taxonID	type	description	language	source
874087C90617FB13ABFACFD5FDA3FB37.taxon	description	(Figs. 1 – 3)	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C90617FB13ABFACFD5FDA3FB37.taxon	materials_examined	Type locality. Precise type locality is unknown, but the most part of O. F. Müller’s material was collected from the ponds near Copenhagen “ Frederiksdal, located slightly north-west of Copenhagen between Fuersø and Bagsvaeds Sø ” (Frey 1980). Type material. Lost, as whole material of O. F. Müller (Frey 1980). Material examined. Several parthenogenetic females, ephippial females and males from Lake Gribsø (55.984606 ° N, 12.303347 ° E), Denmark, coll. D. B. Berner, August 1993. This material was preserved in sucroseformalin and in dilute formalin + glycerine. Other material examined. Five parthenogenetic females, 10 ephippial females, 2 males from Lake Dubrovskoje (58.56 ° N, 37.62 ° E), Darvin Reserve, Vologda Area, coll. V. I. Lazareva in September of 1995, AAK 2004 - 023; 5 parthenogenetic females, 5 ephippial females, 1 male from Kavgolovskoe Lake (60.1752 ° N, 30.5270 ° E), Leningrad Area, coll. A. V. Makrushin in 18.09.1985, NNS 2000 - 075.	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C90617FB13ABFACFD5FDA3FB37.taxon	description	Redescription. Parthenogenetic female (Figs. 1 – 2). General (Fig. 1 A). Body rounded in lateral view, typical for genus (body height / length = 0.68), maximum height in middle portion. Dorsum of valves broadly convex, with prominent dorsolateral depression between head and rest of body (Fig. 1 A). Posterodorsal angle well visible. Ventral margin broadly rounded, smoothly passing to anteroventral margin. No integumental setae on head and valves (Fig. 1 A). Body laterally compressed, elongated and subovoid in dorsal and ventral view. Head (Figs. 1 B – C) small, with short rostrum and voluminous supraocular dome surrounding large compound eye (Fig. 1 B). Posterior margin of dome forming depression. Minute ocellus slightly elongated, located near base of antenna I (Fig. 1 B). Frontal head pore not revealed (Fig. 1 C). Dorsal head pore absent (Fig. 1 B). Labrum (Fig. 1 B) with wide, fleshy main body and large, setulated distal labral plate. Valves (Figs. 1 A, D) large, almost rounded. From inner side, anteroventral and ventral margins with row of setae, covered by fine setulae (Fig. 1 D), posteriorly this row represented by only fine setulae (Fig. 1 E), although two or three short setae located in last one-third of ventral margin (Fig. 1 D). Caudal spine and lateral protuberances absent (Figs. 1 A, D). Thorax relatively long, abdomen short, with single abdominal projection. Postabdomen (Fig. 1 F) elongated, subrectangular. Ventral margin almost straight or slightly concave. Large anus located among base of postabdominal claws. Preanal margin long and slightly concave or straight (Fig. 1 F). Anal margin three times shorter than preanal margin. Preanal and anal margins with seven to nine pairs of sharp denticles twice longer than thickness of base of postabdominal claw, and provided with group of small setulae at base. Laterally, curved rows of small denticles located above row of spines on anal portion (Fig. 1 F). Small additional bunches of setulae located on dorsal and lateral sides of preanal portion. Postabdominal seta (Fig. 1 A) as long as postabdomen; its distal and proximal segments subequal in length. Distal segment covered by short fine setulae. Postabdominal claw (Fig. 1 F) massive, evenly curved, with particularly sharp, pointed tip. On outer side of claw with two successive pectens along dorsal margin, proximal one consisting of thin small denticles, distal one also of thin small denticles decreasing in length distally, with proximal ones larger than those of proximal pecten. Antenna I (Fig. 1 G) cylindrical, thin, short (length about 3 diameters), without prominent rows of setulae. Antennular sensory seta slender, twice longer than antennula body, arising subdistally from inflated protuberance (Fig. 1 G). Nine short aesthetascs subequal in size (Fig. 1 G). Antenna II long (Fig. 1 H). Coxal part with two equal sensory setae. Basal segment robust, covered by transverse rows of hairs, with distal sensory seta on anterior face. Antennal branches elongated with all segments cylindrical, covered by rows of short hairs; first endopod