png	https://doi.org/10.5281/zenodo.15316541	Fig. 2. Choanolaimus serieporus sp. nov. A. Anterior body region of holotype, ♂ (NIWA 181629). B. Cephalic region of paratype, ♀ (NIWA 181631). C–D. Cephalic region of paratype, ♂ (NIWA 181630). C. Optical cross-section. D. Surface view. E. Posterior body region of paratype, ♀ (NIWA 181631). F. Posterior body region of holotype, ♂ (NIWA 181629). Arrow shows group of dorsosublateral pore complexes. Scale bar: A = 75 µm; B–F = 60 µm.	Fig. 2. Choanolaimus serieporus sp. nov. A. Anterior body region of holotype, ♂ (NIWA 181629). B. Cephalic region of paratype, ♀ (NIWA 181631). C–D. Cephalic region of paratype, ♂ (NIWA 181630). C. Optical cross-section. D. Surface view. E. Posterior body region of paratype, ♀ (NIWA 181631). F. Posterior body region of holotype, ♂ (NIWA 181629). Arrow shows group of dorsosublateral pore complexes. Scale bar: A = 75 µm; B–F = 60 µm.	2025-04-30	Leduc, Daniel;Zhao, Zeng Qi		Zenodo	biologists	Leduc, Daniel;Zhao, Zeng Qi			
324E87DE693CFFA586702FA056098D16.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15316543/files/figure.png	https://doi.org/10.5281/zenodo.15316543	Fig. 3. Choanolaimus serieporus sp. nov. A. Entire holotype, ♂ (NIWA 181629). B. Entire paratype, ♀ (NIWA 181631). Arrows show groups of dorsosublateral pore complexes. Scale bar = 200 µm.	Fig. 3. Choanolaimus serieporus sp. nov. A. Entire holotype, ♂ (NIWA 181629). B. Entire paratype, ♀ (NIWA 181631). Arrows show groups of dorsosublateral pore complexes. Scale bar = 200 µm.	2025-04-30	Leduc, Daniel;Zhao, Zeng Qi		Zenodo	biologists	Leduc, Daniel;Zhao, Zeng Qi			
324E87DE693CFFA586702FA056098D16.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15316545/files/figure.png	https://doi.org/10.5281/zenodo.15316545	Fig. 4. Choanolaimus serieporus sp. nov., light micrographs. A–B. Cephalic region of paratype, ♀ (NIWA 181631). A. Surface view. B. Cross-section view. C. Entire paratype, ♂ (NIWA 181630). D. Lateral view of mid-body cuticle of paratype, ♀ (NIWA 181631). E. Proximal portion of posterior testis of paratype, ♂ (NIWA 181630). F. Proximal portion of anterior testis of paratype, ♂ (NIWA 181630). Arrow shows group of dorsosublateral pore complexes. Scale bar: A, B, D = 25 µm; C = 125 µm; E–F = 40 µm.	Fig. 4. Choanolaimus serieporus sp. nov., light micrographs. A–B. Cephalic region of paratype, ♀ (NIWA 181631). A. Surface view. B. Cross-section view. C. Entire paratype, ♂ (NIWA 181630). D. Lateral view of mid-body cuticle of paratype, ♀ (NIWA 181631). E. Proximal portion of posterior testis of paratype, ♂ (NIWA 181630). F. Proximal portion of anterior testis of paratype, ♂ (NIWA 181630). Arrow shows group of dorsosublateral pore complexes. Scale bar: A, B, D = 25 µm; C = 125 µm; E–F = 40 µm.	2025-04-30	Leduc, Daniel;Zhao, Zeng Qi		Zenodo	biologists	Leduc, Daniel;Zhao, Zeng Qi			
324E87DE6932FFA386782C6C577D8FD2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15316551/files/figure.png	https://doi.org/10.5281/zenodo.15316551	Fig. 5. Choanolaimus sparsiporus sp. nov., holotype, ♂ (NIWA 181632) A. Anterior body region. B. Posterior body region. C. Entire specimen. Arrows show position of dorsosublateral pore complexes. Scale bar: A = 75 µm; B = 60 µm; C = 200 µm.	Fig. 5. Choanolaimus sparsiporus sp. nov., holotype, ♂ (NIWA 181632) A. Anterior body region. B. Posterior body region. C. Entire specimen. Arrows show position of dorsosublateral pore complexes. Scale bar: A = 75 µm; B = 60 µm; C = 200 µm.	2025-04-30	Leduc, Daniel;Zhao, Zeng Qi		Zenodo	biologists	Leduc, Daniel;Zhao, Zeng Qi			
