identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
005B5BE1EEEE434C4661642B7389B175.text	005B5BE1EEEE434C4661642B7389B175.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Abeskunus brusinianus (Clessin & W. Dybowski in W. Dybowski 1887)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Abeskunus brusinianus (Clessin &amp; W. Dybowski in W. Dybowski, 1887) Fig. 16A-I </p>
            <p> Abeskunus brusinianus *1887  Zagrabica Brusiniana nob.; W. Dybowski: 52-53. </p>
            <p> Abeskunus brusinianus 1888  Zagrabica Brusiniana n. sp. - W. Dybowski: 79, pl. 2, fig. 7. </p>
            <p> Abeskunus brusinianus 1952  Zagrabica brusiniana W. Dyb., 1888. - Zhadin: 235, fig. 166 [partim]. </p>
            <p> Abeskunus brusinianus 1969  Pseudamnicola [(  Abeskunus )]  Abeskunus brusiniana (Cless. et W. Dyb.). - Logvinenko &amp; Starobogatov: 381, fig. 367 (15). </p>
            <p> Abeskunus brusinianus 2006  Pseudamnicola brusiniana (Clessin et W. Dybowski in W. Dybowski, 1888). - Kantor &amp; Sysoev: 114, pl. 51, fig. J. </p>
            <p> Abeskunus brusinianus 2016  Pseudamnicola brusiniana (Clessin et W. Dybowski in W. Dybowski, 1888). - Vinarski &amp; Kantor: 222. </p>
            <p>Material.</p>
            <p> 489 specimens (RGM 1309834, RGM 1309842, RGM 1310194, LV 201505) . </p>
            <p>Type material.</p>
            <p>Not traced.</p>
            <p>Type locality.</p>
            <p> “Kaspi-See” (Caspian Sea, no further details mentioned). </p>
            <p>Dimensions.</p>
            <p> 4.12  × 3.82 mm (RGM 1309834, Fig. 16A, F); 4.15  × 3.65 mm (LV 201505, Fig. 16B, C, I); 3.00  × 2.74 mm (RGM 1309842, Fig. 16D, E, G, H); 4.14  × 3.42 mm; 4.15  × 3.53 mm; 4.34  × 3.79 mm; 4.39  × 3.87 mm; 4.59  × 3.68 mm. </p>
            <p>Description.</p>
            <p> Shell broadly conical, comprising up to 4.5 whorls. Protoconch broadly domical, with almost immersed initial part; consists of 1.25 whorls, measures 525  µm in diameter; nucleus is ca. 160  µm wide; nucleus surface covered with irregular elongated wrinkles; protoconch surface wrinkled, bearing thin, irregular spiral grooves on first third, passing over irregular pattern of faint spiral grooves and wrinkles into numerous, regularly parallel spiral furrows on last third; P/T transition without growth rim, marked by onset of growth lines. Teleoconch whorls highly convex, with maximum convexity in adapical half, producing slightly stepped spire. Last whorl attains 77-85% of shell height. Aperture drop-shaped, slightly inclined, with marked adapical notch at contact to penultimate whorl. Outer peristome margin not or slightly thickened, columellar and parietal margins weakly thickened; peristome slightly expanded towards columella (protruding towards umbilicus in lateral view) and strongly towards base; weakly sinuate in lateral view, with broad but weak adapical protrusion and straight-sided abapical part. Umbilicus narrow, slit-like. Prosocline growth lines cover shell surface. </p>
            <p>Discussion.</p>
            <p> The species differs from the type species  A. exiguus (Eichwald, 1838) in the conical shell, the taller spire, the less inflated last whorl, and the distinct umbilicus.  Abeskunus brusinianus michelae Tadjalli-Pour, 1977 is much more globular than  A. brusinianus . The latter species strongly reminds of and might be conspecific with  A. exiguus .  Pseudamnicola depressispira Logvinenko &amp; Starobogatov, 1969, which these authors also included in the  subgenus Abeskunus , differs from the presumed congeners in the valvatoid shape with very wide umbilicus and small but distinct riblets. </p>
            <p> Pseudamnicola? brusiniana Pavlović , 1903 is a junior secondary homonym of this species, for which Neubauer et al. (2015b) introduced  Pseudamnicola? babindolensis as replacement name. Because of the revised classification,  P.? brusinianus [sic]  Pavlović is reinstated as valid, with  P.? babindolensis as its junior objective synonym (ICZN 1999, Art. 59.4). </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea, in the southern and middle part at a depth of&gt; 250 m (Logvinenko and Starobogatov 1969, Parr et al. 2007).</p>
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	https://treatment.plazi.org/id/005B5BE1EEEE434C4661642B7389B175	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
B0288FEEFA91C952788188389E47B89A.text	B0288FEEFA91C952788188389E47B89A.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Abeskunus Kolesnikov in Logvinenko & Starobogatov 1969	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Genus  Abeskunus Kolesnikov in Logvinenko &amp; Starobogatov, 1969</p>
            <p>Type species.</p>
            <p> Paludina exigua Eichwald, 1838; by original designation. Caspian Sea, Pleistocene. </p>
            <p>Discussion.</p>
            <p> The genus  Abeskunus and the species that have been attributed to it have caused considerable confusion. A detailed discussion of the taxonomic and nomenclatural problems associated with  Abeskunus , considerations on its systematic placement, as well as a description of the type species will be provided in a forthcoming study. Preliminary work confirms classification of the species described below in  Abeskunus . </p>
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	https://treatment.plazi.org/id/B0288FEEFA91C952788188389E47B89A	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
32E0D9446A0DE492CCB903C95D84E29D.text	32E0D9446A0DE492CCB903C95D84E29D.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Andrusovia Brusina in Westerlund 1902	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Genus  Andrusovia Brusina in Westerlund, 1902a</p>
            <p>Type species.</p>
            <p> Andrusovia dybowskii Brusina in Westerlund, 1902a; by original designation. Caspian Sea, Recent. </p>
            <p>Discussion.</p>
            <p> The subfamily placement of the genus follows Vinarski and Kantor (2016: 214) and is based on the resemblance with species of the genus  Horatia Bourguignat, 1887 (see also discussion in Starobogatov 2000). A recent molecular phylogeny including the  Hydrobiidae suggests the  Horatiinae to be distinct from the  Belgrandiinae (Wilke et al. 2013; see also Bank 2017). We follow Starobogatov (2000) and regard  Caspiohoratia Logvinenko &amp; Starobogatov, 1969 as a junior synonym of  Andrusovia . </p>
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	https://treatment.plazi.org/id/32E0D9446A0DE492CCB903C95D84E29D	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
63D1418E5B179DB7B01C4267E7FE108F.text	63D1418E5B179DB7B01C4267E7FE108F.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Andrusovia brusinai Starobogatov 2000	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Andrusovia brusinai Starobogatov, 2000 Fig. 6F-K, M-N </p>
            <p> Andrusovia brusinai *2000  Andrusovia brusinai Starobogatov, sp. nov.; Starobogatov: 41, fig. 1C. </p>
            <p> Andrusovia brusinai 2006  Andrusovia brusinai Starobogatov, 2000. - Kantor &amp; Sysoev: 83, pl. 40, fig. C. </p>
            <p> Andrusovia brusinai 2016  Andrusovia brusinai Starobogatov, 2000. - Vinarski &amp; Kantor: 214. </p>
            <p>Material.</p>
            <p> 39 specimens (RGM 1309839, RGM 1309840, RGM 1310206, LV 201509) . </p>
            <p>Type material.</p>
            <p> Holotype: ZIN (no number).</p>
            <p>Type locality.</p>
            <p>Eastern part of the middle Caspian Sea (42°42.5'N, 51°32.5'E, WGS 84), at 80 m.</p>
            <p>Dimensions.</p>
            <p> 1.52  × 1.44 mm (RGM 1309840, Fig. 6F, G); 1.54  × 1.55 mm (LV 201509, Fig. 6H, K, N); 1.81  × 1.80 mm (RGM 1309839, Fig. 6I, J, M); 1.71  × 1.52 mm; 1.67  × 1.69 mm; 1.83  × 1.55 mm; 1.64  × 1.51 mm. </p>
            <p>Description.</p>
            <p> Shell broad trochiform, about as high as wide, with up to 4 whorls. Rarely specimens with slightly elevated spire occur. Protoconch high domical, about semicircular in profile; initial part immersed; consists of 1.1 whorls, measures 300  µm in diameter; nucleus about 90  µm wide; protoconch surface finely but strongly malleate near lower suture, rest appears to be irregularly granulate, but that might be due to poor preservation; P/T boundary sharp, marked by massive growth constrictions near lower suture. Teleoconch whorls highly convex, with maximum convexity in adapical half, producing slightly stepped spire. Last whorl attains 74-81% of shell height. Aperture broadly drop-shaped, slightly inclined, with faint adapical notch at contact to penultimate whorl. Peristome slightly thickened and expanded at columella and base; sinuate in lateral view, with weakly protruding central part and weak adapical indentation. Umbilicus wide, deep. Fine prosocline growth lines cover shell. On one specimen, traces of spiral threads occur on base. </p>
            <p>Discussion.</p>
            <p> The Caspian congeners  Andrusovia dybowskii Brusina in Westerlund, 1902a (sensu Starobogatov 2000) and  A. andrusovi Starobogatov, 2000 differ from the present species in their much lower spires.  Andrusovia marina (Logvinenko &amp; Starobogatov, 1969) is smaller and has a shorter spire. Starobogatov (2000) based the distinction from  A. brusinai on minor differences in shell ratios but these are strongly affected by the varying number of whorls and shell size; it might well be that  A. marina and  A. brusinai are just different growth stages of the same species. Since we have not seen the type material of Logvinenko and Starobogatov (1969), we tentatively accept the distinction of both taxa by Starobogatov (2000). Further comparison with the Logvinenko and Starobogatov material is essential to assess whether the two names refer indeed to distinct species. </p>
            <p> Andrusovia brusinai resembles several recent species of  Horatia Bourguignat, 1887,  Hauffenia Pollonera, 1898 and  Islamia Radoman, 1973 in terms of shell shape and protoconch surface. These differ from the present species in the either straight-sided (  Hauffenia ,  Islamia ; Arconada and Ramos 2006,  Erőss and Petro 2008) or abapically (instead of adapically) sinuated peristome (  Horatia ; Szarowska 2006, Szarowska and Falniowski 2014). Shells of several species of  Pontohoratia Vinarski, Palatov &amp;  Glöer , 2015 and  Motsametia Vinarski, Palatov &amp;  Glöer , 2015 resemble  Andrusovia species in terms of size and shape. They all differ in the more regularly shaped protoconchs, which show large nuclei and lack the massive growth constrictions. </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea, reported from middle and south Caspian Sea at depths between 47 and 311 m (Starobogatov 2000).</p>
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	https://treatment.plazi.org/id/63D1418E5B179DB7B01C4267E7FE108F	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
F714FBB4DC76B6D2E9FD62B3E82BB73F.text	F714FBB4DC76B6D2E9FD62B3E82BB73F.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Clessiniola Lindholm 1924	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Genus  Clessiniola Lindholm, 1924</p>
            <p> Clessiniola 1887  Clessinia W. Dybowski: 41 [non Doering, 1875]. </p>
            <p> Clessiniola 1924  Clessiniola Lindholm: 32-33, 34. </p>
            <p> Clessiniola 1928  Clessinola Strand: 68 [junior objective synonym of  Clessiniola ]. </p>
            <p>Type species.</p>
            <p> Paludina variabilis Eichwald, 1838; by typification of replaced name (  Clessinia W. Dybowski, 1887). Volga delta and Caspian Sea, Quaternary to Recent. </p>
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	https://treatment.plazi.org/id/F714FBB4DC76B6D2E9FD62B3E82BB73F	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
4534DCBB4B9BAE13A92C603ECC270864.text	4534DCBB4B9BAE13A92C603ECC270864.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Clessiniola variabilis (Eichwald 1838)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Clessiniola variabilis (Eichwald, 1838) Fig. 7A-I </p>
            <p> Clessiniola variabilis *1838  Paludina variabilis m.; Eichwald: 151-152. </p>
            <p> Clessiniola variabilis 1841  Paludina variabilis m. - Eichwald: 253-254, pl. 38, figs 6-7. </p>
            <p> Clessiniola variabilis 1853 Pal. [udina] variabilis m. - Eichwald: 285. </p>
            <p> Clessiniola variabilis 1887  Clessinia variabilis Eichw. sp. - W. Dybowski: 41-42. </p>
            <p> Clessiniola variabilis 1888 [  Clessinia ]  Clessinia variabilis Eichw. sp. - W. Dybowski: 79, pl. 2, fig. 6. </p>
            <p> Clessiniola variabilis 1952  Clessiniola variabilis (Eichwald, 1841). - Zhadin: 255, fig. 199. </p>
            <p> Clessiniola variabilis 1966 P. [yrgula] (Clessiniola) variabilis. - Golikov &amp; Starobogatov: 356, fig. 2 (2). </p>
            <p> Clessiniola variabilis 1969  Pyrgula [(  Clessiniola )]  Clessiniola variabilis (Eichw.) - Logvinenko &amp; Starobogatov: 377, fig. 367 (1). </p>
            <p> Clessiniola variabilis 1987 T. [urricaspia] variabilis (Eichw.). - Alexenko &amp; Starobogatov: 34, fig. 5. </p>
            <p> Clessiniola variabilis 2006  Turricaspia variabilis (Eichwald, 1838). - Kantor &amp; Sysoev: 111, pl. 49, fig. J. </p>
            <p> Clessiniola variabilis 2011  Turricaspia variabilis (Eichwald, 1838). - Anistratenko et al.: 85, fig. 3 (15). </p>
            <p> Clessiniola variabilis 2014  Turricaspia variabilis . - Taviani et al.: 4, fig. 3b. </p>
            <p> Clessiniola variabilis 2016  Turricaspia variabilis (Eichwald, 1838). - Vinarski &amp; Kantor: 251. </p>
            <p>Material.</p>
            <p> 4867 specimens (RGM 1309815, RGM 1309826, RGM 1309827, RGM 1309831, RGM 1310243 -1310247, LV 201507) . </p>
            <p>Type material.</p>
            <p>Not traced.</p>
            <p>Type locality.</p>
            <p>"In Volgae ostio prope Astrachanum, et versus mare Caspium; etiam fossili in calcatio lapide conglutinato recentissimo Dagesthanici littoris" (at the Volga river mouth near Astrakhan, and towards the Caspian Sea; also in recently lithified fossil limestone at the shores of Dagestan).</p>
            <p>Dimensions.</p>
            <p> 5.91  × 3.31 mm (LV 201507, Fig. 7A-C); 6.31  × 3.59 mm (RGM 1310246, Fig. 7D); 4.60  × 2.35 mm (RGM 1310245, Fig. 7E); 6.08  × 3.18 mm (RGM 1310243, Fig. 7F-H); 6.85  × 3.89 mm (RGM 1310244). </p>
            <p>Description.</p>