segment almost as long as first two exopod segments. Antennal formula: setae 0 - 0 - 1 - 3 / 1 - 1 - 3; spines 0 - 0 - 0 - 0 / 0 - 0 - 0. Both exopod and endopod branches with three long, apical swimming setae, all with basal and distal segments bilaterally feathered by fine, long setulae. Lateral setae of exopod and endopod with same armature. Apical spines absent. Thoracic limbs: five pairs (Figs. 2 A – G). Limb I (Fig. 2 A) with elongated corm; outer distal lobe with long seta unilaterally armed distally with short setulae and short thin seta. Inner distal lobe (or endite 5 sensu Kotov 2013), with three unequal setae (Fig. 2 A) armed with short stiff setulae. Endite 4 with single anterior seta (Fig. 2 A: 1) and two posterior setae (Fig. 2 A: a – b). Endite 3 with single anterior seta (Fig. 2 A: 2) and two posterior setae (Fig. 2 A: c – d). Endite 2 with single short anterior seta (Fig. 2 A: 3) and four posterior setae (Fig. 2 A: e – h). Two ejector hooks of similar size. No maxillar process on limb base (Fig. 2 A). Limb II (Figs. 2 B – C) large. Limb distal portion (exopodite) as large elongated lobe with two soft unequal setae. Endite 5 with single very small stiff anterior seta and two soft posterior setae (Figs. 2 B – C: a – b). Endite 4 with single stiff anterior seta four times longer than single anterior seta of endite 5, and single posterior soft seta (Figs. 2 B – C: c). Endite 3 with single anterior stiff seta two times shorter than single anterior stiff seta of endite 4. Endite 2 with single anterior stiff seta (represented by small sensillum), single posterior soft seta (Figs. 2 B – C: d) and small seta of unknown homology. Gnathobase (or endite 1) with two clear rows of setae. Anterior row includes small sensillum (Figs. 2 B – C: 1), long seta armed unilaterally by long setulae (Figs. 2 B – C: 2), shorter seta (Figs. 2 B – C: 3) also armed unilaterally by short setulae and very short and thin seta (Figs. 2 B – C: 4) in central part of “ filter plate ”. Posterior row consists of eight setae (Figs. 2 B – C: a – h). Limb III (Figs. 2 D – E) with ovoid epipodite. Exopodite flat, bearing two lateral setae (Fig. 2 D: 5 – 6) and four distal setae (Fig. 2 D: 1 – 4). Distal segment of seta 1 very thin (Fig. 2 D: 1). Innerdistal portion with five endites (Figs. 2 D – E). Endite 5 with two setae (Fig. 2 E: a – b). Endite 4 with two setae (Fig. 2 E: c – d). Endite 3 with single seta (Fig. 2 E: e). Endite 2 with two long setae (Fig. 2 E: f – g). Remainder of limb inner portion (endite 1) with single large lobe, bearing single anterior seta (Fig. 2 E: 1), two short stiff anterior setae and numerous posterior setae (Figs. 2 D – E). Limb IV (Fig. 2 F) with subovoid epipodite. Exopodite flat, broadly rounded with two lateral soft setae (Fig. 2 F: 5 – 6) and four distal soft setae (Fig. 2 F: 1 – 4). Inner distal portion of limb not subdivided into endites, distally with two short setae of unclear homology (Fig. 2 F: 1 – 2). Most of limb inner margin a gnathobase filter plate consisting of numerous posterior long setae (Fig. 2 F). Limb V (Fig. 2 G) with setulated preepipodite and large subovoid epipodite. Exopodite ovoid, with long distal seta, two short medial setae, and an especially large lateral seta (Fig. 2 G). Inner limb portion an ovoid flat lobe, with setulated inner margin and single, large seta (Fig. 2 G). Ephippial female (Fig. 3 A). General body shape and appendages of ephippial female appearing similar to those of parthenogenetic female (Fig. A). Dorsal portion of body in ephippial female transformed into ephippium, clearly bordered from rest of body. In lateral view, ephippium narrowing posteriorly. Dorsal margin slightly convex to almost straight; ventral margin regularly curved from posteroventral to anteroventral angle. Depression along dorsum separating two halves of ephippium well-visible. Sculpture of dorsal portion of ephippium represented by relatively thick small columns with branched tips (Kotov et al. 2018: figs. 7 a, d 8 c, e). Egg locule visibly extending laterally (Kotov et al. 2018: figs. 7 b, c). Ornamentation of egg locule represented by small columns with branched tips in lateral side and on central portion (Kotov et al. 2018: figs. 7 e – g). Posteroventral, ventral and anterior portions of ephippium covered by small tubercles with short processes (Kotov et al. 2018: fig. 7 g). Ephippium containing single resting egg. Male (Figs. 3 B – H). General (Fig 3 B). In lateral view body ovoid, more elongated compared to female (body height / length about 0.54). Dorsal margin of valves not elevated above head, posteroventral angle distinct. Head (Figs. 3 B – D) small and relatively longer than in female. Dorsal head pore absent. Compound eye large (Fig. 3 B). Ocellus slightly elongated, located near base of antenna I (Fig. 3 B). Valves (Fig. 3 B) ovoid, more elongated than that in female. Armature of inner side as in female. Postabdomen (Fig 3 E) generally as in female. Gonopores (Fig 3 E: gp) open laterally at beginning of distal onethird of postabdomen. Anal denticles as in female, but less numerous. Antenna I (Fig 3 F) long, straight, covered by prominent small stiff setae. Antennular sensory seta long, arising subdistally from antennular body. Male seta especially robust, located in distal portion of antennular body and three times longer than this. Nine terminal aesthetascs on opposite side to antennular sensory seta. Limb I (Fig. 3 G) with large, curved copulatory hook. ODL (exopodite) with two setae, one being especially long, bi-segmented, distal portion covered by fine short denticles. IDL (endite 5) additionally with short seta of unknown homology. Additional seta also located near anterior seta 1. Limb II (Fig. 3 H) with distal portion (exopodite) similar to female. Endite 5 with single small anterior stiff seta and two posterior soft setae (Fig. 3 H: a – b). Endite 4 with single anterior stiff long seta unilaterally armed distally with short setulae, and single posterior soft seta (Fig. 3 H: c). Endite 3 with single soft seta. Endite 2 with single anterior stiff seta (represented by small sensillum), single posterior soft seta (Fig. 3 H: d) and small seta of unknown homology. Gnathobase (or endite 1) similar to parthenogenetic female. Sexual dimorphism in structure of limb II in C. quadrangula present: anterior seta near posterior seta c in female represented by small stiff seta, as relatively long in male; endite 3 with short stiff seta in female, with relatively long, soft seta in male. Sexual dimorphism in structure of limb II previously found in some species of Daphnia and Simocephalus (see Kotov 2013). Size. Adult parthenogenetic females up to 1.2 mm in length; ephippial females up to 0.60 mm in length; adult males up to 0.53 mm in length. Variability. No significant variability was found in studied individuals from Denmark.	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C90617FB13ABFACFD5FDA3FB37.taxon	distribution	Distribution and ecology. Ceriodaphnia quadrangula sensu lato has been cited from all biogeographical regions: Palaearctic, Nearctic, Neotropical, Afrotropical, Oriental and Australasian zones (Kotov et al. 2013). However, in the frame of the non-cosmopolitanism concept in the cladoceran distributions, it is most likely, that the distribution of C. quadrangula sensu stricto is restricted to the western Palaearctic (mainly Northern and Central Europe and European part of Russia). Ceriodaphnia quadrangula is mainly planktonic and characteristic of large and medium-sized lakes with low mineralized and oligo-mesotrophic waters.	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C9061AFB21ABFACC4DFBA6FD77.taxon	description	(Figs. 4 – 13)	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C9061AFB21ABFACC4DFBA6FD77.taxon	etymology	Etymology. This new species is named after Prof. Nikolai N. Smirnov who passed away recently. He was Principal Scientist of the Laboratory for Ecology of Aquatic Communities and Invasions (A. N. Severtsov Institute of Ecology and Evolution, the Russian Academy of Sciences). He made a significant contribution to the development of zoological studies in the USSR and Russia and had a significant impact on zooplankton research in other countries.	