324E87DE6936FFBB865E2C29564B8B8A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15316553/files/figure.png	https://doi.org/10.5281/zenodo.15316553	Fig. 6. Gammanema lunatum sp. nov. A. Cephalic region of paratype, ♀ (NIWA 181634). B. Cephalic region of holotype, ♂ (NIWA 181633). C. Posterior body region of paratype, ♀ (NIWA 181634). D. Posterior body region of holotype, ♂ (NIWA 181633). Scale bar: A–C = 50 µm; D = 58 µm.	Fig. 6. Gammanema lunatum sp. nov. A. Cephalic region of paratype, ♀ (NIWA 181634). B. Cephalic region of holotype, ♂ (NIWA 181633). C. Posterior body region of paratype, ♀ (NIWA 181634). D. Posterior body region of holotype, ♂ (NIWA 181633). Scale bar: A–C = 50 µm; D = 58 µm.	2025-04-30	Leduc, Daniel;Zhao, Zeng Qi		Zenodo	biologists	Leduc, Daniel;Zhao, Zeng Qi			
324E87DE6936FFBB865E2C29564B8B8A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15316555/files/figure.png	https://doi.org/10.5281/zenodo.15316555	Fig. 7. Gammanema lunatum sp. nov. A. Entire paratype, ♂ (NIWA 181634). B. Entire holotype, ♂ (NIWA 181633). Scale bar = 150 µm.	Fig. 7. Gammanema lunatum sp. nov. A. Entire paratype, ♂ (NIWA 181634). B. Entire holotype, ♂ (NIWA 181633). Scale bar = 150 µm.	2025-04-30	Leduc, Daniel;Zhao, Zeng Qi		Zenodo	biologists	Leduc, Daniel;Zhao, Zeng Qi			
324E87DE6936FFBB865E2C29564B8B8A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15316557/files/figure.png	https://doi.org/10.5281/zenodo.15316557	Fig. 8. Gammanema lunatum sp. nov. A. Entire paratype, ♂ (NIWA 181634). B. Entire paratype, ♀ (NIWA 181634). C–D. Cephalic region of holotype, ♂ (NIWA 181633). C. Surface view. D. Crosssection view. E. Intestine of paratype, ♀ (NIWA 181634). F. Vulva of paratype, ♀ (NIWA 181634). Scale bar: A = 125 µm; B = 165 µm; C–D = 16 µm; E–F = 20 µm.	Fig. 8. Gammanema lunatum sp. nov. A. Entire paratype, ♂ (NIWA 181634). B. Entire paratype, ♀ (NIWA 181634). C–D. Cephalic region of holotype, ♂ (NIWA 181633). C. Surface view. D. Crosssection view. E. Intestine of paratype, ♀ (NIWA 181634). F. Vulva of paratype, ♀ (NIWA 181634). Scale bar: A = 125 µm; B = 165 µm; C–D = 16 µm; E–F = 20 µm.	2025-04-30	Leduc, Daniel;Zhao, Zeng Qi		Zenodo	biologists	Leduc, Daniel;Zhao, Zeng Qi			
324E87DE6936FFBB865E2C29564B8B8A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15316559/files/figure.png	https://doi.org/10.5281/zenodo.15316559	Fig. 9. Bayesian tree inferred from SSU sequences, aligned using the MUSCLE alignment algorithm under the general time-reversible (GTR) + I (proportion of invariable sites) + gamma distribution (G) model. The new sequences are shown in bold font. Posterior probabilities (left) and bootstrap values (right) greater than or equal to 50% are given on appropriate clades. Sequence FJ040468 is labelled Synonchiella sp. in Genbank but is changed here to Halichoanolaimus robustus (Bastian, 1865) de Man 1886, based on a reinvestigation of the images of the voucher specimen used for sequencing by Ahmed et al. (2020). Note that sequences MN786729 & MN786731 and MN786726-8 published by Ahmed et al. (2020) were labelled Gammanema rapax sensu Platt & Warick (1988) and Gammanema rapax, respectively; however, given the uncertain status of this species (Tchesunov et al. 2020), the sequences are instead labelled “Gammanema sp.”