            <p> Broadly drop-shaped to rarely conical shell of up to six whorls. Protoconch insufficiently preserved to specify extent and surface sculpture; P/T transition indistinct; first whorl measures ca. 340  µm in diameter. Teleoconch whorls moderately and regularly convex; sometimes, spire is very faintly stepped; suture narrow. In many specimens, shells starts to grow stronger in abapical direction in course of last (two) whorl(s), producing non-parallel suture and relatively higher penultimate whorl. Rarely, forms with comparatively slender shape and regularly increasing whorls (and thus relatively smaller last and penultimate whorls) occur. Both types are linked via intermediates. Aperture regularly ovoid, inclined; inner lip glossy, weakly to sometimes more prominently thickened; strongly adnate, sheet-like expanded over base of penultimate whorl and columella, rarely leaving very narrow umbilicus; broad, shallow spout occurs at transition between columella and base; outer lip mainly thin, sometimes weakly thickened at anterior notch. Growth lines very faint, with prosocline upper third and near orthocline lower two-thirds. </p>
            <p>Discussion.</p>
            <p>This species displays a large morphological variability within our ample material. Shell shape ranges between slender conical to broadly ovoid, sometimes with weakly irregular growth. Likewise, shell size, whorl convexity, and number of whorls vary considerably. Yet, these features intergrade without clear boundary, rendering a distinction of species unreasonable.</p>
            <p> The morphological variability is not restricted to our material but a general feature of  Clessiniola . It was documented by several previous authors, partly for specimens from the same localities (e.g., Eichwald 1838, Issel 1865, W. Dybowski 1887-1888, Golikov and Starobogatov 1966, Logvinenko and Starobogatov 1969, Alexenko and Starobogatov 1987, Anistratenko et al. 2011). The species concepts applied by the different authors, however, varied greatly. The present material includes shells that have been variably attributed to the species  C. variabilis (Eichwald, 1838),  C. triton (Eichwald, 1838) and  C. martensii (Clessin &amp; W. Dybowski in W. Dybowski, 1887). The  Clessiniola triton -morphotype sensu Eichwald characterizes broad specimens with slightly detached aperture (see also Kantor and Sysoev 2006); these forms are rarely represented in our material. Eichwald (1838, 1841) himself confirmed the rarity of the form, also stating that he did not find a living representative (in contrast to  C. variabilis ). The  Clessiniola martensii -morphotype was introduced for similarly broad morphologies. (Note that Clessin and W. Dybowski used a different concept of  C. triton , there having a rather elongate conical shell.) </p>
            <p> Because of the fluent morphological transition between forms traditionally referred to as  C. variabilis ,  C. triton and  C. martensii , as well as their joint occurrence in several localities in the Pontocaspian region, one might consider all of them synonymous. Personal observations on Holocene material from Dagestan area, however, indicate indeed distinguishable morphotypes without intermediates. Moreover, frequent shell repair found in most of the Selitrennoye specimens additionally complicates an unbiased view on morphological diversity. A more in-depth investigation comparing undamaged material from different sites is thus required. </p>
            <p> Given the large variability, the Caspian species  Clessiniola ovum (Logvinenko &amp; Starobogatov, 1969) and  C. trivialis (Logvinenko &amp; Starobogatov, 1969), as well as  C. pseudotriton (Golikov &amp; Starobogatov, 1966) from the Dniester River mouth (compare Kantor and Sysoev 2006), might too be considered as synonyms of  C. variabilis . However, the original descriptions and drawings provided impede clarification of their statuses. </p>
            <p> Clessinia ahngeri Westerlund, 1902 is often listed as junior synonym of  C. variabilis , but without discussion (e.g., Logvinenko and Starobogatov 1969, Vinarski and Kantor 2016). The original description of  C. ahngeri suggests close similarities indeed between both species claiming, however, that it differs from other congeners in the much larger spire (11  × 5 mm) and the slightly sinuate outer lip. Examination of  Westerlund’s (1902b) material is required to ascertain the alleged synonymy. </p>
            <p> The record of "  Paludina Eichwaldi Kryn." Eichwald (1841) listed in synonymy of  C. variabilis refers to a nomen nudum mentioned in a species list by Krynicki (1837). </p>
            <p>Distribution.</p>
            <p>Endemic to the Pontocaspian region. Found in the Caspian Sea and the lower courses of rivers and freshwater parts of the Azov and Black seas (Anistratenko et al. 2011, Vinarski and Kantor 2016). Also reported from Neoeuxinian (late Pleistocene) deposits of the Marmara Sea (Taviani et al. 2014).</p>
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	https://treatment.plazi.org/id/4534DCBB4B9BAE13A92C603ECC270864	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
C285E0B1B81ED3072F9288761125724C.text	C285E0B1B81ED3072F9288761125724C.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Ecrobia grimmi (Clessin in W. Dybowski 1887)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Ecrobia cf. grimmi (Clessin in W. Dybowski, 1887) Fig. 6A-E, L </p>
            <p> Ecrobia grimmi cf. * 1887  Hydrobia Grimmi Cless.; W. Dybowski: 55-56. </p>
            <p> Ecrobia grimmi cf. 1888 [  Hydrobia ]  Grimmi Clessin. - W. Dybowski: 79, pl. 3, fig. 2. </p>
            <p> Ecrobia grimmi cf. 1952  Hydrobia grimmi (Clessin) W. Dyb., 1888. - Zhadin: 225, fig. 147. </p>
            <p> Ecrobia grimmi cf. 1969  Pyrgohydrobia grimmi (Cless. et W. Dyb.) - Logvinenko &amp; Starobogatov: 249, fig. 358 (11). </p>
            <p> Ecrobia grimmi cf. 2006  Caspiohydrobia grimmi (Clessin in W. Dybowski, 1888). - Kantor &amp; Sysoev, 91-92, pl. 43, fig. E. </p>
            <p> Ecrobia grimmi cf. 2009  Caspiohydrobia grimmi (Clessin et Dybowski, 1888). - Filippov &amp; Riedel: 70-72, 74-76, figs 4a-d. </p>
            <p> Ecrobia grimmi cf. 2016  Caspiohydrobia grimmi (Clessin et W. Dybowski in W. Dybowski, 1888). - Vinarski &amp; Kantor: 229. </p>
            <p>Material.</p>
            <p> 345 specimens (RGM 1309845, RGM 1309847, RGM 1310207, LV 201508) . </p>
            <p>Type material.</p>
            <p>Not traced.</p>
            <p>Type locality.</p>
            <p> “Kaspi-See” (Caspian Sea, no further details mentioned). </p>
            <p>Dimensions.</p>
            <p> 2.56  × 1.45 mm (LV 201508, Fig. 6A, B, L); 2.83  × 1.54 mm (RGM 1309845, Fig. 6C, D); 2.19  × 1.30 mm (RGM 1309847, Fig. 6E); 3.88  × 2.26 mm; 3.48  × 1.97 mm; 3.77  × 1.99 m; 3.50  × 1.89 mm; 3.26  × 1.79 mm; 3.33  × 1.66 mm. </p>
            <p>Description.</p>
            <p>Shell shape highly variable, ranging from broad ovoid to slender conical, comprising up to 6.5 whorls. Protoconch consisting of about one whorl, with nucleus immersed; initial part slightly raised, producing acute apex; surface weakly granular to malleate; P/T transition clear. Protoconch and teleoconch whorls highly convex, sometimes slightly flattened centrally in later whorls; suture deep. Size of last whorl varies between 55-62%, descends into straight-sided base. Aperture regularly ovoid, slightly inclined, touching base of penultimate whorl, leaving wide umbilicus. Peristome simple, sometimes weakly expanded. Surface smooth expect for very fine prosocline growth lines.</p>
            <p>Discussion.</p>
            <p> The shells of  Ecrobia can only be reliably identified on the species-level using molecular data (Haase et al. 2010). Therefore, we tentatively assign the detected specimens to  Ecrobia grimmi , which is the only  Ecrobia species occurring in the Caspian Sea today (Haase et al. 2010). </p>
            <p> Most of the species presently assigned to  Caspiohydrobia Starobogatov, 1970, including its type species,  Pyrgohydrobia eichwaldiana Golikov &amp; Starobogatov, 1966, range within the morphological variability of this species. Previous examination of both reproductive systems (Sitnikova et al. 1992) and juvenile shells (Filippov and Riedel 2009) did not yield criteria supporting interspecific differentiation. Very likely all of the thirty  Caspiohydrobia species listed by Kantor and Sysoev (2006) are morphotypes of a single species, probably  E. grimmi . Given the problems of using shell morphology to identify  Ecrobia , taxonomic conclusions on the synonymy of the  Caspiohydrobia species require molecular data. </p>
            <p>Note on species authority.</p>
            <p> W. Dybowski (1887: 7) noted that all diagnoses were drafted by Clessin and himself and most new species were therefore marked with  “nob.” (Lat. nobis,  “us” ). However, W. Dybowski obviously made exceptions. In case of the new genus  Clessinia , he marked the authority with  “m.” (Lat. meus,  “mine” ). For  Hydrobia grimmi , the authority is clearly indicated with  “Cless.” , making Clessin the sole author of the species (unlike indicated by several authors). </p>
            <p>Distribution.</p>
            <p>Caspian Sea; Lake Sawa, Iraq (Haase et al. 2010); salt lakes near Chelyabinsk, Russia (Shishkoedova 2010). Subfossil records derive from Holocene deposits of the Aral Sea (Filippov and Riedel 2009).</p>
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	https://treatment.plazi.org/id/C285E0B1B81ED3072F9288761125724C	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
82481D2EE4179EF4D5E181D6E3CB43E2.text	82481D2EE4179EF4D5E181D6E3CB43E2.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Ecrobia Stimpson 1865	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Genus  Ecrobia Stimpson, 1865</p>
            <p>Type species.</p>
            <p> Turbo minutus Totten, 1834; by original description. United States, Recent. </p>
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	https://treatment.plazi.org/id/82481D2EE4179EF4D5E181D6E3CB43E2	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
7AFC7930ABE592BA469B558D44CA83D8.text	7AFC7930ABE592BA469B558D44CA83D8.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Pyrgulinae W. Hartmann 1821	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Subfamily  Pyrgulinae Brusina, 1882</p>
            <p> Pyrgulinae 1882  Pyrgulinae Brusina: 230. </p>
            <p> Pyrgulinae 1914  Micromelaniidae B. Dybowski &amp; Grochmalicki: 276. </p>
            <p> Pyrgulinae 1915  Turricaspiinae B. Dybowski &amp; Grochmalicki: 103. </p>
            <p> Pyrgulinae 2017  Pyrgulinae Brusina, 1882. - Bouchet et al.: 212, 346 [cum syn.]. </p>
            <p>Discussion.</p>
            <p> The Caspian  Pyrgulinae (sensu lato) encompasses 64 species that are considered accepted in the current literature (Vinarski and Kantor 2016). However, most of them are poorly known, documented by insufficient descriptions and drawings; for many, the type material has not been found (Kantor and Sysoev 2006, Vinarski and Kantor 2016). The extreme morphological variability of several representatives, such as those detected in the material from Selitrennoye, led previous authors to introduce numerous species based on shells with only minor deviations in shape, size or whorl outline. The Caspian  Pyrgulinae therefore requires careful revision using molecular and anatomical data as far as available. </p>
            <p> In addition to the problems associated with distinguishing species, genus-level classification is poorly resolved as well. Several attempts have been made to categorize this vast variability, and genus concepts have changed tremendously (e.g., B. Dybowski and Grochmalicki 1915, 1917, Zhadin 1952, Logvinenko and Starobogatov 1969, Kantor and Sysoev 2006, Vinarski and Kantor 2016). Twelve genus names have been described for members of the Caspian  Pyrgulinae , based on quite different concepts of traits considered diagnostic. Currently, all species are classified within  Caspia Clessin &amp; W. Dybowski, 1887,  Pyrgula De Cristofori &amp; Jan, 1832 and  Turricaspia B. Dybowski &amp; Grochmalicki, 1915 (Kantor and Sysoev 2006, Vinarski and Kantor 2016). This scheme unites quite a variety of different morphologies under the same genus names, while at the same time similar species are assigned to different genera (e.g., Kantor and Sysoev 2006). Unfortunately, hardly any previous study provided explanations for their genus classifications or systematic concepts in general. </p>
            <p> A thorough revision of all Caspian  Pyrgulinae is beyond the scope of this study, but we discuss and revise the concepts that have been applied to the species studied herein. </p>
            <p> Vinarski and Kantor (2016) listed 38 species of the genus  Pyrgula for the Caspian Sea. The type species of  Pyrgula De Cristofori &amp; Jan, 1832,  P. annulata (Linnaeus, 1758), lives in freshwater lakes and springs in Italy and Dalmatia (Welter-Schultes 2012). Shell morphology, anatomy and protoconch characteristics are very similar to Pontocaspian  Pyrgulinae , e.g., some species of  Turricaspia (compare also discussion in Riedel et al. 2001). However, molecular evidence suggests that  Pyrgula annulata is only distantly related to the Pontocaspian species flock within the  Pyrgulinae , with the last common ancestor dating back to the late Miocene (Wilke et al. 2007). Therefore, Pontocaspian species should not be attributed to  Pyrgula , despite apparent morphological congruence, especially of some of the keeled Pontocaspian  Pyrgulinae . A separation on subfamily level as proposed by B. Dybowski and Grochmalicki (1915) is opposed by the latest phylogeny of rissooidean gastropods, which suggests a rather close relationship (Wilke et al. 2013). </p>
