taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
F4296B5CFFD4C70C65ECFD54FABE00A3.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140073/files/figure.png	https://doi.org/10.5281/zenodo.13140073	Fig. 1. Gonostomum kuehnelti from life (A) and after protargol impregnation (B, C). A. Ventral view of a representative specimen. B. Somatic and oral ciliature of ventral side. C. Dorsal kineties and nuclear apparatus. 1-3, dorsal kineties; III-VI, frontoventral rows; BC, buccal cirrus; CC, caudal cirri; FC, frontal cirri; LMR, left marginal row; MA, macronuclear nodules; RMR, right marginal row; PTC, pre- transverse cirri; TC, transverse cirri. Scale bars=30μm.	Fig. 1. Gonostomum kuehnelti from life (A) and after protargol impregnation (B, C). A. Ventral view of a representative specimen. B. Somatic and oral ciliature of ventral side. C. Dorsal kineties and nuclear apparatus. 1-3, dorsal kineties; III-VI, frontoventral rows; BC, buccal cirrus; CC, caudal cirri; FC, frontal cirri; LMR, left marginal row; MA, macronuclear nodules; RMR, right marginal row; PTC, pre- transverse cirri; TC, transverse cirri. Scale bars=30μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFD7C70F65D2FAD0FC3F0546.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140075/files/figure.png	https://doi.org/10.5281/zenodo.13140075	Fig. 2. Quadristicha setigera from life (A) and after protargol impregnation (B, C). A. Body outline in vivo and the long dorsal bristles (arrowheads). B. Somatic and oral ciliature of ventral side. C. Dorsal kineties. 1-4, dorsal kineties; AZM, adoral zone of membranelles; BC, buccal cirrus; CC, caudal cirri; FC, frontal cirri; LMR, left marginal row; PTC, pretransverse cirri; RMR, right marginal row; TC, trans- verse cirri. Scale bar=20μm.	Fig. 2. Quadristicha setigera from life (A) and after protargol impregnation (B, C). A. Body outline in vivo and the long dorsal bristles (arrowheads). B. Somatic and oral ciliature of ventral side. C. Dorsal kineties. 1-4, dorsal kineties; AZM, adoral zone of membranelles; BC, buccal cirrus; CC, caudal cirri; FC, frontal cirri; LMR, left marginal row; PTC, pretransverse cirri; RMR, right marginal row; TC, trans- verse cirri. Scale bar=20μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFD7C70E663BF953FAA907B6.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140077/files/figure.png	https://doi.org/10.5281/zenodo.13140077	Fig. 3. Lamtostyla decorata from life (A, B) and after protargol impregnation (C-E). A. Typical body shape in vivo. B. Dorsal bristles and cortical granules (arrowheads). C, D. Somatic and oral ciliature of ventral sides. E. Dorsal kineties. 1-3, dorsal kineties; ACR, amphisiellid median cirral row; BC, buccal cirrus; CV, contractile vacuole; DB, dorsal bristles; FC, frontal cirri; FT, frontoterminal cirri; MA, macronucleus; MI, micronucleus; PTC, pretransverse cirri; TC, transverse cirri. Scale bars=30μm.	Fig. 3. Lamtostyla decorata from life (A, B) and after protargol impregnation (C-E). A. Typical body shape in vivo. B. Dorsal bristles and cortical granules (arrowheads). C, D. Somatic and oral ciliature of ventral sides. E. Dorsal kineties. 1-3, dorsal kineties; ACR, amphisiellid median cirral row; BC, buccal cirrus; CV, contractile vacuole; DB, dorsal bristles; FC, frontal cirri; FT, frontoterminal cirri; MA, macronucleus; MI, micronucleus; PTC, pretransverse cirri; TC, transverse cirri. Scale bars=30μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFD6C7096655FAC3FE9006A7.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140079/files/figure.png	https://doi.org/10.5281/zenodo.13140079	Fig. 4. Lamtostyla islandica from life (A) and after protargol impregnation (B, C). A. Body shape in vivo. B. Somatic and oral ciliature of ventral side. C. Dorsal kineties and right marginal cirri. 1-3, dorsal kineties; ACR, amphisiellid median cirral row; AZM, adoral zone of membranelles; BC, buccal cirrus; LMR, left marginal row; MA, macronuclear nodules; RMR, right marginal row; TC, transverse cirri. Scale bars=20μm.	Fig. 4. Lamtostyla islandica from life (A) and after protargol impregnation (B, C). A. Body shape in vivo. B. Somatic and oral ciliature of ventral side. C. Dorsal kineties and right marginal cirri. 