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C9061AFB21ABFACC4DFBA6FD77.taxon	materials_examined	Type locality. Lucio del Cangrejo, Doñana National Park (37.031586 ° N; 6.276917 ° W), Huelva, Spain, coll. M. Alonso, January 2019. Type material. Holotype. Adult ephippial female in 4 % formaldehyde deposited at the collection of MNCN (accession number: 20.04 / 12449). The label of holotype is: “ Ceriodaphnia smirnovi sp. nov., 1 eph. ♀. Lucio del Cangrejo, Parque Nacional Doñana, Huelva, España, Holotipo ”. Allotype. Adult male in 4 % formaldehyde deposited at the collection of MNCN (accession number: 20.04 / 12450). The label of allotype is: “ Ceriodaphnia smirnovi sp. nov., 1 ♂. Lucio del Cangrejo, Parque Nacional Doñana, Huelva, España, Alotipo ”. Paratypes. Nine undissected parthenogenetic females, 10 undissected males, 10 undissected ephippial females in 4 % formaldehyde deposited at the collection of MNCN (accession numbers: 20.04 / 12451 - 20.04 / 12479). The label of the paratypes is: “ Ceriodaphnia smirnovi sp. nov. Lucio del Cangrejo, Parque Nacional Doñana, Huelva, España, Paratipos ”. Other material studied. Thirty parthenogenetic females, 25 ephippial females and 15 males from a peanut field with sandy pools El Frine 1 (36.838153 ° N; 8.422069 ° E), Algeria, coll. S. Ghaouaci & M. Amarouayache, 18.01.2014, AAK 2016 - 007; 10 parthenogenetic females, 5 ephippial females, 2 males from Pozza di Buccheri (37.11994 ° N; 14.8554 ° E), Sicily, Italy, coll. F. Marrone, 03.04.2010, AAK M- 5311; 10 parthenogenetic females, 10 ephippial females, 10 males from Margio di Anguillara (37.85847 ° N; 12.92082 ° E), Sicily, Italy, coll. F. Marrone, 02.03.2014, AAK M- 5314.	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C9061AFB21ABFACC4DFBA6FD77.taxon	description	Description. Parthenogenetic female. General (Figs. 4 A, 8 A). Body rounded in lateral view, typical for genus (body height / length = 0.70), maximum height in middle portion. Dorsum of valves significantly elevated under head, broadly convex, with prominent dorsolateral depression between head and rest of body (Figs. 4 A, 8 A). Posterodorsal angle well visible. Ventral margin broadly rounded, smoothly passing to anteroventral margin. Very prominent sculpture on body represented by polygons. Each polygon with tiny warts (Figs. 8 F, 9 A – B). No integumental setae on head and valves (Figs. 8 B, E). Small pseudopores present on valves (Figs. 9 A – B) and on head shield at level of antenna II. Body laterally compressed, elongated and subovoid in dorsal and ventral view. Head (Figs. 4 A – B, 8 A – D) small, with prominent rounded rostrum and voluminous supraocular dome surrounding large compound eye (Figs. 4 A – B). Posterior margin of dome forming supraocular depression. Minute ocellus rounded, located near base of antenna I (Figs. 4 A – B). Frontal head pore not revealed. Dorsal head pore round, prominent, located very close to dorsal head depression (Fig. 4 A). Ornamentation of head is represented by polygons with tiny warts (Figs. 8 B – D). Labrum (Fig. 4 B) with wide, fleshy main body and large, setulated distal labral plate strongly compressed laterally. Valves (Figs. 4 C – D, 8 E – F, 9 A – D) large, almost rounded. On inner side, anteroventral margin with row of short setae followed by short group of longer setae in ventral margin (Figs. 4 C – D), posteriorly this row represented by only fine setulae until last one-third of ventral margin where two or three short plumose setae appear (Figs. 4 C – D, 9 D). Caudal spine and lateral protuberances absent (Figs. 4 A, C, 8 A). Thorax relatively long, abdomen short, with single abdominal projection (Fig. 4 A). Postabdomen (Figs. 4 E, 9 E) elongated, subrectangular. Ventral margin almost straight or slightly concave. Large anus located closer to base of postabdominal claws. Preanal margin long, slightly concave or straight. Anal margin two times shorter than preanal margin. Postanal margin very short, typical for Ceriodaphnia. Preanal and anal margins with eight to ten pairs of sharp denticles approximately as long as thickness of base of postabdominal claw. Base of each denticle covered by fine setulae. Also, row of clusters of fine setulae located above row of denticles on anal portion and gradually continuing to preanal portion. Small additional clusters of setulae on dorsal and lateral sides of preanal portion. Postabdominal seta (Fig. 4 E) as long as postabdomen. Postabdominal claw (Figs. 4 E, 9 E) massive, slightly curved, with particularly sharp, pointed tip. Lateral side on ventral margin with row of fine denticles on outer face and row of fine denticles on inner face (Fig. 9 E). Denticles of both rows decreasing in size distally. Antenna I (Figs. 4 A – B, 8 B, D) cylindrical, thin, short (length about 2.5 diameters), without prominent rows of setulae. Antennular sensory seta slender, subequal in length to antenna I, arising subdistally on inflated protuberance. Nine short aesthetascs subequal in size (Figs. 4 A – B, 8 B, D). Antenna II long (Figs. 4 A, F, 8 A, E). Coxal part with two sensory setae of different length. Basal segment robust, with thin distal seta on anterior face and relatively short distal sensory seta on posterior face. Basal segment covered by transverse rows of setae. Antennal branches elongated, four-segmented exopod is slightly shorter than three-segmented endopod, all segments cylindrical, covered by rows of short setulae, in some cases, relatively long setae. Antennal formula: setae 0 - 0 - 1 - 3 / 1 - 1 - 3, spines 0 - 1 - 0 - 0 / 0 - 0 - 0. Both exopod and endopod branches with three long, apical swimming setae, all with basal and distal segments bilaterally feathered by fine, long setulae. Lateral setae of exopod and endopod with same armature. Spine on second exopod segment short, thin. Apical spines absent. Thoracic limbs: five pairs (Figs. 5 A – E). Limb I (Fig. 5 A) with elongated corm; outer distal lobe with long seta, unilaterally armed distally with short setulae and short thin seta. Inner distal lobe (or endite 5 sensu Kotov 2013), with three unequal setae armed with short stiff setulae. Endite 4 with single anterior seta (Fig. 5 A: 1) and two posterior soft setae (Fig. 5 A: a – b). Endite 3 with single anterior seta (Fig. 5 A: 2) and two posterior soft setae (Fig. 5 A: c – d). Endite 2 with single short anterior seta (Fig. 5 A: 3) and four posterior soft setae (Fig. 5 A: e – h). Two ejector hooks of different size. No maxillar process on limb base (Fig. 5 A). Limb II (Fig. 5 B) large. Limb distal portion (exopodite) as large elongated lobe with two soft unequal setae. Endite 5 with single very small anterior stiff seta (represented by small sensillum) and two posterior soft setae (Fig. 5 B: a – b). Endite 4 with single very long anterior stiff seta and single soft posterior seta (Fig. 5 B: c). Endite 3 with single stiff anterior seta. Endite 2 with single soft seta (Fig. 5 B: d). Gnathobase (or endite 1) with two clear rows of setae. Anterior row represented by four elements (Fig. 5 B: 1 – 4), posterior row consisting of eight setae (Figs. 5 B: a – h). Limb III (Fig. 5 C) with large setulated subovoid preepipodite and ovoid epipodite. Exopodite flat, with two lateral setae (Fig 5 C: 5 – 6) and four distal setae (Fig 5 C: 1 – 4). Distal segment of setae 1 and 2 with especially short stiff setulae. Innerdistal portion with five endites. Endite 5 with two setae (Fig 5 C: a – b). Endite 4 with two setae (Fig 5 C: c – d). Endite 3 with single seta (Fig 5 C: e). Endite 2 with two long setae (Fig 5 C: f – g). Remainder of limb inner portion (endite 1) as a singular large lobe, with single anterior seta (Fig 5 C: 1), two anterior sensillae and numerous posterior setae with short stiff setulae. Limb IV (Fig. 5 D) with large setulated ovoid preepipodite and subovoid epipodite. Exopodite flat, broadly rounded with two lateral soft setae (Fig. 5 D: 5 – 6) and four distal soft setae (Fig. 5 D: 1 – 4). Inner distal portion of limb not subdivided into endites, distally with two short setae of unclear homology (Fig. 5 D: a – b). Most of limb inner margin a gnathobase filter plate consisting of numerous posterior long setae. Limb V (Fig. 5 E) with setulated preepipodite and large subovoid epipodite. Exopodite triangular supplied with two long distal setae and especially large lateral seta. Inner limb portion an ovoid flat lobe, with setulated inner margin and single, large seta. Ephippial female (Figs. 6 A – B, 7 A – B, 10 A – G, 11 A – G). General body shape and appendages of ephippial female appearing similar to those of parthenogenetic female (Figs. 6 A – B, 7 A – B, 10 A – G, 11 A – G). Dorsal portion of body in ephippial females transformed into ephippium, bordered from rest of body. In lateral view, ephippium narrowing posteriorly (Figs. 6 A, 7 A – B, 10 A, G, 11 A – B). Dorsal margin straight; ventral margin regularly curved from posteroventral to anterior margin, almost perpendicular to dorsal margin. Depression along dorsum separating two halves of ephippium well-visible. Sculpture of dorsal portion of ephippium represented by relatively