            <p> Turricaspia B. Dybowski &amp; Grochmalicki, 1915 (type species:  Micromelania turricula B. Dybowski &amp; Grochmalicki, 1915) was introduced for species with turriform, elongate shells with numerous whorls. Presently, the genus includes 22 Caspian species, encompassing elongate and broad, conical and ovoid, and sculptured and smooth species (Kantor and Sysoev 2006, Vinarski and Kantor 2016). Many species assigned to  Pyrgula by Kantor and Sysoev (2006) and Vinarski and Kantor (2016) actually resemble  Turricaspia turricula with respect to the turriform, conical shell. This similarity also regards the type species of the genera  Caspiopyrgula Logvinenko &amp; Starobogatov, 1969 (type species:  Turricaspia nossovi Kolesnikov, 1947),  Eurycaspia Logvinenko &amp; Starobogatov, 1969 (  Micromelania pseudodimidiata B. Dybowski &amp; Grochmalicki, 1917),  Oxypyrgula Logvinenko &amp; Starobogatov, 1969 (  Pyrgula pseudospica Logvinenko &amp; Starobogatov, 1969), and  Trachycaspia B. Dybowski &amp; Grochmalicki, 1917 (  Rissoa dimidiata Eichwald, 1838). After examination of descriptions and illustrations of the type species (e.g., Kantor and Sysoev 2006), we conclude that these genera should be considered as junior synonyms of  Turricaspia . </p>
            <p> Some of the species classified as  Turricaspia by Kantor and Sysoev (2006) and Vinarski and Kantor (2016) differ considerably from  Turricaspia s.s. in shell shape. This contains the type species of the genera  Caspiella Thiele, 1928 (  Rissoa conus Eichwald, 1838),  Clessiniola Lindholm, 1924 (  Paludina variabilis Eichwald, 1838), and  Laevicaspia B. Dybowski &amp; Grochmalicki, 1917 (  Rissoa caspia Eichwald, 1838). In turn, some species presently attributed to the genus  Euxinipyrgula Sitnikova &amp; Starobogatov, 1999 (type species:  Pyrgula milachevitchi Golikov &amp; Starobogatov, 1966) closely resemble species of the  Laevicaspia -  Caspiella group (compare Anistratenko et al. 2011). </p>
            <p> Based on a review of the Pontocaspian species formerly attributed to these genera and illustrated in the literature (Golikov and Starobogatov 1966, Logvinenko and Starobogatov 1969, Alexenko and Starobogatov 1987, Kantor and Sysoev 2006, Anistratenko 2008), we propose to distinguish the genera  Clessiniola and  Laevicaspia from  Turricaspia , and to treat  Caspiella and  Euxinipyrgula as junior synonyms of  Laevicaspia . </p>
            <p> Clessiniola species can be easily distinguished from species attributed to other genera based on their broad shells with a large body whorl and aperture. The situation for the  Laevicaspia -  Caspiella -  Euxinipyrgula is more difficult. The three type species (see above) share the ovoid shape with cyrtoconoid spire, the high whorl accretion rate, the shape, inclination, lateral sinuation and thickening of the aperture, and the extent and sculpture of the protoconch (e.g., Kantor and Sysoev 2006, Anistratenko 2008, and this study). The only differences are shell size and whorl convexity, which we do not consider sufficient to distinguish genera. The adapical thickening of the aperture resulting from downward growing of the shell in late ontogeny as stated in the diagnosis of the genus  Euxinipyrgula by Sitnikova and Starobogatov (1999) is also shown for species that have been attributed to  Caspiella (see below). The features of the soft-part anatomy considered diagnostic by these authors need to be rechecked and compared to live material from the Caspian Sea to reevaluate the position of  Euxinipyrgula . Sitnikova and Starobogatov (1999) also discussed the similarities between  Caspiella and  Euxinipyrgula , concluding that  Caspiella should perhaps be included in the genus  Euxinipyrgula , possibly as a separate subgenus (which would be nomenclaturally invalid however). </p>
            <p> The ovoid shape, lateral sinuation and thickening of the aperture typical for the  Laevicaspia -  Caspiella -  Euxinipyrgula group are also found among species of the genus  Prososthenia Neumayr, 1969 from the middle Miocene of the Dinaride Lake System (e.g., Neubauer et al. 2016b). These species, however, differ in the granulate protoconch making up less than one whorl. </p>
            <p> Species of  Turricaspia differ from  Laevicaspia in the slower, regular whorl accretion, producing a conical spire and a higher number of whorls at the same size. In addition,  Turricaspia species have usually more fragile shells, thinner peristomes and often more strongly sinuate growth lines. </p>
            <p> The genus  Caspia is listed among  Pyrgulinae in latest catalogues (Kantor and Sysoev 2006, Vinarski and Kantor 2016), but it has been shown to be unrelated to that subfamily (Anistratenko 2013, Bouchet et al. 2017; see discussion of the  Caspiinae above). </p>
            <p> Finally, several Pontocaspian  Pyrgulinae have been previously assigned to the genus  Micromelania Brusina, 1874 (e.g., W. Dybowski 1887, B. Dybowski and Grochmalicki 1917). Its type species,  Micromelania cerithiopsis Brusina, 1874 (subsequent designation by Dollfus 1912), derives from late Miocene deposits of Lake Pannon. It differs considerably from Pontocaspian  Pyrgulinae regarding the presence of 2-4 noded keels and the small size (4.5  × 1.33 mm after Brusina 1874) compared to the rather high number of eight whorls. </p>
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	https://treatment.plazi.org/id/7AFC7930ABE592BA469B558D44CA83D8	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
50A0B9B676D013480922FC131550FDCF.text	50A0B9B676D013480922FC131550FDCF.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Laevicaspia B. Dybowski & Grochmalicki 1917	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Genus  Laevicaspia B. Dybowski &amp; Grochmalicki, 1917</p>
            <p> Laevicaspia ? 1902a  Thaumasia Westerlund: 104 [non Perty, 1833; non Albers, 1850]. </p>
            <p> Laevicaspia 1917  Laevicaspia B. Dybowski &amp; Grochmalicki: 5. </p>
            <p> Laevicaspia 1928  Caspiella Thiele: 353, 381. </p>
            <p> Laevicaspia 1999  Euxinipyrgula Sitnikova &amp; Starobogatov: 158, 162. </p>
            <p>Type species.</p>
            <p> Rissoa caspia Eichwald, 1838; by subsequent designation by Logvinenko and Starobogatov (1969). Caspian Sea, Pleistocene. </p>
            <p>Discussion.</p>
            <p> Lindholm (1922) studied the type material of  Buliminus goebeli Westerlund, 1896 from Mangyschlak (Mangystau Peninsula, Kazakhstan) and concluded that is a junior synonym of "  Micromelania "  Micromelania caspia (Eichwald, 1838). Westerlund (1902a), considering  Buliminus goebeli as a member of terrestrial  “Bulimoidea” (=  Enidae ), introduced the new genus  Thaumasia , which would take precedence over  Laevicaspia B. Dybowski &amp; Grochmalicki, 1917. However,  Thaumasia Westerlund, 1902 is invalid as a junior homonym of  Thaumasia Perty, 1833 (  Arachnida ) and  Thaumasia Albers, 1850 (  Gastropoda ,  Subulinidae ) (see also Lindholm 1925). </p>
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	https://treatment.plazi.org/id/50A0B9B676D013480922FC131550FDCF	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
219995529C8134DF759649D331E8D144.text	219995529C8134DF759649D331E8D144.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Laevicaspia caspia (Eichwald 1838)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Laevicaspia caspia (Eichwald, 1838) Fig. 8A-K </p>
            <p> Laevicaspia caspia *1838  Rissoa caspia m.; Eichwald: 154-155. </p>
            <p> Laevicaspia caspia 1841  Rissoa caspia - Eichwald: 256-257, pl. 38, figs 14-15. </p>
            <p> Laevicaspia caspia 1853 Riss. [oa] caspia m. - Eichwald: 273. </p>
            <p> Laevicaspia caspia non 1876  Hydrobia caspia , Eichw. - Grimm: 150-153, pl. 6, fig. 15. </p>
            <p> Laevicaspia caspia non 1877  Hydrobia caspia , Eichw. - Grimm: 79-80, pl. 7, figs 3a-d. </p>
            <p> Laevicaspia caspia non 1887  Micromelania caspia Eichw. sp. - W. Dybowski: 21. </p>
            <p> Laevicaspia caspia non 1888 Micr. [omelania] caspia Eichw. sp. - W. Dybowski: 78, pl. 1, fig. 1. </p>
            <p> Laevicaspia caspia ? 1896 B. [uliminus] (Napaeus?) goebeli Westerlund: 188. </p>
            <p> Laevicaspia caspia 1914  Micromelania (?)  Micromelania curta Nalivkin: 21-22, 31, pl. 6, figs 1-2 [partim; non figs 3-4, 7, 9-14]. </p>
            <p> Laevicaspia caspia 1914 [  Micromelania (?)  Micromelania curta ] var.  Micromelania curta plano-convexa Nalivkin: 22, 31, pl. 6, figs 15-18. </p>
            <p> Laevicaspia caspia non 1914  Micromelania caspia Eichw. - Nalivkin: 22, 31, pl. 6, figs 5-6 [partim; non fig. 8]. </p>
            <p> Laevicaspia caspia non 1917  Micromelania (  Turricaspia ,  Laevicaspia )  Laevicaspia caspia Eichw. - B. Dybowski &amp; Grochmalicki: 5-8, 36-38, pl. 1, figs 1-3. </p>
            <p> Laevicaspia caspia non 1969  Pyrgula caspia (Eichw.). - Logvinenko &amp; Starobogatov: 369-370, fig. 364 (1). </p>
            <p> Laevicaspia caspia 1987 T. [urricaspia] caspia (Eichw.). - Alexenko &amp; Starobogatov: 33, fig. 2. </p>
            <p> Laevicaspia caspia 2006  Turricaspia caspia (Eichwald, 1838). - Kantor &amp; Sysoev: 106, pl. 49, fig. M. </p>
            <p> Laevicaspia caspia 2014  Euxinipyrgula lincta . - Taviani et al.: 4, fig. 3c [non  Micromelania lincta Milashevich, 1908]. </p>
            <p> Laevicaspia caspia 2016  Turricaspia caspia (Eichwald, 1838). - Vinarski &amp; Kantor: 246. </p>
            <p>Material.</p>
            <p> 300 specimens (RGM 1309788, RGM 1309789, 1309797, RGM 1309798, RGM 1310196, RGM 1310257, RGM 1310258, LV 201511) . </p>
            <p>Type material.</p>
            <p> Lectotype: ZIN (No. 1 in systematic catalogue), designated by Alexenko and Starobogatov (1987).</p>
            <p>Type locality.</p>
            <p>"In eodem lapide calcario Dagesthanico, fossilis" (in the same limestone of Dagestan [referring to the previous species, also found in Dagestan], fossil).</p>
            <p>Dimensions.</p>
            <p> 9.01  × 3.31 mm (RGM 1310257, Fig. 8A-C); 7.88  × 3.31 mm (RGM 1310258, Fig. 8D-F); 10.33  × 3.92 mm (LV 201511, Fig. 8I-K); 9.92  × 3.83 mm; 10.21  × 3.88 mm; 9.52  × 3.54 mm; 9.69  × 3.61 mm. </p>
            <p>Description.</p>
            <p> Large, slender ovoid shell comprising up to 8.3 whorls. Protoconch large, measuring 535-600  µm at 1.15-1.2 whorls, with initial part inflated; nucleus almost immersed, 190-230  µm wide; nucleus and early protoconch bear intentions of malleate sculpture, which passes into granular surface after half a whorl accompanied by onset of spiral striae; P/T boundary indistinct. Whorl convexity decreasing rapidly: first teleoconch whorl moderately convex, second to last whorl low convex, sometimes almost straight-sided; maximum convexity is in lower half; whorls closely attached, suture narrow; a very small but marked convexity appears at upper suture, producing a faintly stepped spire; occasionally, it is accompanied by shallow abapical concavity. Last whorl makes up 46-50% of shell height, passing over regular but weakly convex to near straight-sided to slightly concave base. Aperture slender ovoid, inclined, closely attached to preceding whorl; in latest ontogeny, shell growth is more abapically directed, resulting in marked thickening at adapical tip. Peristome simple, thin, slightly expanded and indented at base; distinctly and regularly sigmoidal in lateral view, with upper half broadly indented and lower half broadly protruding; inner lip protrudes in lateral view, extending sheet-like over base of penultimate whorl; umbilicus mostly closed, rarely very narrow, slit-like. Growth lines weakly sigmoidal: strongly prosocline in upper half, weakly opisthocline in lower half. Several specimens show faint spiral threads on last and penultimate whorls. </p>
            <p>Discussion.</p>
            <p> Different concepts of this species previously applied have led to considerable confusion about its real identity. This is partly rooted in the description and illustration provided by Eichwald (1838, 1841) that were insufficient to allow safe discrimination from similar species. For instance,  Micromelania caspia sensu Grimm (1876, 1877), W. Dybowski (1887-1888) and B. Dybowski and Grochmalicki (1917) differs from the present species in the acute apex, the moderately convex whorls, the deep suture and the thin peristome. As already noted by Alexenko and Starobogatov (1987), it represents a different species, i.e.,  Laevicaspia lincta (Milashevich, 1908). That species was described from Lake Katlabukh near the Danube delta in Ukraine (lectotype, which matches  Milashevich’s description, is illustrated in Kantor and Sysoev 2006: 95, pl. 45, fig. D; as  Euxinipyrgula lincta ). Specimens from the Neoeuxinian (late Pleistocene) of the Marmara Sea identified as  E. cf. lincta by Taviani et al. (2014) differ from that species in the near straight-sided whorls and thickened peristome; in fact, the material corresponds well to  L. caspia . </p>
            <p> Micromelania caspia sensu Nalivkin (1914) comprises at least two species, both being more elongate, having more whorls and relatively smaller last whorls than  L. caspia . In turn, some of the illustrated syntypes of "  Micromelania "  Pyrgula curta Nalivkin, 1914 and the variety "  Micromelania "  Micromelania curta var. planoconvexa Nalivkin, 1914 from Bakunian deposits of Shikhovo, Apsheron Peninsula, Azerbaijan, closely resemble the present species and are thus (partly) considered synonymous. "  Micromelania "  Micromelania curta encompasses a great variability of shapes, ranging from slender, elongate (  Micromelania caspia - type) to broad, conical shells. Since no holotype or lectotype have been designated, the status of this species is unresolved at present. Note that  Pyrgula curta sensu Logvinenko and Starobogatov (1969) and Kantor and Sysoev (2006) does not correspond to  Nalivkin’s species but rather to the specimens Nalivkin (1914) misidentified as  Micromelania caspia . </p>
            <p> Similarly,  Pyrgula caspia sensu Logvinenko and Starobogatov (1969) is a quite different species, showing highly convex whorls and an inflated last whorl. It rather ranges within the morphological variability of  Turricaspia meneghiniana (see below). </p>
            <p> Alexenko and Starobogatov (1987) finally brought stability to the identity of  L. caspia by designating a lectotype (see Kantor and Sysoev 2006: 106, pl. 49, fig. A; as  Turricaspia caspia ), which matches well our specimens. The label accompanying their specimen reads "Kaspiyskoye more" ("Caspian Sea"), which differs from the information provided by Eichwald (Dagestan) (see also discussion in Vinarski and Kantor 2016: 246). Inspection of the catalogue of the Zoological Institute, Russian Academy of Sciences, St. Petersburg (ZIN), however, confirmed that the lectotype is based on  Eichwald’s original material. </p>
