identifier	taxonID	type	CVterm	format	language	title	description	additionalInformationURL	UsageTerms	rights	Owner	contributor	creator	bibliographicCitation
B26C3D16B711FFE3B9A31219FC4FFBF8.text	B26C3D16B711FFE3B9A31219FC4FFBF8.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Delamarella Chappuis 1954	<div><p>GENUS DELAMARELLA CHAPPUIS, 1954 DELAMARELLA OBSCURA SP. NOV.</p> <p>Synonym: Delamarella karamani Petkovski, 1957 sensu Apostolov (1969).</p> <p>Type locality: Filyos beach, Hisarönü, Zonguldak province (station 14) (Turkey).</p> <p>Type material: Holotype adult ♀ dissected on 3 slides (deposited in NHM, reg. no. 2005.167). Paratypes are (1) 1 adult ♂ dissected on 5 slides (deposited in NHM, reg. no. 2005.168), (2) 4 Cop V ♀♀, 1 Cop IV ♀ and 2 Cop V ♂♂ preserved in alcohol; and 1 adult ♀ dissected on 4 slides (deposited in BU). Collected on 7 July 2001 from type locality; leg. S. Karaytuǧ and S. Sak.</p> <p>Other material: (1) From Göbü beach, Hisarönü, Zonguldak province (station 12), Turkey (leg. S. Karaytuǧ and S. Sak; 7 July 2001): 4 adult ♀♀ and 1 adult ♂ preserved in alcohol (deposited in NHM, reg. no. 2005.169–173); 3 adult ♀♀, 1 adult ♂, 6 Cop V ♀♀, 2 Cop IV ♀♀, 1 Cop V ♂ all preserved in alcohol, 1 ♂ dissected on 1 slide (deposited in BU); (2) from Türkali beach, Hisarönü, Zonguldak province (station 13), Turkey (leg. S. Karaytuǧ and S. Sak; 7 July 2001): 2 adult ♀♀, 1 adult ♂, 3 Cop V ♀♀ and 1 Cop V ♂ preserved in alcohol (deposited in NHM, reg. no. 2005.174–180); (3) from Kapısuyu beach, Kurusacile, Bartin province (station 17), Turkey (leg. S. Karaytuǧ and S. Sak; 8 July 2001): 4 ♀♀ preserved in alcohol (deposited in NHM, reg. no. 2005.181–185); (4) from Inebolu beach, Inebolu, Kastamonu province, Turkey (leg. S. Karaytuǧ and S. Sak; 8 July 2001): various specimens (deposited in BU).</p> <p>Description</p> <p>Female: Total body length: 420–520 µm (mean = 487 µm; N = 10). Maximum width measured at cephalothorax. P1-bearing somite completely incorporated in cephalosome forming a cephalothorax (Fig. 1A, B). P2-bearing somite separated from cephalothorax by large intersomitic membranous zone. Posterior margin of cephalothorax and pedigerous somites with plain hyaline frill (Fig. 1A, B); hyaline frill of urosomites with denticulate hyaline frill dorsally and ventrally (Figs 2B, 3A). Rostrum (Fig. 1A) very small, fused to cephalic shield; with 2 delicate sensillae.</p> <p>Genital somite (Figs 1A, B, 2B) completely free from first abdominal somite. Genital field (Figs 3C, G, 11A) small, positioned far anteriorly on midventral surface of genital somite, flanked by 2 pairs of secretory pores; consisting of 2 closely set crescent-shaped opercula derived from P6 and closing off paired genital apertures, without armature; copulatory pore internal (arrowed in Fig. 3G). All postgenital somites with transverse spinular rows as illustrated in Figure 2B; no distinct ornamentation dorsally. Anal operculum spinulose, with 20–30 small spinules (Figs 3A, 7A); anal frill deeply serrated, setulose, largely covered by anal operculum (Fig. 3A).</p> <p>Caudal rami (Figs 2B, 3A, 7A) slightly divergent; partly concealed beneath anal operculum; longer than wide; ventral surface with pore near proximal margin and tube-pore subdistally; inner margin with row of fine long setules running on to dorsal surface; dorsal surface with oblique row of strong spinules, increasing in size abaxially; posterior margin smooth dorsally, with strong spinules ventrally. Ramus with 7 setae: seta I relatively well developed; setae II and III spiniform and finely pinnate, with subapical flagellate extension; setae IV and V well developed, bipinnate, with fracture planes; seta VI short and bare; seta VII plumose and tri-articulate at base.</p> <p>Antennule short (Fig. 1A, B), typically 9-segmented (Fig. 3E) but boundaries between segments 7 and 9 frequently not clearly expressed (Fig. 8A); segment 1 with pinnate seta near anteriolateral corner. Armature formula: 1-[1], 2-[7 + 2 pinnate], 3-[6], 4- [3 + (1 + ae)], 5-[2], 6-[3 + 1 pinnate], 7-[2], 8-[2], 9-[6 + (1 + ae)].