taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
BBBEAA21F4E25766BD1CD74D8091802A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1249893	https://doi.org/10.3897/zse.101.141525.figure8	Figure 8. Cavernocypris sp. 1 (A ‒ D, WOC 193) and Cavernocypris sp. 2 (E ‒ G, WOC 195). A. LV, ext; B. RV, int; C. Detail of postero-ventral part of (B), showing the displaced selvage and the reticulation on the calcified inner lamella. Arrowheads point to setal pores along the selvage; D. Detail of the surface of (A); E. LV, ext; F. RV, int; G. Detail of the surface of (E).	Figure 8. Cavernocypris sp. 1 (A ‒ D, WOC 193) and Cavernocypris sp. 2 (E ‒ G, WOC 195). A. LV, ext; B. RV, int; C. Detail of postero-ventral part of (B), showing the displaced selvage and the reticulation on the calcified inner lamella. Arrowheads point to setal pores along the selvage; D. Detail of the surface of (A); E. LV, ext; F. RV, int; G. Detail of the surface of (E).	2025-02-13	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong		Zenodo	biologists	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong			
BBBEAA21F4E25766BD1CD74D8091802A.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1249886	https://doi.org/10.3897/zse.101.141525.figure1	Figure 1. Distribution of Cavernocypris species in East Asia. Data from Chang et al. (2012), McKenzie (1972), Munakata et al. (2022), Schornikov and Trebukhova (2001), Smith (2011), Smith and Chang (2022), Smith et al. (2015, 2017), Tanaka et al. (2015), as well as the present study.	Figure 1. Distribution of Cavernocypris species in East Asia. Data from Chang et al. (2012), McKenzie (1972), Munakata et al. (2022), Schornikov and Trebukhova (2001), Smith (2011), Smith and Chang (2022), Smith et al. (2015, 2017), Tanaka et al. (2015), as well as the present study.	2025-02-13	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong		Zenodo	biologists	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong			
7C543D01CED353C5863828254AEAF9A9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1249893	https://doi.org/10.3897/zse.101.141525.figure8	Figure 8. Cavernocypris sp. 1 (A ‒ D, WOC 193) and Cavernocypris sp. 2 (E ‒ G, WOC 195). A. LV, ext; B. RV, int; C. Detail of postero-ventral part of (B), showing the displaced selvage and the reticulation on the calcified inner lamella. Arrowheads point to setal pores along the selvage; D. Detail of the surface of (A); E. LV, ext; F. RV, int; G. Detail of the surface of (E).	Figure 8. Cavernocypris sp. 1 (A ‒ D, WOC 193) and Cavernocypris sp. 2 (E ‒ G, WOC 195). A. LV, ext; B. RV, int; C. Detail of postero-ventral part of (B), showing the displaced selvage and the reticulation on the calcified inner lamella. Arrowheads point to setal pores along the selvage; D. Detail of the surface of (A); E. LV, ext; F. RV, int; G. Detail of the surface of (E).	2025-02-13	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong		Zenodo	biologists	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong			
7C543D01CED353C5863828254AEAF9A9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1249886	https://doi.org/10.3897/zse.101.141525.figure1	Figure 1. Distribution of Cavernocypris species in East Asia. Data from Chang et al. (2012), McKenzie (1972), Munakata et al. (2022), Schornikov and Trebukhova (2001), Smith (2011), Smith and Chang (2022), Smith et al. (2015, 2017), Tanaka et al. (2015), as well as the present study.	Figure 1. Distribution of Cavernocypris species in East Asia. Data from Chang et al. (2012), McKenzie (1972), Munakata et al. (2022), Schornikov and Trebukhova (2001), Smith (2011), Smith and Chang (2022), Smith et al. (2015, 2017), Tanaka et al. (2015), as well as the present study.	2025-02-13	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong		Zenodo	biologists	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong			