            <p> The similar  Laevicaspia iljinae (Golikov &amp; Starobogatov, 1966) from Holocene deposits of the Crimean Peninsula can be distinguished in its more slender shape and the spruce-like whorl outline (i.e., steep, straight-sided upper two-thirds passing over convexity into flatter, convex lower third; see also Kantor and Sysoev 2006: 108, pl. 49, fig. D). </p>
            <p>Distribution.</p>
            <p> Endemic to the Caspian Sea (Logvinenko and Starobogatov 1969 stated that the species occurs at a depth of 30-150 m in the middle and southern Caspian Sea, but these data have to be revised given their incorrect concept of  L. caspia ). </p>
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	https://treatment.plazi.org/id/219995529C8134DF759649D331E8D144	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
E382ED1DB261F1E94EE9A1241F84DFFA.text	E382ED1DB261F1E94EE9A1241F84DFFA.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Laevicaspia cincta (Abich 1859) Neubauer & Velde & Yanina & Wesselingh 2018	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Laevicaspia cincta (Abich, 1859) comb. n. Fig. 9A-H </p>
            <p> Laevicaspia cincta *1859  Rissoa cincta ; Abich: 57, pl. 2, fig. 6. </p>
            <p> Laevicaspia cincta ?1887  Caspia Orthii Clessin &amp; W. Dybowski in W. Dybowski: 40. </p>
            <p> Laevicaspia cincta ?1888 [  Caspia ]  Orthii n. sp. - W. Dybowski: 79, pl. 3, fig. 6. </p>
            <p> Laevicaspia cincta 1969  Pyrgula [(  Caspiella )]  Pyrgula cincta (Abich). - Logvinenko &amp; Starobogatov: 372, fig. 366 (4). </p>
            <p> Laevicaspia cincta 2006  Pyrgula cincta (Abich, 1859). - Kantor &amp; Sysoev: 98, pl. 47, fig. L. </p>
            <p> Laevicaspia cincta 2016  Pyrgula cincta (Abich, 1859). - Vinarski &amp; Kantor: 236. </p>
            <p>Material.</p>
            <p> 174 specimens (RGM 1309806, RGM 1309807, RGM 1310200, LV 201514) . </p>
            <p>Type material.</p>
            <p>Not traced.</p>
            <p>Type locality.</p>
            <p>Abich (1859) specified the type locality on p. 12-13 as "Gulf of Baku".</p>
            <p>Dimensions.</p>
            <p> 3.83  × 1.93 mm (LV 201514, Fig. 9A, B); 4.05  × 1.89 mm (RGM 1309807, Fig. 9C-E); 4.41  × 2.10 mm (RGM 1309806, Fig. 9F-H); 4.73  × 2.11 mm; 4.59  × 2.10 mm; 4.58  × 2.17 mm. </p>
            <p>Description.</p>
            <p> Slender ovoid shell with up to 6.5 whorls. Protoconch broad, low dome-shaped, consists of 1.2 whorls that measure 415  µm in diameter, with slightly inflated initial part; nucleus 150  µm wide; protoconch surface weakly granulate, with intentions of striae on second half; P/T transition distinct, formed by sharp, thin axial line. Whorl convexity decreases steadily during ontogeny, with early teleoconch whorls being moderately convex and penultimate and last whorl low convex to almost straight-sided. On third teleoconch whorl, weak subsutural band emerges that slightly enhances during ontogeny; band forms weak bulge throughout, with maximum convexity in its lower half and steep, almost straight-sided ramp in upper half; abapical demarcation clear, sometimes accompanied by thin groove. Last whorl attains 54-65% of shell height, passing from flattened whorl flank over marked convexity into steep, straight-sided base. Aperture near drop-shaped, inclined, with acute adapical angle, straight parietal margin, obtuse angle between parietal and columellar margins, sometimes slightly expanded palatal margin. Peristome not thickened, weakly expanded at columella and base; regularly sinuate in lateral view, with broad adapical indentation and about equally broad and high abapical protrusion. Umbilicus closed or very narrow. Growth lines weakly prosocline in upper half, near orthocline in lower half. </p>
            <p>Discussion.</p>
            <p>The Selitrennoye specimens match with the original description in terms of size (shell height: 3-4 mm), the ovoid shell shape, the number of whorls, the rounded last whorl and the simple peristome margin; they differ in the expression of the subsutural band, which Abich indicated to be "weakly keeled". We consider these differences to range within the intraspecific variability of this species.</p>
            <p> Laevicaspia cincta can be readily distinguished from other Pontocaspian  Pyrgulinae by its ovoid, slightly stepped shell with broad, blunt apex, subsutural band and flattened whorls in later ontogeny.  Laevicaspia abichi (Logvinenko &amp; Starobogatov, 1969) from the middle Caspian Sea, differs in the much larger size (6.8  × 3 mm), the conical shape, the narrower subsutural band and the larger aperture. The Caspian endemic species  Laevicaspia kowalewskii (Clessin &amp; W. Dybowski in W. Dybowski, 1887) resembles  L. cincta very closely in terms of the slender ovoid shape with near straight-sided whorls, the closely attached aperture with thin peristome, and the lacking umbilicus; it differs in the lack of a subsutural band and the more elongate shape. </p>
            <p> Caspia orthii Clessin &amp; W. Dybowski in W. Dybowski, 1887 was synonymized with the present species by previous authors (e.g., Logvinenko and Starobogatov 1969, Kantor and Sysoev 2006, Vinarski and Kantor 2016). The original description matches well our specimens in terms of size (4.8  × 1.9 mm), number of whorls, expression of the subsutural band and shape of the aperture; the only difference is the  “elongated-conical” shape compared to the ovoid shells of  L. cincta described by Abich (1859) and represent by our material. Although not having seen W.  Dybowski’s type material, we tentatively follow the previous assessment and consider  Caspia orthii a junior synonym of  Laevicaspia cincta . </p>
            <p> Note that  Rissoa cincta Deshayes, 1861 (p. 404, pl. 24, figs 4-6), described from the Eocene (Bartonian) of the Paris Basin, is a junior primary homonym of this species and thus invalid. At present, this species is classified in the genus  Pseudotaphrus Cossmann, 1888 (Ponder 1984: 96). </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea, in the southern part at a depth of&gt; 250 m (Parr et al. 2007).</p>
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	https://treatment.plazi.org/id/E382ED1DB261F1E94EE9A1241F84DFFA	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
1E28B9C315415BB965E08D90BB7E2779.text	1E28B9C315415BB965E08D90BB7E2779.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Laevicaspia conus (Eichwald 1838) Neubauer & Velde & Yanina & Wesselingh 2018	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Laevicaspia conus (Eichwald, 1838) comb. n. Fig. 9I-P </p>
            <p> Laevicaspia conus *1838  Rissoa Conus m.; Eichwald: 155. </p>
            <p> Laevicaspia conus 1841  Rissoa Conus m. - Eichwald: 257, pl. 38, figs 16a-b [wrongly given as "figs 16-17" on p. 257; see also corrigendum at the end of  Eichwald’s work]. </p>
            <p> Laevicaspia conus 1853 Riss. [oa] conus m. - Eichwald: 273. </p>
            <p> Laevicaspia conus non 1876  Eulima conus , Eichw?. - Grimm: 154-156, pl. 6, fig. 14. </p>
            <p> Laevicaspia conus 1887  Nematurella conus Eichw. sp. (non Grimm). - W. Dybowski: 45. </p>
            <p> Laevicaspia conus 1888 [  Nematurella ]  Nematurella conus Eichw. sp. - W. Dybowski: 78, pl. 2, fig. 3. </p>
            <p> Laevicaspia conus ? 1896  Prosostenia [sic]  Prosostenia conus Eichw. - Sinzov: 49-50, pl. 1, figs 30-33. </p>
            <p> Laevicaspia conus 1926?  Nematurella conus (Eichwald). - Wenz: 2007. </p>
            <p> Laevicaspia conus 1952  Caspiella conus (Eichwald, 1841). - Zhadin: 259, fig. 211. </p>
            <p> Laevicaspia conus 1969  Pyrgula [(  Caspiella )]  Pyrgula conus (Eichw). - Logvinenko &amp; Starobogatov: 374, fig. 366 (5-6). </p>
            <p> Laevicaspia conus non 2006  Turricaspia conus conus (Eichwald, 1838). - Kantor &amp; Sysoev: 106, pl. 48, fig. J. </p>
            <p> Laevicaspia conus 2016  Turricaspia conus conus (Eichwald, 1838). - Vinarski &amp; Kantor: 246-247. </p>
            <p>Material.</p>
            <p> 1135 specimens (RGM 1309828, RGM 1309829, RGM 1309830, RGM 1310199, RGM 1310226 -1310228, LV 201515) . </p>
            <p>Type material.</p>
            <p>Not traced.</p>
            <p>Type locality.</p>
            <p>"In eodem lapide calcareo, fossilis" (in the same limestone [referring to previous species, found in Dagestan], fossil).</p>
            <p>Dimensions.</p>
            <p> 5.14  × 2.19 mm (RGM 1309830, Fig. 9I, J); 4.60  × 2.18 mm (LV 201515, Fig. 9K); 4.02  × 1.91 mm (RGM 1309829, Fig. 9L-O); 3.87  × 1.87 mm (RGM 1309828, Fig. 9P); 4.60  × 2.23 mm (RGM 1310226); 5.12  × 2.37 mm (RGM 1310227); 4.17  × 2.14 mm (RGM 1310228). </p>
            <p>Description.</p>
            <p> Ovoid, glossy shell with up to 6.8 whorls. Shell outline variable, depending on growth stage: shells with up to 5 whorls are rather broad, nearly conical; in late ontogeny, shell growth is directed adapically, producing more elongate shapes with narrow, high last whorl; sometimes, these slender elongate morphotypes have slightly irregular shape. Protoconch consists of 1.2 whorls with 355  µm in diameter; nucleus almost immersed, 125  µm wide; surface faintly malleate or granulate, with intentions of spiral sculpture detected in some specimens; P/T boundary very distinct, marked by sharp, thin axial line. Teleoconch whorls weakly to moderately convex, sometimes adapically flattened. Last whorl attains between 55-63% of total height, grades into straight-sided or weakly convex base. Aperture drop-shaped, inclined, closely attached to base of preceding whorl, usually covering or rarely leaving slit-like umbilicus. Peristome slightly expanded, thin or thickened all around, especially at adapical tip; regularly sinuate in lateral view, with broad adapical indentation and about equally broad and high abapical protrusion. Growth lines weak, prosocline in upper half, orthocline in lower half. </p>
            <p>Discussion.</p>
            <p> Logvinenko and Starobogatov (1969) listed "  Rissoa conus Eichwald, 1841, partim" in synonymy of  Pyrgula kolesnikoviana Logvinenko &amp; Starobogatov in Golikov &amp; Starobogatov, 1966 (now classified in  Laevicaspia ; see below), but without any explanation. The synonymy list was expanded as "  Rissoa conus sensu Eichwald, 1841, partim, non Eichwald, 1838" by Kantor and Sysoev (2006) and Vinarski and Kantor (2016), yet again without discussion. The synonymy is not mentioned in the original description of  Laevicaspia kolesnikoviana in Golikov and Starobogatov (1966). Very likely, the synonymy roots in the ambiguous description of Eichwald (1838, 1841), summarizing two different morphologies. Eichwald referred to the typical form as having a conical shell with seven, gently increasing whorls, whereas the last two are much broader; the size was indicated as 2  × 1 lin., which corresponds to 4.2  × 2.1 mm (given Eichwald used the Russian liniya). In addition, he mentioned rarer, slightly longer (3 lin.) specimens, with deeper suture and straight-sided whorls. In 1841, Eichwald illustrated one of these rare specimens. The description in the 1841-work, however, is almost identical to the original description. In this light, it remains unclear why Kantor and Sysoev (2006) and Vinarski and Kantor (2016) referred to as "  Rissoa conus sensu Eichwald, 1841, partim, non Eichwald, 1838" in their synonymy lists of  L. kolesnikoviana . To complete confusion, the specimen illustrated in Kantor and Sysoev (2006) is not  L. conus , differing in the broad, blunt apex and the near straight-sided whorls; it rather resembles  L. kowalewskii (Clessin &amp; W. Dybowski in W. Dybowski, 1887). </p>
            <p> The holotype of  L. kolesnikoviana illustrated by Kantor and Sysoev (2006, pl. 47, fig. N) corresponds to the description and illustration of the rare, slender morphology of  Laevicaspia conus sensu Eichwald in terms of the number of whorls and the near straight-sided whorls; it differs only in the considerably smaller size (3.7 mm vs. 6.3 mm). Yet, Golikov and Starobogatov (1966) and Logvinenko and Starobogatov (1969) indicate larger sizes for  L. kolesnikoviana (5.5 mm and 6.5 mm, respectively), suggesting a great variability in size. On the other hand, the two morphologies delineated by Eichwald also match our own observations on  L. conus . In late ontogeny, growth is directed almost entirely abapically, resulting in more elongate shells with an additional whorl. These larger morphologies correspond completely to the smaller, relatively bulkier shells in all other aspects, which is why we consider them as morphotypes rather than species-group taxa. Without  Eichwald’s material at hand it is difficult to arrive at a conclusion on this matter. </p>
            <p> The species has affinities with several representatives of the Azov and Black seas.  Pyrgula (Caspiella) lindholmiana Golikov &amp; Starobogatov, 1966, today considered as a subspecies of  L. conus (e.g., Vinarski and Kantor 2016), has a larger and broader shell. Similarly,  Laevicaspia milachevitchi (Golikov &amp; Starobogatov, 1966) and  Laevicaspia boltovskoji (Golikov &amp; Starobogatov, 1966) are broader than  L. conus , while  Laevicaspia lincta (Milashevich, 1908) and  Laevicaspia limanica (Golikov &amp; Starobogatov, 1966) are more slender and larger. </p>
            <p> "  Eulima conus Eichwald" as described and illustrated by Grimm (1876, 1877) has little resemblance to actual  L. conus . He illustrated a very elongate, conical shell with many more and almost perfectly straight-sided whorls. This fact was already noticed by Clessin and W. Dybowski a few years later, and they introduced  Micromelania grimmi Clessin &amp; W. Dybowski in W. Dybowski, 1887 for the misidentified species. </p>
            <p> The illustrations of specimens from the Kuyalnikian (late Pliocene to early Pleistocene) of the Odessa region identified as  Prososthenia conus by Sinzov (1896) show shells with similar shape, proportions and whorl convexity. A more detailed examination of material from the region is required to assess whether it is indeed conspecific with  L. conus . </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea, reported from depths between 0 and 120 m (Logvinenko and Starobogatov 1969).</p>
