taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
D2335B4DDC0B526084211BBEB4270004.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584114	https://doi.org/10.3897/zookeys.1059.68385.figure1	Figure 1. Bayesian Inferences of camaenids (representatives of genera in Table 1) based on partial mitochondrial 16 S and CO 1 sequences. Numbers near nodes indicate Bayesian posterior probabilities. The squares on the right of each taxon name indicate its character states. Abbreviations: PS: penial sheath; EpP: epiphallic papilla; PC: penial caecum; Fl: flagellum; DS: dart sac apparatus A phylogram without Australian camaenids B the results of ancestral states (tagged on branch in red, blue, or black) reconstruction mapping on the phylogram with some Australian camaenid genera added. Orange part: the topologies supported by the results respectively by using both Bayesian Inference and Maximum Likelihood methods. Character states are from Schileyko (2003) and Wu (2019). Scale bars for substitutions per site.	Figure 1. Bayesian Inferences of camaenids (representatives of genera in Table 1) based on partial mitochondrial 16 S and CO 1 sequences. Numbers near nodes indicate Bayesian posterior probabilities. The squares on the right of each taxon name indicate its character states. Abbreviations: PS: penial sheath; EpP: epiphallic papilla; PC: penial caecum; Fl: flagellum; DS: dart sac apparatus A phylogram without Australian camaenids B the results of ancestral states (tagged on branch in red, blue, or black) reconstruction mapping on the phylogram with some Australian camaenid genera added. Orange part: the topologies supported by the results respectively by using both Bayesian Inference and Maximum Likelihood methods. Character states are from Schileyko (2003) and Wu (2019). Scale bars for substitutions per site.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
D2335B4DDC0B526084211BBEB4270004.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584115	https://doi.org/10.3897/zookeys.1059.68385.figure2	Figure 2. Distribution of Stegodera and Pseudostegodera qiului gen. et sp. nov. Triangle: new locality of Stegodera angusticollis (Martens, 1875); dashed range: area of Stegodera angusticollis; circle: type locality of Pseudostegodera qiului gen. et sp. nov.	Figure 2. Distribution of Stegodera and Pseudostegodera qiului gen. et sp. nov. Triangle: new locality of Stegodera angusticollis (Martens, 1875); dashed range: area of Stegodera angusticollis; circle: type locality of Pseudostegodera qiului gen. et sp. nov.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
D2335B4DDC0B526084211BBEB4270004.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584116	https://doi.org/10.3897/zookeys.1059.68385.figure3	Figure 3. Shells A Stegodera angusticollis Martens, 1876, HBUMM 08435 B-D Pseudostegodera qiului gen. et sp. nov., holotype IZCAS TM 206978 C p rotoconch, magnified D shell surface, magnified. Scale bar: 5 mm (A, B).	Figure 3. Shells A Stegodera angusticollis Martens, 1876, HBUMM 08435 B-D Pseudostegodera qiului gen. et sp. nov., holotype IZCAS TM 206978 C p rotoconch, magnified D shell surface, magnified. Scale bar: 5 mm (A, B).	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
D2335B4DDC0B526084211BBEB4270004.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584117	https://doi.org/10.3897/zookeys.1059.68385.figure4	Figure 4. General anatomy A-D Stegodera angusticollis (Martens, 1875), HBUMM 08435 A lobe (arrowed) on the left side of mantle edge B lobe (arrowed) on the right side of mantle edge C internal surface of head region D jaw E-H Pseudostegodera qiului gen. et sp. nov., holotype IZCAS TM 206978 E jaw F internal surface of head region G lobe (arrowed) on the left side of mantle edge H lobe (arrowed) on the right side of mantle edge.	Figure 4. General anatomy A-D Stegodera angusticollis (Martens, 1875), HBUMM 08435 A lobe (arrowed) on the left side of mantle edge B lobe (arrowed) on the right side of mantle edge C internal surface of head region D jaw E-H Pseudostegodera qiului gen. et sp. nov., holotype IZCAS TM 206978 E jaw F internal surface of head region G lobe (arrowed) on the left side of mantle edge H lobe (arrowed) on the right side of mantle edge.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
D2335B4DDC0B526084211BBEB4270004.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584120	https://doi.org/10.3897/zookeys.1059.68385.figure7	Figure 7. Genitalia of Pseudostegodera qiului gen. et sp. nov., holotype IZCAS TM 206978 A general view B, C male part, two sides D exposed penis.	Figure 7. Genitalia of Pseudostegodera qiului gen. et sp. nov., holotype IZCAS TM 206978 A general view B, C male part, two sides D exposed penis.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
D2335B4DDC0B526084211BBEB4270004.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584122	https://doi.org/10.3897/zookeys.1059.68385.figure9	Figure 9. Habitat and living specimens of Pseudostegodera qiului gen. et sp. nov. A habitat B, C a living specimen. Photographs Lu Qiu.	Figure 9. Habitat and living specimens of Pseudostegodera qiului gen. et sp. nov. A habitat B, C a living specimen. Photographs Lu Qiu.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