</p> <p>Antenna (Fig. 3F) consisting of coxa, basis, 1- segmented exopod and 2-segmented endopod; basis and proximal endopod segment incompletely separated. Coxa with spinules along distal margin. Basis and proximal endopod segment incompletely fused, original boundary being represented by surface furrow (Fig. 8B) but not by functional articulation; each segment with bipinnate seta. Free endopod with spinules along abexopodal margin; lateral armature consisting of 2 pinnate spines and 1 seta (Fig. 3F: inset); distal armature consisting of 1 simple and 4 geniculate setae, longest one of which fused basally to long sparsely pinnate seta. Exopod 1-segmented; with 3 curved unipinnate spines laterally and 1 strong pinnate spine apically.</p> <p>Mandible (Figs 4A, 9A) with well-developed gnathobase provided with series of small, curved teeth and pinnate seta at dorsal corner. Palp uniramous, consisting of basis and endopod. Basis with 1 naked and 2 pinnate setae. Endopod 1-segmented, with 2 lateral and 6 terminal setae.</p> <p>Labrum well developed, with transverse spinule row along free ventral margin and median tuft of setules on anterior surface (Fig. 8C).</p> <p>Maxillule (Fig. 4B). Praecoxal arthrite with 2 tubesetae on anterior surface; distal margin with 8 strong spines. Coxal endite with 2 naked setae and 1 geniculate spine. Basis with 2 geniculate, 2 bipinnate and 3 naked setae. Endopod and exopod defined at base, with 3 naked setae each.</p> <p>Maxilla (Figs 4C–D, 9B). Syncoxa with 3 endites and 2 spinular rows; proximal endite with 4 setae, middle endite with 2 setae and large backwardly directed unipinnate spine, distal endite with 1 naked and 2 pinnate setae; posterior surface with slit-like opening of maxillary gland (arrowed in Fig. 9B). Allobasis with 2 naked setae and 2 serrate spines. Endopod 2-segmented; enp-1 with 2 serrate spines; enp-2 with 1 serrate spine and 3 naked setae.</p> <p>Maxilliped (Figs 4E, 9C) prehensile, comprising syncoxa, basis and 1-segmented endopod. Syncoxa with 3 spinular rows and 1 pinnate seta. Palmar margin of basis with row of strong spinules anteriorly, row of finer spinules posteriorly and 2 setae (smaller one with tubular extension; arrowed in Fig. 4E). Endopod with small sclerite at base; drawn out into strong, curved claw bearing 3 accessory setae.</p> <p>P1 (Figs 5A, 9D, 10A, B). Protopod with accessory sclerite positioned dorsally to praecoxa (arrowed in Fig. 9D). Praecoxa represented by a well-developed sclerite with spinular row on anterior surface. Coxa with spinular row anteriorly and posteriorly as figured. Intercoxal sclerite with fine spinular rows anteriorly. Basis with pinnate spine (with subapical flagellate extension) at outer distal corner and inner unipinnate spine; anterior surface with strong spinules around distal margin. Exopod 3-segmented; exp-1 and -2 with outer unipinnate spine and covered with coarse spinules around outer and distal margins; exp-3 small, with 2 unipinnate geniculate spines and 2 long bare setae; boundary between exp-2 and -3 not always clearly defined (Fig. 10B) but more clearly expressed when exp-3 withdrawn into exp-2 (Fig. 10A). Endopod 2-segmented; enp-1 elongate, about twice longer than wide, with serrate inner seta, outer and distal margins spinulose; enp-2 very small, with geniculate claw and very long naked seta apically.</p> <p>P2–P4 (Fig. 5B–D) with 3-segmented exopods and endopods. Intercoxal sclerites with concave ventral margin, without surface ornamentation. Praecoxa represented by well-developed sclerite with anterior spinular row. Coxa with spinular row on posterior surface. Basis with pinnate outer seta (P3–P4) or flagellate outer spine (P2). Exopods longer than endopods. Exopodal segments with coarse spinules along outer and distal margins and without spinules/setules along inner margin. Endopodal segments with coarse spinules along outer (enp-1,2) and distal (enp-1,2,3) margins. P2–P3 (Fig. 5B, C) with serrate inner seta on enp-1 and -2; distal margin of enp-3 with outer pinnate spine and inner plumose seta. P4 enp-1 (Fig. 5D) expanded, with robust unipinnate spine at inner subdistal corner; enp-2 without any spines or setae; enp- 3 with 2 pinnate spines apically.