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	https://treatment.plazi.org/id/1E28B9C315415BB965E08D90BB7E2779	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
3F1D7CE7B73B02C9135203900B45B658.text	3F1D7CE7B73B02C9135203900B45B658.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Laevicaspia kolesnikoviana (Logvinenko & Starobogatov in Golikov & Starobogatov 1966) Neubauer & Velde & Yanina & Wesselingh 2018	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Laevicaspia kolesnikoviana (Logvinenko &amp; Starobogatov in Golikov &amp; Starobogatov, 1966) comb. n. Fig. 10A-E, K, N </p>
            <p> Laevicaspia kolesnikoviana *1966 P. [yrgula] (Caspiella) kolesnikoviana Logvinenko et Starobogatov; Golikov &amp; Starobogatov: 357, fig. 2 (8-9). </p>
            <p> Laevicaspia kolesnikoviana 1969  Pyrgula [(  Caspiella )]  Pyrgula kolesnikoviana Logv. et Star. - Logvinenko &amp; Starobogatov: 372, fig. 366 (1). </p>
            <p> Laevicaspia kolesnikoviana 2006  Pyrgula kolesnikoviana Logvinenko et Starobogatov in Golikov et Starobogatov, 1966. - Kantor &amp; Sysoev: 100, pl. 47, fig. N. </p>
            <p> Laevicaspia kolesnikoviana 2016  Pyrgula kolesnikoviana Logvinenko et Starobogatov in Golikov et Starobogatov, 1966. - Vinarski &amp; Kantor: 239. </p>
            <p>Material.</p>
            <p> 514 specimens (RGM 1309816, RGM 1309818, RGM 1309819, RGM 1310212, RGM 1310221 -1310225, LV 201516) . </p>
            <p>Type material.</p>
            <p> Holotype: ZIN 4462/1 . </p>
            <p>Type locality.</p>
            <p>Caspian Sea, N of Apsheron peninsula, NW from Kamni Dva Brata Island, 40°47'N, 49°42'E, 30 m (Vinarski and Kantor 2016).</p>
            <p>Dimensions.</p>
            <p> 3.55  × 1.63 mm (RGM 1309816, Fig. 10A-C, K); 3.59  × 1.67 mm (LV 201516, Fig. 10D); 3.95  × 1.82 mm (RGM 1309819, Fig. 10E, N); 3.90  × 1.77 mm (RGM 1309818); 4.04  × 1.96 mm (RGM 1310222); 4.49  × 1.99 mm (RGM 1310223); 3.54  × 1.72 mm (RGM 1310224). </p>
            <p>Description.</p>
            <p> Small, slender ovoid, shiny shell with up to 6.9 whorls. Protoconch consists of 1.2 whorls, measuring 355  µm in diameter; nucleus rather long, ca. 130  µm wide; surface finely granulate (maybe due to preservation; traces of finely malleate to irregularly striate pattern occurs on margins of nucleus and initial part); faint striae on last third; P/T boundary distinct. Whorl convexity of teleoconch whorls decreasing: first to second whorl moderately to highly convex, last whorl low to moderately convex. Faint subsutural band appears on later teleoconch whorls in some specimens, sometimes accompanied by weak concavity below. Last whorl attains 50-57% of shell height, passing via broad, regular convexity in to weakly convex base. Aperture ovoid, inclined, closely attached to preceding whorl; in latest ontogeny, shell growth is more abapically directed, resulting in marked thickening at adapical angle. Peristome thin or thickened all around, with parietal margin sometimes slightly expanded; weakly but regularly sinuate in lateral view, with broad adapical indentation and about equally broad and high abapical protrusion. Umbilicus usually closed or very narrow, slit-like. Growth lines weak, prosocline in upper half, orthocline in lower half. In addition, faint spiral furrows appear in some specimens. </p>
            <p>Discussion.</p>
            <p> Co-occurring  Laevicaspia vinarskii sp. n. differs in the consistently lower whorl expansion rate at the same size and the smaller aperture.  Laevicaspia kowalewskii (Clessin &amp; W. Dybowski in W. Dybowski, 1887) can be distinguished by its broader and larger shell. </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea, reported from depths between 25 and 180 m (Kolesnikov 1947, Logvinenko and Starobogatov 1969).</p>
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	https://treatment.plazi.org/id/3F1D7CE7B73B02C9135203900B45B658	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
9AD75CDA5C00DF30C29C6F49CA89A28D.text	9AD75CDA5C00DF30C29C6F49CA89A28D.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Laevicaspia vinarskii Neubauer & Velde & Yanina & Wesselingh 2018	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Laevicaspia vinarskii sp. n. Fig. 10F-J, L-M, O </p>
            <p>Type material.</p>
            <p>  Holotype: LV 201517; 3.70  × 1.72 mm (Fig. 10F-G). Paratypes: RGM 1309821; 3.34  ×1.48 mm (Fig. 10I, J, L, M). RGM 1309805; 3.61 ×1.54 mm (Fig. 10H, O). LV 201731; 4.14 × 1.93 mm. </p>
            <p>Additional material.</p>
            <p> 5 specimens (RGM 1309793, LV 201732) . </p>
            <p>Type locality.</p>
            <p>Selitrennoye, Astrakhan, Russia; northern Caspian Basin; GPS coordinates: 47°10'21.19"N, 47°26'25.41"E (WGS 84).</p>
            <p>Age.</p>
            <p>Early Late Pleistocene (late Khazarian, MIS 5).</p>
            <p>Etymology.</p>
            <p>In honor of Maxim Vinarski (Saint Petersburg State University) for his contributions to Malacology.</p>
            <p>Diagnosis.</p>
            <p>Slender ovoid, imperforate shell with up to 6.5 moderately convex whorls, narrow suture, granulate-striate protoconch, high whorl expansion rate and small, adnate, inclined aperture.</p>
            <p>Description.</p>
            <p> Slender ovoid shell with up to 6.5 whorls. Protoconch consists of 1.2 whorls measuring 375  µm ; nucleus is 140  µm wide; surface strongly granulate on nucleus, less so on remaining protoconch, striae appear on last 0.25 whorls; P/T transition marked by distinct growth rim. Teleoconch whorls moderately convex, separated by narrow suture; whorls increase slowly in height, with the last attaining 53-57% of shell height, passing into weakly convex base. Weak subsutural band is observed in one specimen. Aperture small, inclined, closely attached to base of preceding whorl, leaving no or slit-like umbilicus. Peristome slightly thickened, especially at adapical tip; regularly sinuate in lateral view, with broad adapical indentation and about equally broad and high abapical protrusion. Distinct spiral furrows occur in well preserved specimens. Growth lines weak, prosocline in upper half, orthocline in lower half. </p>
            <p>Discussion.</p>
            <p> The new species differs from co-occurring  Laevicaspia kolesnikoviana in the higher whorl expansion rate at about the same size and the larger aperture.  Laevicaspia? ismailensis (Golikov &amp; Starobogatov, 1966) from lakes Yalpug and Kugurlu in the Danube river delta is more slender and larger (5.6 mm) at the same number of whorls and has a less inclined, rounder aperture (see holotype illustrated by Kantor and Sysoev 2006: pl. 50, fig. A). </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea Pleistocene, so far only known from Selitrennoye.</p>
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	https://treatment.plazi.org/id/9AD75CDA5C00DF30C29C6F49CA89A28D	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
5B47BC86DFFFDDA3DF763C68664B1073.text	5B47BC86DFFFDDA3DF763C68664B1073.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Caspiinae B. Dybowski 1913	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Subfamily  Caspiinae B. Dybowski, 1913</p>
            <p>Discussion.</p>
            <p> The genus  Caspia has been widely used for species with small ovoid shells, occasionally with spiral or reticulate teleoconch sculpture. Based on the expression of sculpture, some authors have divided the species among the (sub)genera  Caspia s.s., with a single spiral line below the suture, and  Clathrocaspia Lindholm, 1930, exposing a reticulate pattern (e.g., Anistratenko and Prisyazhniuk 1992, Anistratenko 2013, Boeters et al. 2015,  Büyükmeriç and Wesselingh 2018). Species lacking teleoconch sculpture were grouped under the new taxon  Ulskia by Logvinenko and Starobogatov (1969). While those authors considered it a subgenus of  Pyrgula , W. Dybowski (1887) originally treated its type species (  Caspia ulskii Clessin &amp; W. Dybowski in W. Dybowski, 1887, see below) as a sculpture-less form of  Caspia . </p>
            <p> Ulskia ulskii is available in the present material, and we have investigated the type species of  Clathrocaspia (  Caspia pallasii Clessin &amp; W. Dybowski in W. Dybowski, 1887) obtained from Holocene deposits of the northern and southern Caspian Sea. However, the type species of  Caspia ,  Caspia baerii Clessin &amp; W. Dybowski in W. Dybowski, 1887, is unknown to us. The original description suggests that it is similar to  Ulskia and  Clathrocaspia in terms of size and shape, yet to differ in the presence of a single line below to suture, demarcating a narrow subsutural ramp. All three genera are probably closely related, which is also suggested by the similar protoconchs of  Ulskia and  Clathrocaspia (pers. obs. T.A.N.). Since  Ulskia and  Clathrocaspia can be easily distinguished based on the presence of sculpture, we propose to treat them as distinct genera. The status of  Caspia remains doubtful until the type species is properly re-investigated. </p>
            <p> The  Caspia -  Clathrocaspia -  Ulskia species group can be well delimited from the larger, elongate-conical or -ovoid  Turricaspia auct. and  Pyrgula auct. Moreover, unpublished molecular data suggest that the group is unrelated to  Pyrgulinae (T. Wilke, pers. comm. 04/2018). We follow Anistratenko (2013) and Bouchet et al. (2017), who listed the  Caspiinae as separate subfamily. </p>
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	https://treatment.plazi.org/id/5B47BC86DFFFDDA3DF763C68664B1073	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
FDF9459ABB3088F6CBFFE40C26D9335F.text	FDF9459ABB3088F6CBFFE40C26D9335F.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Theodoxus Montfort 1810	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Genus  Theodoxus Montfort, 1810</p>
            <p>Type species.</p>
            <p> Theodoxus lutetianus Montfort, 1810 [currently considered as a synonym of  Theodoxus fluviatilis (Linnaeus, 1758)]; by original designation. Recent; Europe. </p>
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	https://treatment.plazi.org/id/FDF9459ABB3088F6CBFFE40C26D9335F	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
7EFD65CA9877C2051136AA7E22076630.text	7EFD65CA9877C2051136AA7E22076630.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Theodoxus pallasi Lindholm 1924	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Theodoxus pallasi Lindholm, 1924 Fig. 4A-F </p>
            <p> Theodoxus pallasi 1838  Neritina liturata m. Eichwald: 156-157 [non  Neritina liturata Schultze, 1826]. </p>
            <p> Theodoxus pallasi 1841  Neritina liturata m. - Eichwald: 258-260, pl. 38, figs 18-19 [non Schultze, 1826]. </p>
            <p> Theodoxus pallasi 1855  Neritina liturata m. - Eichwald: 307-308 [non Schultze, 1826]. </p>
            <p> Theodoxus pallasi 1887  Neritina liturata Eichw. sp. - W. Dybowski: 56-60 [non Schultze, 1826]. </p>
            <p> Theodoxus pallasi 1888 [  Neritina ]  Neritina liturata Eichw. - W. Dybowski: 79, pl. 2, fig. 10 [non Schultze, 1826]. </p>
            <p> Theodoxus pallasi * 1924  Theodoxus pallasi nom. nov.; Lindholm: 33, 34. </p>
            <p> Theodoxus pallasi 1952  Theodoxus pallasi Lindh. - Zhadin: 208-209, fig. 124. </p>
            <p> Theodoxus pallasi 1969  Theodoxus pallasi Ldh. - Logvinenko &amp; Starobogatov: 343, pl. 5, figs 5-6, textfig. 356. </p>
            <p> Theodoxus pallasi 1994  Theodoxus atrachanicus Starobogatov in Starobogatov et al.: 8-9, fig. 1 (1-2). </p>
            <p> Theodoxus pallasi 1994 Th. [eodoxus] pallasi Ldn. - Starobogatov et al.: 8-9, fig. 1 (3-4). </p>
            <p> Theodoxus pallasi 2006  Theodoxus pallasi Lindholm, 1924. - Kantor &amp; Sysoev: 45, pl. 20, fig. C. </p>
            <p> Theodoxus pallasi 2006  Theodoxus atrachanicus Starobogatov in Starobogatov et al. 1994. - Kantor &amp; Sysoev: 44, pl. 21, fig. C </p>
            <p> Theodoxus pallasi 2009  Theodoxus pallasi Lindholm, 1924. - Filippov &amp; Riedel: 70, 72, 74, 76, figs 4g-i. </p>
            <p> Theodoxus pallasi 2011  Theodoxus astrachanicus Starobogatov in Starobogatov, Filchakov, Antonova et Pirogov, 1994. - Anistratenko et al.: 54-55, fig. 1 (6). </p>
            <p> Theodoxus pallasi 2012  Theodoxus pallasi Lindholm, 1924. - Welter-Schultes: 29, unnumbered textfig. </p>
            <p> Theodoxus pallasi 2016  Theodoxus (Theodoxus) astrachanicus Starobogatov in Starobogatov et al. 1994. - Vinarski &amp; Kantor: 155-156. </p>
            <p> Theodoxus pallasi 2016  Theodoxus (Theodoxus) pallasi (Lindholm, 1924). - Vinarski &amp; Kantor: 156-157. </p>
            <p> Theodoxus pallasi 2017  Theodoxus pallasi Lindholm, 1924. - Anistratenko et al.: 221, figs 4, 7, 10, 11 [cum syn.]. </p>
            <p>Material.</p>
            <p> 294 specimens (RGM 1309841, RGM 1309843, RGM 1310190 -1310193, LV 201510) . </p>
            <p>Type material.</p>
            <p> Lectotype: ZIN 54547/63, designated by Starobogatov et al. (1994).</p>
            <p>Type locality.</p>
            <p>"Inter Fucos littoris Derbendensis viva" (living among algae on the shores of Derbent), Dagestan, Russia.</p>
            <p>Dimensions.</p>
            <p> 5.95  × 6.62  × 4.81 mm (RGM 1310191, Fig. 4A-C); 4.52  × 5.59  × 4.05 mm (LV 201510, Fig. 4D-F); 6.62  × 7.31  × 5.30 mm (RGM 1310192, Fig. 4I); 6.63  × 7.53  × 4.99 mm (RGM 1310190). </p>
            <p>Description.</p>
            <p> Near globular shell with up to 2.7 whorls. Protoconch consists of about half a whorl; diameter of about 570  µm ; nucleus measures ca. 250  µm in diameter; surface mostly corroded; P/T transition indistinct, marked by onset of growth lines. Apex weakly raised. Last whorl passes from upper suture over weakly inclined ramp with shallow concavity into broadly, regularly rounded flank that is near semicircular in profile; relative length of ramp increases with ontogeny. Aperture inclined, regularly semicircular. Callus moderately thickened, glossy, edentate; right margin bulging, symmetrically sinuate, with near straight-sided lower and upper thirds and broad, shallow indentation in central third; left margin extends sinuate over base of penultimate whorl, with small adapical indentation, formed by slightly protruding peristome margin. Peristome sharply edged throughout ontogeny from adapical tip to where it passes into callus margin at base of penultimate whorl. Adapically, peristome margin forms steep crest towards callus, sometimes accompanied by thin, shallow furrow at the transition. Color pattern already starts on early teleoconch as widely spaced, dark yellow to brown curved lines, which pass into slightly irregular zigzag lines with partly dichotomizing branches on last whorl; line width, density, amplitude, color and raggedness varies among specimens and partly within the same individual. </p>