. The scale stands for substitutions per site. - = less than 50% bootstrap support.	Fig. 9. Bayesian tree inferred from SSU sequences, aligned using the MUSCLE alignment algorithm under the general time-reversible (GTR) + I (proportion of invariable sites) + gamma distribution (G) model. The new sequences are shown in bold font. Posterior probabilities (left) and bootstrap values (right) greater than or equal to 50% are given on appropriate clades. Sequence FJ040468 is labelled Synonchiella sp. in Genbank but is changed here to Halichoanolaimus robustus (Bastian, 1865) de Man 1886, based on a reinvestigation of the images of the voucher specimen used for sequencing by Ahmed et al. (2020). Note that sequences MN786729 & MN786731 and MN786726-8 published by Ahmed et al. (2020) were labelled Gammanema rapax sensu Platt & Warick (1988) and Gammanema rapax, respectively; however, given the uncertain status of this species (Tchesunov et al. 2020), the sequences are instead labelled “Gammanema sp.”. The scale stands for substitutions per site. - = less than 50% bootstrap support.	2025-04-30	Leduc, Daniel;Zhao, Zeng Qi		Zenodo	biologists	Leduc, Daniel;Zhao, Zeng Qi			
324E87DE6936FFBB865E2C29564B8B8A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15316561/files/figure.png	https://doi.org/10.5281/zenodo.15316561	Fig. 10. Bayesian tree inferred from D2–D3 of LSU sequences, aligned using the MUSCLE alignment algorithm under the general time-reversible (GTR) + I (proportion of invariable sites) + gamma distribution (G) model. Posterior probabilities (left) and bootstrap values (right) greater than or equal to 50% are given on appropriate clades. The new sequences are shown in bold font. Note that sequences MN786753 & MN786755 and MN786750 & MN786752 published by Ahmedet al. (2020) were labelled Gammanema rapax sensu Platt & Warick (1988) and Gammanema rapax, respectively; however, given the uncertain status of this species (Tchesunov et al. 2020), the sequences are instead labelled “Gammanema sp.”. The scale stands for substitutions per site. - = less than 50% bootstrap support.	Fig. 10. Bayesian tree inferred from D2–D3 of LSU sequences, aligned using the MUSCLE alignment algorithm under the general time-reversible (GTR) + I (proportion of invariable sites) + gamma distribution (G) model. Posterior probabilities (left) and bootstrap values (right) greater than or equal to 50% are given on appropriate clades. The new sequences are shown in bold font. Note that sequences MN786753 & MN786755 and MN786750 & MN786752 published by Ahmedet al. (2020) were labelled Gammanema rapax sensu Platt & Warick (1988) and Gammanema rapax, respectively; however, given the uncertain status of this species (Tchesunov et al. 2020), the sequences are instead labelled “Gammanema sp.”. The scale stands for substitutions per site. - = less than 50% bootstrap support.	2025-04-30	Leduc, Daniel;Zhao, Zeng Qi		Zenodo	biologists	Leduc, Daniel;Zhao, Zeng Qi			