EFBB53B7D14458F5B1ED5B0A2A965DB5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584114	https://doi.org/10.3897/zookeys.1059.68385.figure1	Figure 1. Bayesian Inferences of camaenids (representatives of genera in Table 1) based on partial mitochondrial 16 S and CO 1 sequences. Numbers near nodes indicate Bayesian posterior probabilities. The squares on the right of each taxon name indicate its character states. Abbreviations: PS: penial sheath; EpP: epiphallic papilla; PC: penial caecum; Fl: flagellum; DS: dart sac apparatus A phylogram without Australian camaenids B the results of ancestral states (tagged on branch in red, blue, or black) reconstruction mapping on the phylogram with some Australian camaenid genera added. Orange part: the topologies supported by the results respectively by using both Bayesian Inference and Maximum Likelihood methods. Character states are from Schileyko (2003) and Wu (2019). Scale bars for substitutions per site.	Figure 1. Bayesian Inferences of camaenids (representatives of genera in Table 1) based on partial mitochondrial 16 S and CO 1 sequences. Numbers near nodes indicate Bayesian posterior probabilities. The squares on the right of each taxon name indicate its character states. Abbreviations: PS: penial sheath; EpP: epiphallic papilla; PC: penial caecum; Fl: flagellum; DS: dart sac apparatus A phylogram without Australian camaenids B the results of ancestral states (tagged on branch in red, blue, or black) reconstruction mapping on the phylogram with some Australian camaenid genera added. Orange part: the topologies supported by the results respectively by using both Bayesian Inference and Maximum Likelihood methods. Character states are from Schileyko (2003) and Wu (2019). Scale bars for substitutions per site.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
B0722042814951EBA94DD218446E36F0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584114	https://doi.org/10.3897/zookeys.1059.68385.figure1	Figure 1. Bayesian Inferences of camaenids (representatives of genera in Table 1) based on partial mitochondrial 16 S and CO 1 sequences. Numbers near nodes indicate Bayesian posterior probabilities. The squares on the right of each taxon name indicate its character states. Abbreviations: PS: penial sheath; EpP: epiphallic papilla; PC: penial caecum; Fl: flagellum; DS: dart sac apparatus A phylogram without Australian camaenids B the results of ancestral states (tagged on branch in red, blue, or black) reconstruction mapping on the phylogram with some Australian camaenid genera added. Orange part: the topologies supported by the results respectively by using both Bayesian Inference and Maximum Likelihood methods. Character states are from Schileyko (2003) and Wu (2019). Scale bars for substitutions per site.	Figure 1. Bayesian Inferences of camaenids (representatives of genera in Table 1) based on partial mitochondrial 16 S and CO 1 sequences. Numbers near nodes indicate Bayesian posterior probabilities. The squares on the right of each taxon name indicate its character states. Abbreviations: PS: penial sheath; EpP: epiphallic papilla; PC: penial caecum; Fl: flagellum; DS: dart sac apparatus A phylogram without Australian camaenids B the results of ancestral states (tagged on branch in red, blue, or black) reconstruction mapping on the phylogram with some Australian camaenid genera added. Orange part: the topologies supported by the results respectively by using both Bayesian Inference and Maximum Likelihood methods. Character states are from Schileyko (2003) and Wu (2019). Scale bars for substitutions per site.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
B0722042814951EBA94DD218446E36F0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584115	https://doi.org/10.3897/zookeys.1059.68385.figure2	Figure 2. Distribution of Stegodera and Pseudostegodera qiului gen. et sp. nov. Triangle: new locality of Stegodera angusticollis (Martens, 1875); dashed range: area of Stegodera angusticollis; circle: type locality of Pseudostegodera qiului gen. et sp. nov.	Figure 2. Distribution of Stegodera and Pseudostegodera qiului gen. et sp. nov. Triangle: new locality of Stegodera angusticollis (Martens, 1875); dashed range: area of Stegodera angusticollis; circle: type locality of Pseudostegodera qiului gen. et sp. nov.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
B0722042814951EBA94DD218446E36F0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584116	https://doi.org/10.3897/zookeys.1059.68385.figure3	Figure 3. Shells A Stegodera angusticollis Martens, 1876, HBUMM 08435 B-D Pseudostegodera qiului gen. et sp. nov., holotype IZCAS TM 206978 C p rotoconch, magnified D shell surface, magnified. Scale bar: 5 mm (A, B).	Figure 3. Shells A Stegodera angusticollis Martens, 1876, HBUMM 08435 B-D Pseudostegodera qiului gen. et sp. nov., holotype IZCAS TM 206978 C p rotoconch, magnified D shell surface, magnified. Scale bar: 5 mm (A, B).	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