            <p>Discussion.</p>
            <p> The regular, widely spaced zigzag pattern is characteristic of the species. Comparable patterns occur in  T. danubialis (Pfeiffer, 1828) and occasionally in  T. fluviatilis (Linnaeus, 1758), but in these species lines are finer and more closely spaced. They furthermore differ in their less elongated shells. Similarly,  T. euxinus (Clessin, 1886) from the Black Sea is more globular and shows a much denser and finer color pattern (Kantor and Sysoev 2006, Welter-Schultes 2012).  Theodoxus schultzii (Grimm, 1877) has traditionally been distinguished from  T. pallasi by its rounder shell and the massively expanded aperture (Zettler 2007). Currently, the whole group is under study using genetic data. Preliminary results suggest that both  T. pallasi and  T. schultzii may be grouped with the Armenian species  T. major Issel, 1865, and possibly a major name change for  T. pallasi is due (A.F. Sands, pers. commun. 05/2018). </p>
            <p> Theodoxus astrachanicus Starobogatov in Starobogatov et al. 1994 from the Azov Sea and Volga delta is claimed to differ from  T. pallasi in size and rate of whorl expansion (Starobogatov et al. 1994). However, both species correspond well in terms of shell shape and, in particular, the typical zigzag pattern (see also Kantor and Sysoev 2006). We therefore agree with Anistratenko et al. (2017) to treat  T. astrachanicus as a junior synonym of  T. pallasi . </p>
            <p>Distribution.</p>
            <p>Presently living in the Caspian Sea, the Sea of Azov and the Aral Sea; records from Armenia and the Ural River need confirmation (Anistratenko et al. 2017). In the Pleistocene, the species also dwelled in river deltas entering the Black Sea, where it probably became extinct during the Neoeuxinian/late Pleistocene (Anistratenko et al. 2017).</p>
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	https://treatment.plazi.org/id/7EFD65CA9877C2051136AA7E22076630	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
325E96249BFFD822C31E6ADF4DFA3609.text	325E96249BFFD822C31E6ADF4DFA3609.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Turricaspia andrussowi (B. Dybowski & Grochmalicki 1915)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Turricaspia andrussowi (B. Dybowski &amp; Grochmalicki, 1915) Fig. 11A, B </p>
            <p> Turricaspia andrussowi *1915  Micromelania (  Turricaspia )  Andrussowi nov. sp.; B. Dybowski &amp; Grochmalicki: 125-126, pl. 3, figs 31a-b. </p>
            <p> Turricaspia andrussowi 1917  Micromelania (  Turricaspia ,  Trachycaspia )  Andrussowi nov. sp. - B. Dybowski &amp; Grochmalicki: 26-27, pl. 4, fig. 39. </p>
            <p> Turricaspia andrussowi 1969  Pyrgula [(  Turricaspia )]  Pyrgula andrusovi [sic] (Dyb. et Gr.). - Logvinenko &amp; Starobogatov: 365-366, fig. 362 (4) [partim]. </p>
            <p> Turricaspia andrussowi 2006  Turricaspia andrussowi (B. Dybowski et Grochmalicki, 1915). - Kantor &amp; Sysoev: 104-105, pl. 48, fig. A [partim]. </p>
            <p> Turricaspia andrussowi 2016  Turricaspia andrussowi (B. Dybowski et Grochmalicki, 1915). - Vinarski &amp; Kantor: 245 [partim]. </p>
            <p>Material.</p>
            <p> 3 spire fragments (RGM 1309814, RGM 1310205) . </p>
            <p>Type material.</p>
            <p> Lectotype: ZIN 4355 /1 (specimen illustrated by B. Dybowski and Grochmalicki 1915, 1917), designated by Logvinenko and Starobogatov (1969), illustrated by Kantor and Sysoev (2006: pl. 48, fig. A) . </p>
            <p>Type locality.</p>
            <p>Caspian Sea (no locality specified).</p>
            <p>Description.</p>
            <p>Available fragments indicate very slender, conical shell. Apex broad, blunt, bulbous. Whorl profile flattened, very weakly spruce-like, with straight-sided upper two-thirds passing over convexity into weakly convex lower third; in addition, broad, flat subsutural band appears, sometimes accompanied by very narrow concavity below. Umbilicus seems fully closed. Aperture not preserved in any specimen.</p>
            <p>Discussion.</p>
            <p> The identification of the three spire fragments rests upon the strongly adpressed whorls with very narrow suture and the flattened, spruce-like whorl profile, and the large, bulbous protoconch.  Turricaspia eulimellula (B. Dybowski &amp; Grochmalicki, 1915) has a similarly slender spire with adpressed whorls, but it bears a basal keel and the maximum whorl convexity is around mid-height instead of in the lower third.  Turricaspia grimmi (Clessin &amp; W. Dybowski in W. Dybowski, 1887) differs in its perfectly straight-sided, rectangular, very weakly stepped whorl profile (see also B. Dybowski and Grochmalicki 1917, pl. 3, figs 34-35; Kantor and Sysoev 2006, pl. 46, fig. L). </p>
            <p> A very similar species is  Pyrgula dubia Logvinenko &amp; Starobogatov, 1969 from the middle Caspian Sea, matching the present one in the weakly spruce-like whorl profile; in fact, it might just be a juvenile specimen of  T. andrussowi . Similarly,  Pyrgula turkmenica Logvinenko &amp; Starobogatov, 1969, from the eastern part of southern Caspian Sea, corresponds to  T. andrussowi in the weak subsutural band accompanied by an abapical concavity; it might as well be a juvenile representative of  T. andrussowi . </p>
            <p> Logvinenko and Starobogatov (1969) synonymized without discussion  Hydrobia spica sensu Grimm, 1876,  Turricaspia elegantula sensu B. Dybowski &amp; Grochmalicki, 1915,  T. brusinae (B. Dybowski &amp; Grochmalicki, 1915), as well as several varieties of  T. spica and  T. turricula described by B. Dybowski &amp; Grochmalicki (1915), with  T. andrussowi (see also Kantor and Sysoev 2006, Vinarski and Kantor 2016). However, none of these taxa actually resembles  T. andrussowi . This species can be well delimited from these alleged synonyms in its bulbous protoconch and the characteristic, weakly spruce-like whorl profile. (Note that the drawing provided by Logvinenko and Starobogatov 1969 shows a rather broad shell with acute apex; it has little in common with the lectotype designated by them). </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea (Logvinenko and Starobogatov 1969 indicated occurrences for the middle and southern Caspian Sea at depths of 25-80 m, but based on a much wider concept of the species).</p>
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	https://treatment.plazi.org/id/325E96249BFFD822C31E6ADF4DFA3609	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
348E180685ED863090157BB3B1EBB3C7.text	348E180685ED863090157BB3B1EBB3C7.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Turricaspia B. Dybowski & Grochmalicki 1915	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Genus  Turricaspia B. Dybowski &amp; Grochmalicki, 1915</p>
            <p> Turricaspia 1915  Turricaspia B. Dybowski &amp; Grochmalicki: 105. </p>
            <p> Turricaspia 1917  Trachycaspia B. Dybowski &amp; Grochmalicki: 22. </p>
            <p> Turricaspia 1969  Pyrgula (Caspiopyrgula) Logvinenko &amp; Starobogatov: 366. </p>
            <p> Turricaspia 1969  Pyrgula (Eurycaspia) Logvinenko &amp; Starobogatov: 357. </p>
            <p> Turricaspia 1969  Pyrgula (Oxypyrgula) Logvinenko &amp; Starobogatov: 366. </p>
            <p>Type species.</p>
            <p> Micromelania turricula B. Dybowski &amp; Grochmalicki, 1915; by subsequent designation by Wenz (1939). Caspian Sea, Recent. </p>
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	https://treatment.plazi.org/id/348E180685ED863090157BB3B1EBB3C7	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
3CF9ECA2CB3D03AF4D82FF0E6A9B108A.text	3CF9ECA2CB3D03AF4D82FF0E6A9B108A.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Turricaspia dimidiata (Eichwald 1838)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Turricaspia? dimidiata (Eichwald, 1838) Fig. 11C-E </p>
            <p> Turricaspia dimidiata ?*1838  Rissoa dimidiata m.; Eichwald: 156. </p>
            <p> Turricaspia dimidiata ? 1841  Rissoa dimidiata m. - Eichwald: 258, pl. 38, figs 17a-b [wrongly given as "figs 16-17" on p. 258; see also corrigendum at the end of  Eichwald’s work]. </p>
            <p> Turricaspia dimidiata ? 1853  Pal. [udina]  Paludina dimidiata m. - Eichwald: 285-286. </p>
            <p> Turricaspia dimidiata ? 1887  Micromelania dimidiata Eichw. sp. - W. Dybowski: 31 [partim]. </p>
            <p> Turricaspia dimidiata ? 1888  Micromelania dimidiata Eichw. sp. - W. Dybowski: 78, pl. 1, figs 4a-f, 5 [partim]. </p>
            <p> Turricaspia dimidiata ? 1917  Micromelania (Turricaspia) dimidiata Eichw. - B. Dybowski &amp; Grochmalicki: 32-33, pl. 4, figs 44-47 [partim]. </p>
            <p> Turricaspia dimidiata ? 1969  Pyrgula dimidiata (Eichw.). - Logvinenko &amp; Starobogatov: 358-359, fig. 359 (1). </p>
            <p> Turricaspia dimidiata ? 2006  Pyrgula dimidiata (Eichwald, 1838). - Kantor &amp; Sysoev: 99, pl. 46, fig. K. </p>
            <p> Turricaspia dimidiata ? 2016  Pyrgula dimidiata (Eichwald, 1838). - Vinarski &amp; Kantor: 238. </p>
            <p>Material.</p>
            <p> 1 subadult specimen (RGM 1309787) . </p>
            <p>Type material.</p>
            <p>Not traced.</p>
            <p>Type locality.</p>
            <p>"In eodem lapide calcareo, fossilis" (in the same limestone [referring to the previous species, found in Dagestan], fossil).</p>
            <p>Dimensions.</p>
            <p> 4.29  × 1.93 mm. </p>
            <p>Description.</p>
            <p>Slender elongate shell with ca. 6.5 whorls preserved. Protoconch granulate, originally perhaps densely malleate. First teleoconch whorl straight-sided in profile, passing into weakly convex outline on 2nd-3rd whorl. Between 3rd and 4th whorl, broad, blunt central swelling emerges, grading into thin angulation on 5th whorl; no keel is developed. Whorl portion above swelling/angulation straight-sided, below weakly convex; directly above it, weak concavity is formed locally. Aperture ovoid, strongly adnate, leaving no umbilicus, with thin peristome. Growth lines rather distinct, with prosocline upper half and near orthocline lower half.</p>
            <p>Discussion.</p>
            <p> A single subadult shell containing ca. 6.5 whorls (including the protoconch) is available. Size and number of whorls as well as the centrally placed angulation correspond well to  Eichwald’s (1838, 1841) description and illustration of  T. dimidiata . However, the central keel is very weakly expressed in our specimen and it starts not before the fourth whorl, which is why we only tentatively attribute it to this species. </p>
            <p> Kantor and Sysoev (2006) illustrate a much more elongate specimen with cyrtoconoid spire and more abapically placed keel; it might represent a different species.  Turricaspia bakuana (Kolesnikov, 1947), likewise described from Caspian Sea, too has a central keel, but differs in the much more slender shell and consistently strong keel from the second teleoconch whorl onwards (cf. Kantor and Sysoev 2006).  Turricaspia basalis (B. Dybowski &amp; Grochmalicki, 1915) has a broader conical habitus and the keel is placed near the lower suture. The subspecies  T. b. laticarinata (Logvinenko &amp; Starobogatov, 1969) only differs from  T. basalis in the thickness of the keel and is herein considered a junior synonym of the nominal species. </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea, reported from middle and south Caspian Sea at depths between 35 and 200 m (Logvinenko and Starobogatov 1969).</p>
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	https://treatment.plazi.org/id/3CF9ECA2CB3D03AF4D82FF0E6A9B108A	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
630BBD3A49587506CCBAE5CE2864451C.text	630BBD3A49587506CCBAE5CE2864451C.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Turricaspia lyrata (B. Dybowski & Grochmalicki 1915)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Turricaspia lyrata (B. Dybowski &amp; Grochmalicki, 1915) Fig. 12A-K </p>
            <p> Turricaspia lyrata *1915  Micromelania (Turricaspia) spica Eichw. var. lyrata nov. var.; B. Dybowski &amp; Grochmalicki: 117, pl. 2, fig. 18. </p>
            <p> Turricaspia lyrata 1915  Micromelania (Turricaspia) spica Eichw. var. incisata nov. var.; B. Dybowski &amp; Grochmalicki: 117, pl. 2, fig. 19. </p>
            <p> Turricaspia lyrata 1915  Micromelania (Turricaspia) spica Eichw. var. striata nov. var.; B. Dybowski &amp; Grochmalicki: 117, pl. 2, fig. 20. </p>
            <p> Turricaspia lyrata 1917  Micromelania (Turricaspia) spica Eichw. var. lyrata nov. var. - B. Dybowski &amp; Grochmalicki: 17, pl. 3, fig. 25. </p>
            <p> Turricaspia lyrata 1917  Micromelania (Turricaspia) spica Eichw. var. incisata nov. var. - B. Dybowski &amp; Grochmalicki: 18, pl. 3, fig. 26. </p>
            <p> Turricaspia lyrata 1917  Micromelania (Turricaspia) spica Eichw. var. striata nov. var. - B. Dybowski &amp; Grochmalicki: 18, pl. 3, fig. 27. </p>
            <p> Turricaspia lyrata 1969  Pyrgula [(  Turricaspia )]  Pyrgula lirata [sic] (Dyb. et Gr.). - Logvinenko &amp; Starobogatov: 365, fig. 362 (2). </p>
            <p> Turricaspia lyrata 2006  Pyrgula lirata [sic] (B. Dybowski et Grochmalicki, 1915). - Kantor &amp; Sysoev: 101, pl. 46, fig. E. </p>
            <p> Turricaspia lyrata 2016  Pyrgula lirata [sic] (B. Dybowski et Grochmalicki, 1915). - Vinarski &amp; Kantor: 240. </p>
            <p>Material.</p>
            <p> 562 specimens (RGM 1309802, RGM 1309825, RGM 1310209, RGM 1310213, RGM 1310214, RGM 1310216, RGM 1310218 -1310220, LV 201512, LV 201513) . </p>
            <p>Type material.</p>
            <p> Lectotype: ZIN 4552 /1 (specimen illustrated by B. Dybowski and Grochmalicki 1915, 1917), designated by Logvinenko and Starobogatov (1969), illustrated by Kantor and Sysoev (2006: pl. 46, fig. E).</p>
            <p>Type locality.</p>
            <p>Caspian Sea (no locality specified).</p>
            <p>Dimensions.</p>