E697DB0523E25F6181F410ADFB4857C5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1249887	https://doi.org/10.3897/zse.101.141525.figure2	Figure 2. Cavernocypris xiangi sp. nov. A. LV, ext. (WOC 173); B. RV, int. (WOC 173); C. RV, ext. (WOC 172, holotype); D. LV, int. (WOC 172, holotype); E. Cp, right view (WOC 175); F. Cp, dor. (WOC 166). Arrow indicates anterior; G. Cp, ven. (WOC 169). Arrow indicates anterior; H. Detail of antero-ventral margin of (E), showing details of the selvage. Note that the outer margin of LV is hidden beneath the selvage from this aspect; I. Detail of postero-dorsal part of LV of (F), showing decrease in pit size toward the hinge area; J. Detail of the potero-ventral part of (G), showing the outer list.	Figure 2. Cavernocypris xiangi sp. nov. A. LV, ext. (WOC 173); B. RV, int. (WOC 173); C. RV, ext. (WOC 172, holotype); D. LV, int. (WOC 172, holotype); E. Cp, right view (WOC 175); F. Cp, dor. (WOC 166). Arrow indicates anterior; G. Cp, ven. (WOC 169). Arrow indicates anterior; H. Detail of antero-ventral margin of (E), showing details of the selvage. Note that the outer margin of LV is hidden beneath the selvage from this aspect; I. Detail of postero-dorsal part of LV of (F), showing decrease in pit size toward the hinge area; J. Detail of the potero-ventral part of (G), showing the outer list.	2025-02-13	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong		Zenodo	biologists	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong			
E697DB0523E25F6181F410ADFB4857C5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1249888	https://doi.org/10.3897/zse.101.141525.figure3	Figure 3. Comparison of the outlines of LV (flipped) and RV of the same specimen of Cavernocypris xiangi sp. nov. A. RV standardized to a surface area of 5000, LV in size relative to RV; B. Both valves of the same specimen standardized to a surface area of 5000. Blue arrows indicate the outline deviation of LV from RV. See Table 3 for basic parameters of the specimens.	Figure 3. Comparison of the outlines of LV (flipped) and RV of the same specimen of Cavernocypris xiangi sp. nov. A. RV standardized to a surface area of 5000, LV in size relative to RV; B. Both valves of the same specimen standardized to a surface area of 5000. Blue arrows indicate the outline deviation of LV from RV. See Table 3 for basic parameters of the specimens.	2025-02-13	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong		Zenodo	biologists	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong			
E697DB0523E25F6181F410ADFB4857C5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1249889	https://doi.org/10.3897/zse.101.141525.figure4	Figure 4. Comparison of the female and male outlines of Cavernocypris xiangi sp. nov. A. Four female LV and three male LV; B. Mean outlines of the female and male LV; C. Four female RV and three male RV; D. Mean outlines of the female and male RV. Blue and green arrows in (B) and (C) indicate the outline deviation of the female from that of the male. See Table 3 for basic parameters of the specimens.	Figure 4. Comparison of the female and male outlines of Cavernocypris xiangi sp. nov. A. Four female LV and three male LV; B. Mean outlines of the female and male LV; C. Four female RV and three male RV; D. Mean outlines of the female and male RV. Blue and green arrows in (B) and (C) indicate the outline deviation of the female from that of the male. See Table 3 for basic parameters of the specimens.	2025-02-13	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong		Zenodo	biologists	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong			