thick small columns with branched tips (Figs. 6 A – B, 7 A – B, 10 G, 11 C). Egg locule visibly extending laterally (Figs. 6 B, 10 A). Ornamentation of egg locule represented by small columns with branched tips in lateral side and by small tubercles on central portion (Figs. 11 A – G). Posteroventral, ventral and anterior portions of ephippium covered by small tubercles with short processes. Ephippium containing single resting egg (Figs. 6 A, 10 A, G, 11 A, B). Pre-ephippial female (Figs. 12 A – D). Details of body shape and structure in pre-ephippial female similar to parthenogenetic and ephippial females. In contrast to parthenogenetic female, dorsal portion of valves in preephippial female already different from ventral portion by more fine and delicate reticulation (Figs. 12 A, D). In contrast to ephippial female, dorsal portion of valves in preephippial female lack any traces of tubercles and processes, although position of future egg locule well visible (Fig. 12 D). Male (Figs. 6 C – F, 13 A – G). General (Figs. 6 C, 13 A). Body ovoid in lateral view, more elongated compared to female (body height / length about 0.56). Dorsal margin of valves not elevated above head, posteroventral angle distinct. Head (Figs. 6 C, 13 A, C) small, more elongated than in female. Dorsal head pore present (Fig. 6 C). Compound eye large (Fig. 6 C). Ocellus rounded or slightly elongated, located near base of antenna I (Fig. 6 C). Valves (Figs. 6 C, 13 A, C) ovoid, more elongated than in female. Armature of inner side as in female. Postabdomen (Figs. 6 D, 13 G) generally as in female. Gonopores (Fig 6 D: gp) open laterally at beginning of distal third of postabdomen. Antenna I (Figs. 6 C, 13 D – E) long and straight, covered by small stiff setae. Antennular sensory seta long, arising subdistally from antennular body. Male seta two times longer than antennular body. Nine terminal aesthetascs on opposite side to antennular sensory seta. Limb I (Fig. 6 E) with large, curved copulatory hook with pointed apex. ODL (exopodite) with two setae, one especially long, bi-segmented, its distal portion covered by fine short denticles. IDL (endite 5) additionally with short seta of unknown homology. Additional seta also located near anterior seta 1. Ejector hooks of same size. Limb II (Fig. 6 F) with distal portion (exopodite) similar to female. Endite 5 with single relatively small stiff anterior seta (represented by sensillum) and two soft posterior setae (Fig. 6 F: a – b). Endite 4 with single anterior stiff long seta unilaterally armed distally with short setulae and single posterior soft seta (Fig. 6 F: c). Endite 3 with single medium size soft seta. Endite 2 with single soft seta (Fig. 6 F: d) and small seta of unknown homology. Gnathobase (or endite 1) similar to parthenogenetic female. Size. Adult parthenogenetic females 0.50 – 0.99 mm in length; ephippial females up to 0.92 mm in length; adult males 0.50 – 0.70 mm in length. Juvenile females to 0.50 mm in length. Holotype 0.90 mm in length; allotype 0.68 mm in length. Variability. No significant variability was found in studied individuals from the Mediterranean region.	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C9061AFB21ABFACC4DFBA6FD77.taxon	diagnosis	Differential diagnosis. In Spain, Ceriodaphnia smirnovi sp. nov. can be easily distinguished from other recorded species (Alonso 1996) by the presence of dorsal head pore, pseudopores on the body and specific ornamentation of ephippium. Egg locules are significantly expanded laterally and well visible even under light microscope (Fig. 6 B). Also, thick small columns on the dorsal portion and on the lateral surface of egg locule are visible. Among European species of Ceriodaphnia studied recently by Kotov et al. (2018), the ephippia of C. smirnovi sp. nov. shares some characteristics with C. quadrangula (O. F. Müller, 1785), such as the presence of columns bearing branched tips (Kotov et al. 2018: p. 113, figs. 7 a – h), and with C. rotunda (Straus, 1820) sensu Sars, 1862 by the presence of small tubercles with short processes on posteroventral, ventral and anterior portions (Kotov et al. 2018: p. 111 – 112, figs. 7 a – f). However, combinations of these elements are unique for C. smirnovi sp. nov.	