            <p> 7.68  × 2.59 mm (RGM 1310213, Fig. 12A-C); 7.99  × 2.42 mm (RGM 1310220, Fig. 12D); 7.34  × 2.28 mm (RGM 1310214, Fig. 12E); 7.54  × 2.50 mm (LV 201512, Fig. 12F); 6.87  × 2.43 mm (LV 201513, Fig. 12G-I); 7  × 2.52 mm (RGM 1310218, Fig. 12J). </p>
            <p>Description.</p>
            <p> Slender elongate shell of up to 9 whorls. Protoconch large, measuring about 485  µm in diameter; it forms bulbous cap on top of shell and comprises 1.25 whorls; surface weakly granulate, with striae on last 0.25 whorls; nucleus low, broad, ca. 170  µm in diameter; P/T transition very distinct, marked by sharp growth cessation. Teleoconch whorls low to moderately convex, often flattened or with straight-sided upper half, which creates spruce-like morphology. Sometimes, very weak and thin bulge appears below suture, producing faintly stepped spire. Most shells bear very low and somewhat irregular spirals, but expression varies considerably concerning its onset (mainly starts on lower whorls), strength (faint traces to distinct but blunt keels) and number of elements (one keel near base to several keels spread across whorl profile). Expression of sculpture varies in most specimens throughout ontogeny, which creates uneven, rugged appearance. Aperture comparatively small, in most cases regularly ovoid and weakly inclined, covering up umbilicus entirely or leaving very thin opening; peristome simple. Growth lines strongly sigmoidal, with prosocline upper third and opisthocline lower two-thirds. </p>
            <p>Discussion.</p>
            <p> This species can be distinguished from its congeners in its large, bulbous protoconch and the typical, somewhat irregular sculpture. It is consistently larger, more massive and on average bears much stronger sculpture than co-occurring  T.? spica . The varieties "  Micromelania (Turricaspia) spica var. incisata " and "  M. (T.) spica var. striata " introduced by B. Dybowski and Grochmalicki (1915) only differ in the depth of the suture and the expression of the teleoconch sculpture, respectively. Given the variability of these features, we consider both of them synonymous with  T. lyrata . Already Logvinenko and Starobogatov (1969) considered  Micromelania incisata and  Turricaspia lyrata synonymous and, as first revisers, chose  Turricaspia lyrata as the valid name of the species. The variety "  M. (T.) spica var. lLittorinimorphasa " B. Dybowski &amp; Grochmalicki, 1915 might also be a synonym of this species. However, the apex of the specimen illustrated in B. Dybowski and Grochmalicki (1915, 1917), which contains diagnostic characters, is not preserved. Nevertheless,  Micromelania striata and  Micromelania lLittorinimorphasa are certainly not synonymous with  T. andrussowi as suggested by Logvinenko and Starobogatov (1969). That species differs from  T. lyrata in the much slender whorls with spruce-like, near straight-sided profile. </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea (after Logvinenko and Starobogatov 1969, it occurs in the western part of the middle and southern Caspian Sea at a depth of 25-50 m; mind however that these authors used a slightly different concept of the species).</p>
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	https://treatment.plazi.org/id/630BBD3A49587506CCBAE5CE2864451C	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
A588C275DF26F67A0C849766DACCAE30.text	A588C275DF26F67A0C849766DACCAE30.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Turricaspia meneghiniana (Issel 1865)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Turricaspia meneghiniana (Issel, 1865) Fig. 13A-K </p>
            <p> Turricaspia meneghiniana *1865 Bythinia Meneghiniana, Issel; Issel: 21, pl. 1, figs 12-13. </p>
            <p> Turricaspia meneghiniana 1866 Bythinia Meneghiniana, Issel. - Issel: 405, pl. 1, figs 12-13. </p>
            <p> Turricaspia meneghiniana 1917  Micromelania (Turricaspia) caspia Eichw. var. inflata nov. var. - B. Dybowski &amp; Grochmalicki: 9, pl. 1, fig. 5. </p>
            <p> Turricaspia meneghiniana ? 1969  Pyrgula caspia (Eichw). - Logvinenko &amp; Starobogatov: 369-370, fig. 364 (1). </p>
            <p> Turricaspia meneghiniana ? 1969  Pyrgula meneghiniana (Issel). - Logvinenko &amp; Starobogatov: 370, fig. 365 (2). </p>
            <p> Turricaspia meneghiniana non 1987 T. [urricaspia] meneghiniana meneghiniana (Iss.). - Alexenko &amp; Starobogatov: 35, fig. 8. </p>
            <p> Turricaspia meneghiniana 2006  Turricaspia meneghiniana (Issel, 1865). - Kantor &amp; Sysoev: 109, pl. 49, fig. E. </p>
            <p> Turricaspia meneghiniana 2016  Turricaspia meneghiniana (Issel, 1865). - Vinarski &amp; Kantor: 248. </p>
            <p>Material.</p>
            <p> 248 specimens (RGM 1309799, RGM 1309800, RGM 1310197, RGM 1310198, RGM 1310256, LV 201518) . </p>
            <p>Type material.</p>
            <p>Not traced.</p>
            <p>Type locality.</p>
            <p>"Nei giacimenti fossiliferi di Baku" (from fossil deposits in Baku).</p>
            <p>Dimensions.</p>
            <p> 10.86  × 4.27 mm (RGM 1310256, Fig. 13A-C); 10.91  × 4.36 mm (LV 201518, Fig. 13D, E, I); 11.17  × 4.50 mm (RGM 1310197, Fig. 13F-H); 10.82  × 4.14 mm; 11.23  × 4.40 mm; 11.65  × 4.49 mm. </p>
            <p>Description.</p>
            <p> Conical shell with up to 9.3 whorls. Protoconch comprises 1.3 whorls, measuring 440  µm in diameter, with slightly inflated initial part; nucleus measures 150  µm in diameter; entire protoconch surface weakly granulate; indistinct spiral striae appear on second half; P/T transition distinct, formed by sharp, thin axial line. Teleoconch whorls increase slowly but regularly in height and width; whorls moderately convex, whereas convexity slightly decreases with ontogeny. Last whorl attains 45-48% of shell height, passes over perfect convexity into slightly convex base. Aperture ovoid, inclined, closely attached to base of preceding whorl across almost entire parietal margin. Peristome thin, not thickened, little expanded; weakly sigmoidal in lateral view, with broad, shallow indentation in upper half and broad, weak protrusion in lower half; inner lip protrudes in lateral view, extending sheet-like over base of penultimate whorl; umbilicus very narrow, slit-like. Growth lines weakly sigmoidal: strongly prosocline in upper half, weakly opisthocline in lower half. Several specimens show faint spiral threads on last and penultimate whorls. </p>
            <p>Discussion.</p>
            <p> Our material matches well to the description of Issel (1865), corresponding in the conical shell shape, the regularly increasing whorls, the rounded last whorl with faint spiral striae, and the ovate, adapically angulated aperture; only his specimens (13.5  × 5 mm) are larger than ours and consist of more whorls. Compared to his description,  Issel’s illustration seem to overemphasize the relative height of the last whorl and underrepresent the pronounced whorl convexity. However, variability as to these characteristics is discernible also in our material. </p>
            <p> Micromelania subulata Westerlund, 1902 is commonly listed as junior synonym of this species but always without discussion (e.g., Logvinenko and Starobogatov 1969, Kantor and Sysoev 2006, Vinarski and Kantor 2016).  Westerlund’s (1902b) description refers to a large (15 mm), elongate shell with 9.5-10 whorls and a thickened callus connecting the peristome margins. These features partly oppose  Issel’s description, which is why we tend to consider both taxa as separate, in contrast to most previous authors. Unfortunately,  Westerlund’s (1902b) type material of this species could not be traced, neither in the  Göteborg Natural History Museum nor the Swedish Museum of Natural History in Stockholm, where the largest part of  Westerlund’s material is stored (Vinarski et al. 2013). </p>
            <p> Another commonly cited synonym is  Micromelania caspia var. inflata B. Dybowski &amp; Grochmalicki, 1915, which indeed matches both  Issel’s description and our material. </p>
            <p> Turricaspia meneghiniana differs from the similarly large  Laevicaspia caspia (Eichwald, 1838) in its regularly conical profile, the higher number of whorls, and the higher whorl convexity. The drawings of "  Pyrgula meneghiniana (Issel)" provided by Logvinenko and Starobogatov (1969) indicate a broader shell with low whorl convexity and might represent a different species. In contrast,  Pyrgula caspia sensu Logvinenko and Starobogatov (1969) (non Eichwald 1838) resembles the present species in terms of the high shell convexity and regular growth rate and might be conspecific.  Turricaspia meneghiniana sensu Alexenko and Starobogatov (1987), with few, low convex whorls and an angled base, is clearly a different species. </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea, reported from middle and south Caspian Sea at depths between 0 and 35 m (Logvinenko and Starobogatov 1969).</p>
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	https://treatment.plazi.org/id/A588C275DF26F67A0C849766DACCAE30	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
35EB9B93E00746C2F14D1232F607AB4C.text	35EB9B93E00746C2F14D1232F607AB4C.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Turricaspia pulla (B. Dybowski & Grochmalicki 1915)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Turricaspia pulla (B. Dybowski &amp; Grochmalicki, 1915) Fig. 14A-J </p>
            <p> Turricaspia pulla *1915  Micromelania (Turricaspia) caspia Eichw. var. pulla nov. var.; B. Dybowski &amp; Grochmalicki: 111, pl. 1, fig. 6a. </p>
            <p> Turricaspia pulla 1917  Micromelania (Turricaspia) caspia Eichw. var. pulla nov. var. - B. Dybowski &amp; Grochmalicki: 10, pl. 1, fig. 7. </p>
            <p> Turricaspia pulla 1969  Pyrgula [(  Turricaspia )]  Pyrgula pulla (Dyb. et Gr.). - Logvinenko &amp; Starobogatov: 361-362, fig. 360 (8). </p>
            <p> Turricaspia pulla 2006  Pyrgula pulla (B. Dybowski et Grochmalicki, 1915). - Kantor &amp; Sysoev: 102, pl. 46, fig. C. </p>
            <p> Turricaspia pulla 2016  Pyrgula pulla (B. Dybowski et Grochmalicki, 1915). - Vinarski &amp; Kantor: 242. </p>
            <p>Material.</p>
            <p> 186 specimens (RGM 1309803, RGM 1309804, RGM 1309820, RGM 1310211, RGM 1310253 -1310254, LV 201519) . </p>
            <p>Type material.</p>
            <p> Lectotype: ZIN 4422/1 (specimen illustrated by B. Dybowski and Grochmalicki 1915, 1917), designated by Logvinenko and Starobogatov (1969), illustrated by Kantor and Sysoev (2006: pl. 46, fig. C).</p>
            <p>Type locality.</p>
            <p>Caspian Sea (no locality specified).</p>
            <p>Dimensions.</p>
            <p> 4.88  × 2.10 mm (LV 201519, Fig. 14A-C); 5.17  × 2.11 mm (RGM 1310254, Fig. 14D, I, J); 4.77  × 1.90 mm (RGM 1310253, Fig. 14E-G); 5.84  × 2.16 mm (RGM 1309803); 5.54  × 1.97 mm (RGM 1309804). </p>
            <p>Description.</p>
            <p> Slender conical shell with up to 8 whorls. Protoconch bulbous, weakly granulate, with striae on second half; diameter 410  µm , consists of 1.25 whorls; nucleus low, broad, 140  µm wide; transition to teleoconch distinct. Teleoconch whorls weakly convex, with maximum convexity at or slightly below midline of whorl profile; portion above maximum convexity almost straight-sided, portion below weakly convex. Whorls are separated by deep suture. Height of last whorl amounts 45% of total shell. Sometimes intentions of spiral lines appear on lower half of last whorl. Aperture ovoid, oblique, with weakly thickened and slightly expanded peristome; in lateral view, peristome is distinctly sigmoidal, with broad, shallow indentation in upper half and broad, weak protrusion in lower half. Umbilicus very narrow or closed. Growth lines sigmoidal, markedly prosocline in upper half, weakly opisthocline in lower half. </p>
            <p>Discussion.</p>
            <p> The species can be easily distinguished from most other species of  Turricaspia by its comparably broad conical shape, the low-convex whorls, and its small size. Juvenile specimens of  T. meneghiniana remind of  T. pulla but the former have broader shells with more convex whorls.  Turricaspia pullula is likewise broader and exposes a characteristic tripartite whorl profile (see below). </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea, reported from middle and south Caspian Sea at depths between 15 and 75 m (Logvinenko and Starobogatov 1969).</p>
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	https://treatment.plazi.org/id/35EB9B93E00746C2F14D1232F607AB4C	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
DD0A8F667816416FF3146D6266F4D56B.text	DD0A8F667816416FF3146D6266F4D56B.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Turricaspia pullula (B. Dybowski & Grochmalicki 1915)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Turricaspia pullula (B. Dybowski &amp; Grochmalicki, 1915) Fig. 14K, L </p>
            <p> Turricaspia pullula *1915  Micromelania (Turricaspia) caspia Eichw. var. pullula nov. var.; B. Dybowski &amp; Grochmalicki: 111-112, pl. 1, fig. 7. </p>
            <p> Turricaspia pullula 1917  Micromelania (Turricaspia) caspia Eichw. var. pullula nov. var. - B. Dybowski &amp; Grochmalicki: 10-11, pl. 1, fig. 8. </p>
            <p> Turricaspia pullula 1969  Pyrgula [(  Turricaspia )]  Turricaspia pullula (Dyb. et Gr.). - Logvinenko &amp; Starobogatov: 366-367, fig. 363 (3). </p>
            <p> Turricaspia pullula 2006  Turricaspia pullula (B. Dybowski et Grochmalicki, 1915). - Kantor &amp; Sysoev: 109, pl. 50, fig. B. </p>
            <p> Turricaspia pullula 2016  Turricaspia pullula (B. Dybowski et Grochmalicki, 1915). - Vinarski &amp; Kantor: 249. </p>
            <p>Material.</p>
            <p> 1 damaged specimen (RGM 1310210) . </p>
            <p>Type material.</p>
            <p> Lectotype: ZIN 4423/1 (specimen illustrated by B. Dybowski and Grochmalicki 1915, 1917), designated by Logvinenko and Starobogatov (1969), illustrated by Kantor and Sysoev (2006: pl. 50, fig. B) . </p>
            <p>Type locality.</p>
            <p>Caspian Sea (no locality specified).</p>
            <p>Dimensions.</p>
            <p> 5.36  × 2.62 mm. </p>
            <p>Description.</p>