1-3, dorsal kineties; ACR, amphisiellid median cirral row; AZM, adoral zone of membranelles; BC, buccal cirrus; LMR, left marginal row; MA, macronuclear nodules; RMR, right marginal row; TC, transverse cirri. Scale bars=20μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFD0C70865ECFADFFC1806FC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140083/files/figure.png	https://doi.org/10.5281/zenodo.13140083	Fig. 6. Anteholosticha brachysticha from life (A, B) and after protargol impregnation (C, D). A. Cortical granulation on ventral side (arrowheads). B. Cortical granulation on dorsal side (arrowheads) and contractile vacuole. C. Somatic and oral ciliature on ventral side with distribution of macronuclear nodules.Arrow marks last midventral cirrus. D. Dorsal kineties. 1-3 dorsal kineties; BC, buccal cirrus; CV, con- tractile vacuole; FC, frontal cirri; FT, frontoterminal cirri; LMR, left marginal row; MA, macronucleus nodule; RMR, right marginal row; TC, transverse cirri. Scale bars=30μm (A, B); 20μm (C).	Fig. 6. Anteholosticha brachysticha from life (A, B) and after protargol impregnation (C, D). A. Cortical granulation on ventral side (arrowheads). B. Cortical granulation on dorsal side (arrowheads) and contractile vacuole. C. Somatic and oral ciliature on ventral side with distribution of macronuclear nodules.Arrow marks last midventral cirrus. D. Dorsal kineties. 1-3 dorsal kineties; BC, buccal cirrus; CV, con- tractile vacuole; FC, frontal cirri; FT, frontoterminal cirri; LMR, left marginal row; MA, macronucleus nodule; RMR, right marginal row; TC, transverse cirri. Scale bars=30μm (A, B); 20μm (C).	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFD0C70A6655F9F9FD2504CD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140087/files/figure.png	https://doi.org/10.5281/zenodo.13140087	Fig. 7. Pseudobirojimia muscorum from life (A, B) and after protargol impregnation (C, D). A. Slender body shape in vivo. B. Cortical granulation on dorsal side. C, D. Ventral ciliatures. BC, buccal cirrus; CV, contractile vacuole; FC, frontal cirri; LMR, left marginal row; MA, macronucleus nodule; RMR1, 2, inner and outer right marginal rows; TC, transverse cirri. Scale bars=50μm.	Fig. 7. Pseudobirojimia muscorum from life (A, B) and after protargol impregnation (C, D). A. Slender body shape in vivo. B. Cortical granulation on dorsal side. C, D. Ventral ciliatures. BC, buccal cirrus; CV, contractile vacuole; FC, frontal cirri; LMR, left marginal row; MA, macronucleus nodule; RMR1, 2, inner and outer right marginal rows; TC, transverse cirri. Scale bars=50μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFD2C7056655F9EFFDA90545.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140089/files/figure.png	https://doi.org/10.5281/zenodo.13140089	Fig. 8. Apocoriplites lajacola from life (A, C) and after protargol impregnation (C, D). A. Arrangement of cortical granules and contractile vacuole. B. Oral region showing the lack of extrusomes. C. Somatic ciliature and nuclear apparatus. D. Dorsal brush rows and somatic ki- neties. B, brush rows; CV, contractile vacuole; MA, macronucleus nodules; MI, micronucleus. Scale bars=30 μm.	Fig. 8. Apocoriplites lajacola from life (A, C) and after protargol impregnation (C, D). A. Arrangement of cortical granules and contractile vacuole. B. Oral region showing the lack of extrusomes. C. Somatic ciliature and nuclear apparatus. D. Dorsal brush rows and somatic ki- neties. B, brush rows; CV, contractile vacuole; MA, macronucleus nodules; MI, micronucleus. Scale bars=30 μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFDDC70565D2F9F2FC390545.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140091/files/figure.png	https://doi.org/10.5281/zenodo.13140091	Fig. 9. Epispathidium amphoriforme after protargol impregnation.A. Right side view to show circumoral kinety and somatic kineties. B, C. Left side views to show dorsal brush rows, ribbon-like macronucleus and spherical inclusions. B, brush rows; CK, circumoral kinety; MA, macronucleus. Scale bars=30 μm.	Fig. 9. Epispathidium amphoriforme after protargol impregnation.A. Right side view to show circumoral kinety and somatic kineties. B, C. Left side views to show dorsal brush rows, ribbon-like macronucleus and spherical inclusions. B, brush rows; CK, circumoral kinety; MA, macronucleus. Scale bars=30 μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFDDC704663BF953FD250442.