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C9061AFB21ABFACC4DFBA6FD77.taxon	discussion	Discrimination of C. smirnovi sp. nov. from other species based on male morphology seems problematic, because there is little reliable information on males for other species of Ceriodaphnia, especially from type localities. However, we expect that morphological features of males will be very useful in the taxonomy of Ceriodaphnia by analogy with daphniids (e. g. Hudec 2010; Kotov 2013) and moinids (e. g. Hudec 2010; Kotov 2013; Alonso et al. 2019). Identification of C. smirnovi sp. nov. based only on parthenogenetic females may be problematic. Significance of all features used in the standard keys should be reevaluated in the future based on type material. We recommend examining: (1) presence of dorsal head pore; (2) shape and armature of the postabdomen (as in the C. quadrangula species group); (3) proportions of stiff anterior setae on limb II (this feature seems significant based on brief analysis of figures from Alonso 1996). Here we found, that limb II in parthenogenetic female of C. quadrangula bears very short anterior setae on endites 4 and 3, whereas in C. smirnovi sp. nov. these setae are especially long and prominent.	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C9061AFB21ABFACC4DFBA6FD77.taxon	distribution	Distribution and ecology. Currently, C. smirnovi sp. nov. is known only from Spain (Alonso 1996), Algeria (Ghaouaci et al. 2018), Greece (Marrone et al. 2019) and Italy. Thus, the distribution of C. smirnovi sp. nov. must be clarified in the future based on analysis of material from more sampling points, although, most likely, it is restricted by the Mediterranean region.	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C9061AFB21ABFACC4DFBA6FD77.taxon	biology_ecology	The characteristic habitats of C. smirnovi sp. nov. are shallow permanent and / or temporary lagoons in dry regions. Euryhaline waters, with sufficient salt concentrations are relatively important for C. smirnovi sp. nov., although it also can occur in low mineralized waters. Water can be clear or turbid as a result of suspended clay.	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
874087C9061AFB21ABFACC4DFBA6FD77.taxon	discussion	Genetic analyses. From the initially amplified 50 individuals we successfully sequenced 37 individuals for 16 S that together with 49 sequences retrieved from GenBank resulted in 11 different clades (Fig. 14), of which 6 correspond to currently described species. We also sequenced 23 individuals for COI that together with 266 sequences retrieved from GenBank resulted in 12 clades (Fig. 15), of which 10 correspond to currently described species. Amongst these 10 species, we were unable to morphologically verify C. dubia, C. spinata and C. silvestrii. In both 16 S and COI phylogenetic trees, deep branches had low to moderate support with BI and ML analyses, being not fully concordant within markers or between markers. On the contrary, the distinction of the different clades / species had a very strong support in both phylogenetic trees. The mean genetic distance among the clades was substantial, being 13 ± 2.3 % (mean ± SD) for 16 S and 20.7 ± 2.1 % for COI, while the mean within group distance was 3.6 ± 3.2 % and 6.2 ± 3.6 %, respectively. Overall we distinguished 16 different lineages, corresponding to 11 described species and to five undescribed species. In addition, five species had large intraspecific variability: C. megops, C. cornuta / C. rigaudi, C. spinata, C. reticulata and C. quadrangula for one or both markers (e. g. genetic distance> 7 % for COI and> 5.6 % for 16 S). Also, most of the species had more than one molecular BIN in the BOLD database (overall we found 24 different BINS; Table 2). This suggests that within most species there are possibly two or more different species and therefore most species included in the phylogenetic analyses of this study should be considered as species groups. Within the 315 sequences retrieved from GenBank we found 7.3 % of them which were likely wrongly identified and 28.7 % that were not identified that fit within one of the lineages.	en	Alonso, Miguel, Neretina, Anna N., Ventura, Marc (2021): Ceriodaphnia smirnovi (Crustacea: Cladocera), a new species from the Mediterranean Region, and a phylogenetic analysis of the commonest species. Zootaxa 4974 (1): 1-46, DOI: https://doi.org/10.11646/zootaxa.4974.1.1