E697DB0523E25F6181F410ADFB4857C5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1249890	https://doi.org/10.3897/zse.101.141525.figure5	Figure 5. Cavernocypris xiangi sp. nov. A. A 1 (WOC 172, holotype). Arrowhead points to the minute ventral-most seta on the 6 th podomere; B. Male A 2 (WOC 175). Small sclerotized patterns on coxa and basis arrowed. See text for detail; C. Distal part of male A 2 of (B); D. Distal part of female A 2 (WOC 173). Note that G 1 and G 3 intersect at the middle part, so that the tip of G 1 is situated to the ventral side of G 3 (the basal part of G 1 is situated to the dorsal side of G 3); E. Md (WOC 172, holotype), exopod not shown. Arrowhead points to the minute ventral-most seta on penultimate palp podomere; F. Setae α, β, and γ of (E).	Figure 5. Cavernocypris xiangi sp. nov. A. A 1 (WOC 172, holotype). Arrowhead points to the minute ventral-most seta on the 6 th podomere; B. Male A 2 (WOC 175). Small sclerotized patterns on coxa and basis arrowed. See text for detail; C. Distal part of male A 2 of (B); D. Distal part of female A 2 (WOC 173). Note that G 1 and G 3 intersect at the middle part, so that the tip of G 1 is situated to the ventral side of G 3 (the basal part of G 1 is situated to the dorsal side of G 3); E. Md (WOC 172, holotype), exopod not shown. Arrowhead points to the minute ventral-most seta on penultimate palp podomere; F. Setae α, β, and γ of (E).	2025-02-13	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong		Zenodo	biologists	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong			
E697DB0523E25F6181F410ADFB4857C5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1249891	https://doi.org/10.3897/zse.101.141525.figure6	Figure 6. Cavernocypris xiangi sp. nov. A. Part of Mx, showing endopod and tooth-bristles on distal gnathobasic endite (WOC 175). Numerals indicate numbers of setae on the first and second endopodal podomeres; B ‒ D. Male right L 5; B. WOC 165; C. WOC 175, protopod not shown; D. WOC 167, protopod not shown; E ‒ G. Male left L 5; E. WOC 165; F. WOC 172 (holotype), protopod not shown; G. WOC 175, protopod not shown; H. L 6 (WOC 172, holotype); I. L 7 (WOC 172, holotype); J. Distal part of L 7 (WOC 173).	Figure 6. Cavernocypris xiangi sp. nov. A. Part of Mx, showing endopod and tooth-bristles on distal gnathobasic endite (WOC 175). Numerals indicate numbers of setae on the first and second endopodal podomeres; B ‒ D. Male right L 5; B. WOC 165; C. WOC 175, protopod not shown; D. WOC 167, protopod not shown; E ‒ G. Male left L 5; E. WOC 165; F. WOC 172 (holotype), protopod not shown; G. WOC 175, protopod not shown; H. L 6 (WOC 172, holotype); I. L 7 (WOC 172, holotype); J. Distal part of L 7 (WOC 173).	2025-02-13	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong		Zenodo	biologists	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong			
E697DB0523E25F6181F410ADFB4857C5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1249892	https://doi.org/10.3897/zse.101.141525.figure7	Figure 7. Cavernocypris xiangi sp. nov. A. Hp (WOC 175); B. Hp (WOC 172, holotype). Red arrows indicate pathways of sperms in the spermiduct. Black arrowhead indicates a spinous flap in Hp; C. ZO (WOC 172, holotype); D. GL and Ur of female (WOC 173). Arrowheads point to semi-circular tubes at the anterior area of GL.	Figure 7. Cavernocypris xiangi sp. nov. A. Hp (WOC 175); B. Hp (WOC 172, holotype). Red arrows indicate pathways of sperms in the spermiduct. Black arrowhead indicates a spinous flap in Hp; C. ZO (WOC 172, holotype); D. GL and Ur of female (WOC 173). Arrowheads point to semi-circular tubes at the anterior area of GL.	2025-02-13	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong		Zenodo	biologists	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong			
E697DB0523E25F6181F410ADFB4857C5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1249886	https://doi.org/10.3897/zse.101.141525.figure1	Figure 1. Distribution of Cavernocypris species in East Asia. Data from Chang et al. (2012), McKenzie (1972), Munakata et al. (2022), Schornikov and Trebukhova (2001), Smith (2011), Smith and Chang (2022), Smith et al. (2015, 2017), Tanaka et al. (2015), as well as the present study.	Figure 1. Distribution of Cavernocypris species in East Asia. Data from Chang et al. (2012), McKenzie (1972), Munakata et al. (2022), Schornikov and Trebukhova (2001), Smith (2011), Smith and Chang (2022), Smith et al. (2015, 2017), Tanaka et al. (2015), as well as the present study.	2025-02-13	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong		Zenodo	biologists	Zhai, Dayou;Smith, Robin J.;Zhang, Dongdong			