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140093/files/figure.png	https://doi.org/10.5281/zenodo.13140093	Fig. 10. Protospathidium muscicola from life (A, B) and after protargol impregnation (C-E). A. Typical body shape to show oral and cyto- plasmic extrusomes with one terminal contractile vacuole. B. Cortical granules and apparatus of dorsal brush rows. C, D. Somatic and circumoral kineties with macronuclear nodules. E. Details of dorsal brush rows. B, brush rows; CV; contractile vacuole; E, extrusomes; MA, macronuclear nodule; OF, oral kinetofragment. Scale bars=30μm.	Fig. 10. Protospathidium muscicola from life (A, B) and after protargol impregnation (C-E). A. Typical body shape to show oral and cyto- plasmic extrusomes with one terminal contractile vacuole. B. Cortical granules and apparatus of dorsal brush rows. C, D. Somatic and circumoral kineties with macronuclear nodules. E. Details of dorsal brush rows. B, brush rows; CV; contractile vacuole; E, extrusomes; MA, macronuclear nodule; OF, oral kinetofragment. Scale bars=30μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFDCC70765ECF850FEA0061E.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140095/files/figure.png	https://doi.org/10.5281/zenodo.13140095	Fig. 11. Phialinides australis from life (A, B) and after protargol impregnation (C, D). A. Cortical granulation. B. Oral and cytoplasmic extrusomes. C, D. Details of oral and somatic ciliature and the phialinid ciliary wreath(arrowheads). Scale bars=30μm (A, B); 20μm (C, D).	Fig. 11. Phialinides australis from life (A, B) and after protargol impregnation (C, D). A. Cortical granulation. B. Oral and cytoplasmic extrusomes. C, D. Details of oral and somatic ciliature and the phialinid ciliary wreath(arrowheads). Scale bars=30μm (A, B); 20μm (C, D).	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFDFC70765D2FA34FBFE06A0.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140097/files/figure.png	https://doi.org/10.5281/zenodo.13140097	Fig. 12. Paraenchelys wenzeli from life (A-C) and after protargol impregnation (D-F). A. Typical body shape in vivo. B. Details of cytoplasmic structures including macronucleus, extrusomes and contractile vacuoles. C. Peculiar large, teardrop shape extrusomes. D. Macronucleus with micronucleus and weakly impregnated large extrusomes. E. Somatic and oral ciliature (arrow indicates micronucleus). F. Details of fragmented dorsal brush rows. B, brush rows; E, extrusomes; MA, macrnucleus; MI, micronucleus. Scale bars=30 μm(A, B, D, E); 10 μm(C).	Fig. 12. Paraenchelys wenzeli from life (A-C) and after protargol impregnation (D-F). A. Typical body shape in vivo. B. Details of cytoplasmic structures including macronucleus, extrusomes and contractile vacuoles. C. Peculiar large, teardrop shape extrusomes. D. Macronucleus with micronucleus and weakly impregnated large extrusomes. E. Somatic and oral ciliature (arrow indicates micronucleus). F. Details of fragmented dorsal brush rows. B, brush rows; E, extrusomes; MA, macrnucleus; MI, micronucleus. Scale bars=30 μm(A, B, D, E); 10 μm(C).	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFDFC706663BF9B5FC5B06B5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140099/files/figure.png	https://doi.org/10.5281/zenodo.13140099	Fig. 13. Rimaleptus similis from life (A, B, E) and after protargol impregnation (C, D). A. Typical body shape in vivo. B. Distribution of contractile vacuoles. C. Somatic and oral ciliature. D. Details of oral ciliature. E. Single spherical micronucleus between two macronuclear nodules and two kinds of oral extrusomes. CK, circumoral kinety; CV, contractile vacuoles; MA, macronuclear nodule; MI, micronucleus; PR, preoral kinety. Scale bars=100 μm (A); 50 μm (C, E).	Fig. 13. Rimaleptus similis from life (A, B, E) and after protargol impregnation (C, D). A. Typical body shape in vivo. B. Distribution of contractile vacuoles. C. Somatic and oral ciliature. D. Details of oral ciliature. E. Single spherical micronucleus between two macronuclear nodules and two kinds of oral extrusomes. CK, circumoral kinety; CV, contractile vacuoles; MA, macronuclear nodule; MI, micronucleus; PR, preoral kinety. Scale bars=100 μm (A); 50 μm (C, E).	