B0722042814951EBA94DD218446E36F0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584117	https://doi.org/10.3897/zookeys.1059.68385.figure4	Figure 4. General anatomy A-D Stegodera angusticollis (Martens, 1875), HBUMM 08435 A lobe (arrowed) on the left side of mantle edge B lobe (arrowed) on the right side of mantle edge C internal surface of head region D jaw E-H Pseudostegodera qiului gen. et sp. nov., holotype IZCAS TM 206978 E jaw F internal surface of head region G lobe (arrowed) on the left side of mantle edge H lobe (arrowed) on the right side of mantle edge.	Figure 4. General anatomy A-D Stegodera angusticollis (Martens, 1875), HBUMM 08435 A lobe (arrowed) on the left side of mantle edge B lobe (arrowed) on the right side of mantle edge C internal surface of head region D jaw E-H Pseudostegodera qiului gen. et sp. nov., holotype IZCAS TM 206978 E jaw F internal surface of head region G lobe (arrowed) on the left side of mantle edge H lobe (arrowed) on the right side of mantle edge.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
B0722042814951EBA94DD218446E36F0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584118	https://doi.org/10.3897/zookeys.1059.68385.figure5	Figure 5. Genitalia of Stegodera angusticollis (Martens, 1875), HBUMM 08435 A general view B male part, showing the vas deferens connecting epiphallus (arrowed) C female part, showing the dart sac, accessory sac, and mucous glands.	Figure 5. Genitalia of Stegodera angusticollis (Martens, 1875), HBUMM 08435 A general view B male part, showing the vas deferens connecting epiphallus (arrowed) C female part, showing the dart sac, accessory sac, and mucous glands.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
B0722042814951EBA94DD218446E36F0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584119	https://doi.org/10.3897/zookeys.1059.68385.figure6	Figure 6. Genitalia of Stegodera angusticollis (Martens, 1875), HBUMM 08435 A exposed dart sac apparatus B magnified partial penis and partial epiphallus. Arrow showing a very thin membranous sac wrapping distal half of penis with distal end connecting basal penial retractor muscle.	Figure 6. Genitalia of Stegodera angusticollis (Martens, 1875), HBUMM 08435 A exposed dart sac apparatus B magnified partial penis and partial epiphallus. Arrow showing a very thin membranous sac wrapping distal half of penis with distal end connecting basal penial retractor muscle.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
B0722042814951EBA94DD218446E36F0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584121	https://doi.org/10.3897/zookeys.1059.68385.figure8	Figure 8. Habitat and living specimens of Stegodera angusticollis (Martens, 1875) A habitat (photograph Kai-Chen Ouyang) B the living specimen of HBUMM 08435 C a living specimen from Chibi City (photograph Lu Qiu).	Figure 8. Habitat and living specimens of Stegodera angusticollis (Martens, 1875) A habitat (photograph Kai-Chen Ouyang) B the living specimen of HBUMM 08435 C a living specimen from Chibi City (photograph Lu Qiu).	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
AA63B94AF093547F99D63E116AAE19D2.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/584114	https://doi.org/10.3897/zookeys.1059.68385.figure1	Figure 1. Bayesian Inferences of camaenids (representatives of genera in Table 1) based on partial mitochondrial 16 S and CO 1 sequences. Numbers near nodes indicate Bayesian posterior probabilities. The squares on the right of each taxon name indicate its character states. Abbreviations: PS: penial sheath; EpP: epiphallic papilla; PC: penial caecum; Fl: flagellum; DS: dart sac apparatus A phylogram without Australian camaenids B the results of ancestral states (tagged on branch in red, blue, or black) reconstruction mapping on the phylogram with some Australian camaenid genera added. Orange part: the topologies supported by the results respectively by using both Bayesian Inference and Maximum Likelihood methods. Character states are from Schileyko (2003) and Wu (2019). Scale bars for substitutions per site.	Figure 1. Bayesian Inferences of camaenids (representatives of genera in Table 1) based on partial mitochondrial 16 S and CO 1 sequences. Numbers near nodes indicate Bayesian posterior probabilities. The squares on the right of each taxon name indicate its character states. Abbreviations: PS: penial sheath; EpP: epiphallic papilla; PC: penial caecum; Fl: flagellum; DS: dart sac apparatus A phylogram without Australian camaenids B the results of ancestral states (tagged on branch in red, blue, or black) reconstruction mapping on the phylogram with some Australian camaenid genera added. Orange part: the topologies supported by the results respectively by using both Bayesian Inference and Maximum Likelihood methods. Character states are from Schileyko (2003) and Wu (2019). Scale bars for substitutions per site.	2021-09-01	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min		Zenodo	biologists	Chen, Zhe-Yu;Lyu, Zhi-Tong;Wu, Min			