            <p>A single incomplete specimen of about 6 whorls is preserved. Protoconch is corroded beyond recognition. Early teleoconch whorls are poorly convex to centrally flattened. Convexity strongly increases on about 3rd whorl. From 4th whorl onwards, whorl surface is partitioned into three zones: two lower zones are roughly straight-sided in profile, upper one slightly concave; middle zone slightly wider than other two; zones are separated by blunt angulations, whose expression varies between very faint to distinct (but no keel is formed). Aperture not preserved, but the tight coiling of the last preserved whorl suggests that umbilicus is absent. Growth lines strongly prosocline in upper third, near orthocline in lower two-thirds; transition coincides with boundary between upper and middle zone.</p>
            <p>Discussion.</p>
            <p> The available specimen corresponds well to the lectotype as illustrated by Kantor and Sysoev (2006). The very characteristic tripartite whorl profile is only discernible on the penultimate whorl of their specimen. Such a pattern is unknown for any other Pontocaspian  Pyrgulinae . </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea, reported from the western part of the middle Caspian Sea at a depth of 60 m (Logvinenko and Starobogatov 1969).</p>
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	https://treatment.plazi.org/id/DD0A8F667816416FF3146D6266F4D56B	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
0E0A087A22CA55E3476B6AFC7FDBFB7C.text	0E0A087A22CA55E3476B6AFC7FDBFB7C.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Turricaspia spica (Eichwald 1855)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Turricaspia? spica (Eichwald, 1855) Fig. 15A-R </p>
            <p> Turricaspia spica ? *1855  Paludina spica m.; Eichwald: 303-304, pl. 10, figs 8-9. </p>
            <p> Turricaspia spica ? 1887  Micromelania spica Eichw. sp. - W. Dybowski: 29-31. </p>
            <p> Turricaspia spica ? 1888 Micr. [omelania] spica Eichw. sp. - W. Dybowski: 78, pl. 1, figs 6a-c, pl. 3, figs 11a-d. </p>
            <p> Turricaspia spica ? 1917  Micromelania (Turricaspia) spica Eichw. - B. Dybowski &amp; Grochmalicki: 16-17, pl. 3, figs 22-27. </p>
            <p> Turricaspia spica ? 1952  Micromelania spica (Eichwald, 1855). - Zhadin: 252-253, fig. 194. </p>
            <p> Turricaspia spica ? 1992  Turricaspia spica . - Anistratenko &amp; Prisyazhniuk: 19, fig. 2d. </p>
            <p> Turricaspia spica ? 2006  Turricaspia spica (Eichwald, 1855). - Kantor &amp; Sysoev: 110, pl. 49, fig. F. </p>
            <p> Turricaspia spica ? 2009  Turricaspia cf. spica (Eichwald, 1855). - Filippov &amp; Riedel: 70, 72, 74, 76, figs 4e-f. </p>
            <p> Turricaspia spica ? 2016  Turricaspia spica (Eichwald, 1855). - Vinarski &amp; Kantor: 250. </p>
            <p>Material.</p>
            <p> 1420 specimens (RGM 1309784, RGM 1309785, RGM 1309786, RGM 1309811, RGM 1309812, RGM 1309813, RGM 1310229 -1310231, RGM 1310233 -1310237, RGM 1310239, RGM 1310240, LV 201501, LV 201502) . </p>
            <p>Type material.</p>
            <p>Not traced, most probably in ZIN (Vinarski and Kantor 2016).</p>
            <p>Type locality.</p>
            <p> "Im kapischen Meere, am Ufer der Insel Tschetschnja,  vorzüglich nLittorinimorphastwärs von der Insel im Meeresgrunde" (in the Caspian Sea, at the shores of Ostrov  Chechen’ , especially on the seafloor northeast of the island). </p>
            <p>Dimensions.</p>
            <p> 6.40  × 2.18 mm (RGM 1310237, Fig. 15A-C); 5.93  × 2.27 mm (LV 201501, Fig. 15D-F); 6.13  × 2.19 mm (LV 201502, Fig. 15G-I); 6.36  × 2.21 mm (RGM 1310230, Fig. 15J-L); 6.01  × 1.90 mm (RGM 1310231, Fig. 15M-O); 5.88  × 2.00 mm (RGM 1310233, Fig. 15P); 5.55  × 1.97 mm (RGM 1310236, Fig. 15Q). </p>
            <p>Description.</p>
            <p> Slender elongate shell, with up to nine convex whorls. Protoconch forms small bulbous cap, consisting of 1.3 whorls that measure 365  µm in diameter; surface weakly granulate, spiral striae set in after 0.5 whorls; nucleus is 140  µm wide; P/T boundary marked by thin, sharp axial line. Early teleoconch whorls have low convex profile. Two morphotypes are present: form A is broader, with whorls increasing slightly more in height (thus producing relatively larger last whorl) and little convex whorls; form B is more slender, whorls increase less fast in height in relation to width and whorl profile is stronger and more regularly convex. Both types are linked via intermediates. Generally, whorl profile varies between regularly convex (of varying strength), laterally flattened or bipartite (with near straight-sided upper half and convex lower half; rarely, transition between halves coincides with spiral thread). Suture is narrow. In some specimens, last whorl is slightly inflated and aperture is expanded. Traces of spiral sculpture, ranging from faint lines to blunt keels of variable number occur on several shells. Aperture expansion and sculpture are found on both morphotypes, as well as in intermediates. Umbilicus mostly covered by inner lip; if open, it is very narrow. Growth lines markedly sigmoidal, with prosocline upper third and opisthocline lower two-thirds. </p>
            <p>Discussion.</p>
            <p>The huge morphological variability with intergrading morphotypes complicates reasonable taxonomic distinctions within this taxon. Moreover, much of the shape variation (especially in later whorls) seems to be a result of shell repair after predator-induced damage.</p>
            <p> The variability also hampers linking our material to an existing name. Several species (and varieties) have been introduced for slender elongate, multi-whorled shells from the Caspian Sea. While the sculptured representatives can be fairly well delimited, the smooth-shelled taxa have caused considerable confusion. Particularly challenging are the many small, slender species with pointy apex, moderately to strongly convex whorls and thin peristome. The group includes (aside from  T. spica ):  T. elegantula (Clessin &amp; W. Dybowski in W. Dybowski, 1887),  T. turricula (B. Dybowski &amp; Grochmalicki, 1915),  T. nossovi (Kolesnikov, 1947),  T. concinna (Logvinenko &amp; Starobogatov, 1969),  T. spasskii (Logvinenko &amp; Starobogatov, 1969),  T. uralensis (Logvinenko &amp; Starobogatov, 1969) and  T. astrachanica (Pirogov, 1971).  Turricaspia lyrata (B. Dybowski &amp; Grochmalicki, 1915), which was originally introduced as subspecies of  T. spica , can be well delimited from that group because of its much larger, blunt apex. </p>
            <p> A major problem in identifying and discriminating those species is that the concepts applied by later authors occasionally diverge largely from the original perceptions. This especially regards  T. spica and the species described by B. Dybowski and Grochmalicki (1915). Unfortunately, the types for these species are not known for sure (Kantor and Sysoev 2006, Vinarski and Kantor 2016) and the original descriptions, drawings, and illustrations are mostly insufficient to allow distinction. Beyond that, different traits have been considered as diagnostic by different authors when describing new species, and morphological variability was hardly considered at all. </p>
            <p> The identity of  Turricaspia spica (sensu Eichwald) is dubious. The original description and illustration do not allow distinction from other similar species. The present specimens differ slightly from  T. spica sensu Kantor &amp; Sysoev, 2006, which is characterized by a faster whorl accretion rate and relatively higher whorls (including the last whorl). In contrast, our material largely fits the concept of  T. spica as used by B. Dybowski and Grochmalicki (1917). We tentatively classify the Selitrennoye specimens in  Turricaspia spica , being the oldest available name of the group. Many of the later proposed names might turn out to be junior synonyms. A more in-depth study is required to solve this problematic case. </p>
            <p>Distribution.</p>
            <p> Turricaspia spica is endemic to the Caspian Sea. After Logvinenko and Starobogatov (1969), it occurs at a water depth between 0 and 30 m, but those authors applied a different concept of the species. </p>
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	https://treatment.plazi.org/id/0E0A087A22CA55E3476B6AFC7FDBFB7C	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
718018AD19550683B1DF9444326200AC.text	718018AD19550683B1DF9444326200AC.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Ulskia Logvinenko & Starobogatov 1969	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Genus  Ulskia Logvinenko &amp; Starobogatov, 1969</p>
            <p>Type species.</p>
            <p> Caspia ulskii Clessin &amp; W. Dybowski in W. Dybowski, 1887; by original designation. Caspian Sea, Recent. </p>
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	https://treatment.plazi.org/id/718018AD19550683B1DF9444326200AC	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
06EC0E523252AEB291F060E577DCCD7A.text	06EC0E523252AEB291F060E577DCCD7A.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Ulskia ulskii (Clessin & W. Dybowski in W. Dybowski 1887)	<html xmlns:mods="http://www.loc.gov/mods/v3">
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            <p> Ulskia ulskii (Clessin &amp; W. Dybowski in W. Dybowski, 1887) Fig. 5A-K </p>
            <p> Ulskia ulskii *1887  Caspia Ulskii nob.; W. Dybowski: 38-39. </p>
            <p> Ulskia ulskii 1888 [  Caspia ]  Ulskii n. sp. - W. Dybowski: 79, pl. 3, fig. 8. </p>
            <p> Ulskia ulskii 1952  Caspia ulskii W. Dyb., 1888. - Zhadin: 205, fig. 205. </p>
            <p> Ulskia ulskii 1969  Pyrgula [(  Ulskia )]  Pyrgula nana Logvinenko &amp; Starobogatov: 379, fig. 367 (12). </p>
            <p> Ulskia ulskii 1969  Pyrgula [(  Ulskia )]  Pyrgula schorygini Logv. et Star. sp. n.; Logvinenko &amp; Starobogatov: 379, fig. 367 (11). </p>
            <p> Ulskia ulskii 1969  Pyrgula [(  Ulskia )]  Pyrgula ulskii (Cless. et W. Dyb.). - Logvinenko &amp; Starobogatov: 379, figs 367 (10). </p>
            <p> Ulskia ulskii 2006  Pyrgula nana Logvinenko et Starobogatov, 1968. - Kantor &amp; Sysoev: 101, pl. 47, fig. D. </p>
            <p> Ulskia ulskii 2006  Pyrgula schorygini Logvinenko et Starobogatov, 1968. - Kantor &amp; Sysoev: 103, pl. 45, fig. E. </p>
            <p> Ulskia ulskii 2006  Pyrgula ulskii (Clessin et W. Dybowski in W. Dybowski, 1888). - Kantor &amp; Sysoev: 104, pl. 45, fig. F. </p>
            <p> Ulskia ulskii 2016  Pyrgula nana Logvinenko et Starobogatov, 1968. - Vinarski &amp; Kantor: 240-241. </p>
            <p> Ulskia ulskii 2016  Pyrgula schorygini Logvinenko et Starobogatov, 1968. - Vinarski &amp; Kantor: 242. </p>
            <p> Ulskia ulskii 2016  Pyrgula ulskii (Clessin et W. Dybowski in W. Dybowski, 1888). - Vinarski &amp; Kantor: 244. </p>
            <p>Material.</p>
            <p> 19 specimens (RGM 1309790, RGM 1309810, RGM 1309856, RGM 1310208, LV 201506) . </p>
            <p>Type material.</p>
            <p>  "  Probable syntype ": ZIN 4608 /1. Holotype of  P. schorygini: ZIN 4357 /1. Holotype of P. nana not traced. </p>
            <p>Type locality.</p>
            <p> “Kaspi-See” (Caspian Sea, no further details mentioned). Type locality of  P. schorygini : Caspian Sea; off Apsheron Peninsula, 40°07.5'N, 50°57.5'E, WGS 84, 88 m (after Vinarski and Kantor 2016). Type locality of  P. nana : western part of the Caspian Sea, 70- 120 m. </p>
            <p>Dimensions.</p>
            <p> 2.05  × 1.13 mm (RGM 1309810, Fig. 5A, F, H, I); 2.16  × 1.16 mm (LV 201506, Fig. 5B, C, G); 2.12  × 1.10 mm (RGM 1309856, Fig. 5D, E); 2.12  × 1.23 mm (RGM 1309790, Fig. 5J, K). </p>
            <p>Description.</p>
            <p> Slender ovoid shell with up to 4.7 whorls. Protoconch broad, low dome-shaped, comprising 1.25 whorls that measure 365  µm ; nucleus is ca. 105  µm wide; protoconch surface finely but strongly malleate; pattern irregular on initial part and only partly present on nucleus; P/T transition marked by thin axial line and slight step in the upper suture. Teleoconch whorls slightly ton-shaped, weakly convex in abapical half and straight-sided or almost so in adapical half, followed by pronounced convexity at upper suture, producing slightly stepped spire. Last whorl attains ca. 61-66%, descends into steep, straight base. Aperture slender ovoid, slightly inclined, with faint adapical notch at contact to penultimate whorl. Peristome slightly thickened and expanded. In lateral view, outer lip exposes marked adapical indentation and very weak abapical indentation; columellar lip straight. Umbilicus narrow but always open. Growth lines weak but distinctly sigmoidal, with opisthocyrt upper half and prosocline lower half. In addition, faint spiral threads are visible on some shells. </p>
            <p>Discussion.</p>
            <p> Pyrgula schorygini Logvinenko &amp; Starobogatov, 1969 and  P. nana Logvinenko &amp; Starobogatov, 1969, both of which were also originally included in the subgenus  Pyrgula Ulskia , closely resemble this species. Logvinenko and Starobogatov (1969) did not discuss similarities or differences among the species involved, but their descriptions suggest they considered minor differences in whorl profile and suture depth sufficient to discriminate species. A similar range of variability is present in our sample as well and might rather reflect intraspecific variation. We thus consider the three species synonymous. </p>
            <p> Two more species were attributed to the subgenus  Pyrgula Ulskia by Logvinenko and Starobogatov (1969). The shell of  Caspia derzhavini (Logvinenko &amp; Starobogatov, 1969) is more slender and has more whorls.  Caspia behningi (Logvinenko &amp; Starobogatov, 1969) differs in its broader and distinctly conical shape. </p>
            <p>Distribution.</p>
            <p>Endemic to the Caspian Sea, reported from water depths between 45 and 120 m (Logvinenko and Starobogatov 1969).</p>
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	https://treatment.plazi.org/id/06EC0E523252AEB291F060E577DCCD7A	Public Domain	No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.		Pensoft via Plazi	Neubauer, Thomas A.;Velde, Sabrina van de;Yanina, Tamara;Wesselingh, Frank P.	Neubauer, Thomas A., Velde, Sabrina van de, Yanina, Tamara, Wesselingh, Frank P. (2018): A late Pleistocene gastropod fauna from the northern Caspian Sea with implications for Pontocaspian gastropod taxonomy. ZooKeys 770: 43-103, DOI: http://dx.doi.org/10.3897/zookeys.770.25365, URL: http://dx.doi.org/10.3897/zookeys.770.25365