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFDEC7016655F963FBE905C9.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140103/files/figure.png	https://doi.org/10.5281/zenodo.13140103	Fig. 14. Drepanomonas revoluta from life (A-C) and after protargol impregnation (D). A. Body outline in vivo. B. Note the deep wide furrow on the left side. C. Left side in vivo. D. Somatic and oral ciliature on right side. CV, contractile vacuole; CY, cytopyge; F, furrow; K1- 9, somatic kineties; MA, macronucleus; MI, micronucleus; PC, postoral complex; PO, preoral kineties. Scale bars=10μm.	Fig. 14. Drepanomonas revoluta from life (A-C) and after protargol impregnation (D). A. Body outline in vivo. B. Note the deep wide furrow on the left side. C. Left side in vivo. D. Somatic and oral ciliature on right side. CV, contractile vacuole; CY, cytopyge; F, furrow; K1- 9, somatic kineties; MA, macronucleus; MI, micronucleus; PC, postoral complex; PO, preoral kineties. Scale bars=10μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFD9C700663BF88FFC5B0413.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140105/files/figure.png	https://doi.org/10.5281/zenodo.13140105	Fig. 15. Bryometopus triquetrus after protargol impregnation. A. Somatic ciliature and contractile vacuole pore (arrow). B. Triangular oral cavity. C. Single macronucleus. LF, left oral ciliary field; MA, macronucleus; RF, right oral ciliary field. Scale bars=20 μm.	Fig. 15. Bryometopus triquetrus after protargol impregnation. A. Somatic ciliature and contractile vacuole pore (arrow). B. Triangular oral cavity. C. Single macronucleus. LF, left oral ciliary field; MA, macronucleus; RF, right oral ciliary field. Scale bars=20 μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFDAC70265ECFB81FEB104FB.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140107/files/figure.png	https://doi.org/10.5281/zenodo.13140107	Fig. 16. Cyclidium glaucoma from life (A) and after protargol impregnation (B, C). A. Body shape in vivo. B. Details of oral ciliatures. C. Somatic ciliature on dorsal side. M1-3, membranelles; MA, macronucleus; PM, paroral membrane; SC, scutica. Scale bars=10 μm.	Fig. 16. Cyclidium glaucoma from life (A) and after protargol impregnation (B, C). A. Body shape in vivo. B. Details of oral ciliatures. C. Somatic ciliature on dorsal side. M1-3, membranelles; MA, macronucleus; PM, paroral membrane; SC, scutica. Scale bars=10 μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFDAC7026655FBA1FC0B04FC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140109/files/figure.png	https://doi.org/10.5281/zenodo.13140109	Fig. 17. Epistylis pygmaeum from life (A-C) and after protargol impregnation (D, E). A. Epibiotic habitat of E. pygmaeum. B. Body shape and contractile vacuole in vivo. C. Dichotomously branched stalk. D. Infundibular polykinety 1-3. E. Macronucleus and silverline systems. Scale bars=200 μm (A); 50μm (B); 20 μm (D); 10 μm(E).	Fig. 17. Epistylis pygmaeum from life (A-C) and after protargol impregnation (D, E). A. Epibiotic habitat of E. pygmaeum. B. Body shape and contractile vacuole in vivo. C. Dichotomously branched stalk. D. Infundibular polykinety 1-3. E. Macronucleus and silverline systems. Scale bars=200 μm (A); 50μm (B); 20 μm (D); 10 μm(E).	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
F4296B5CFFC5C71D65D2FEBAFEA00606.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/13140113/files/figure.png	https://doi.org/10.5281/zenodo.13140113	Fig. 18. Pseudovorticella vestita from life (A), after protargol impregnation (B, C). A. Body shape in vivo to show pellicular vesicles. B. Two kinds of macronuclear pattern (globular type and longitudinal J-shaped type). C. Infundibular polykineties 1-3. MA, macronuclear nodules; P1-3, infundibular polykineties. Scale bar=30 μm.	Fig. 18. Pseudovorticella vestita from life (A), after protargol impregnation (B, C). A. Body shape in vivo to show pellicular vesicles. B. Two kinds of macronuclear pattern (globular type and longitudinal J-shaped type). C. Infundibular polykineties 1-3. MA, macronuclear nodules; P1-3, infundibular polykineties. Scale bar=30 μm.	2020-12-31	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho		Zenodo	biologists	Kim, Ji Hye;Jung, Atef Omar and Jae-Ho			