</p> <p>P1–P4 armature formula:</p> <p>Exopod Endopod P1 0.0.022 1.020</p> <p>P2 0.1.022 1.1.020 P3 0.1.022 1.1.020 P4 0.0.022 [modified in ♂] 1.0.020</p> <p>P5 (Figs 2B, 3C). Fifth pair of legs fused medially; baseoendopod and exopod forming a common plate; basal seta plumose, arising from a prominent setophore. Exopodal lobe with 2 long biserrate spines, 1 short spinulose spine and 1 bare seta; endopodal lobe with a strong serrate spine medially and 2 short spinulose spines.</p> <p>Male: Total body length: 440–500 µm (mean = 471 µm; N = 4). Sexual dimorphism in antennule, caudal rami and P4–P6.</p> <p>Antennule (Figs 6A–C, 8D) haplocer with 5 segments distal to geniculation; indistinctly 13- segmented; boundaries between segments 11 and 13 expressed only dorsally (Fig. 6A), completely fused ventrally (Fig. 8D). Segment 5 small, represented by small U-shaped sclerite. Segment 6 with long aesthetasc fused basally to seta. Segment 8 with denticulate anteriodorsal margin, 1 naked seta, 1 basally fused pinnate seta (with tubular extension) and 1 modified element. Segment 9 with 3 modified elements. Segments 11–13 forming claw-like compound segment with most setae arranged around posterior margin (Fig. 8D). Armature formula 1-[1 pinnate], 2-[1], 3-[8], 4-[6], 5-[1 + 1 pinnate] 6-[4 + 1 pinnate + (1 + ae)], 7-[2], 8-[1 + 1 pinnate + 1 modified], 9-[3 modified], 10-[1], 11-[2], 12-[2], 13-[5 + (2 + ae)]. Modified elements on segments 8 and 9 with longitudinally ribbed surface and fused basally to segment (Fig. 8D).</p> <p>Caudal rami (Figs 2A, 3D) with large cup-shaped pore ventrally halfway along ramus length (arrowed in Fig. 3D).</p> <p>P4 (Figs 6D, 10C) with strongly modified exopod; exp-1 and -2 expanded, exp-3 reduced forming clawlike segment. Exp-1 rectangular, about 1.4 times as long as maximum width, with long unipinnate outer spine; distal margin and outer distal corner with strong spinules. Exp-2 forming central socket for exp- 3; outer distal corner produced into lobate process (B) and spiniform outgrowth (D); outer spine strongly reduced, represented by small triangular element arising from posterior surface (A). Exp-3 outwardly recurved (C), forming functional grasping device with exp-2; with 3 setiform elements arranged around the inner margin. Endopod relatively longer and more slender than in ♀ enp-1 not expanded as in ♀ and lacking inner spine; outer distal spine on enp-3 comparatively longer than in ♀.</p> <p>P5 (Figs 2A, 6E, 7D, 10D, 11B) essentially as in ♀ except middle endopodal spine relatively longer and with smaller hyaline flanges.</p> <p>Sixth pair of legs (Figs 2A, 11B) strongly asymmetrical, with both members fused to genital somite and bearing 1 short bare and 1 long plumose seta; largest member functional one, inner portion rounded and with denticulate free margin. Spermatophore moderately large, about 80 µm.</p> <p>Etymology. The specific epithet alludes to the small differences between the new species and its mediterranean congeners.</p></div> 	https://treatment.plazi.org/id/B26C3D16B711FFE3B9A31219FC4FFBF8	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.		Plazi	Huys, Rony;Karaytuǧ, Süphan;Cottarelli, Vezio	Huys, Rony, Karaytuǧ, Süphan, Cottarelli, Vezio (2005): On the synonymy of Delamarella Chappuis and Latiremus Bo | ic (Copepoda, Harpacticoida, Latiremidae), including the description of D. obscura sp. nov. from the Black Sea. Zoological Journal of the Linnean Society 145 (3): 263-281, DOI: 10.1111/j.1096-3642.2005.00188.x, URL: https://academic.oup.com/zoolinnean/article-lookup/doi/10.1111/j.1096-3642.2005.00188.x
B26C3D16B718FFE4B9761533FE87FE4D.text	B26C3D16B718FFE4B9761533FE87FE4D.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Delamarella galateae Cottarelli 1971	<div><p>DELAMARELLA GALATEAE COTTARELLI, 1971</p> <p>Originally described from Sardinia (Cottarelli, 1971), the species has now also been found on mainland Italy (Sorrento area).</p> <p>Type locality: Italy, Sardinia, north coast, beach near mouth of Rio de li Saldi, 200 m upstream.</p> <p>Material examined: (1) From type locality: 1 ♀ dissected on slide; leg. V. Cottarelli, 25 February 1999; deposited in NHM, reg. no. 2005.186; (2) south of Salerno, mouth of Torrente Asa, near the village of Pontecagnano Faiano: 2 ♀♀ on slide, 1 ♀ and 1 ♂ on slide, 4 ♂♂ each on 1 slide; all specimens mounted in toto; leg. V. Cottarelli, 20 November 1972; deposited in NHM, reg. nos. 2005.187–194; (3) several specimens from rivermouth of Rio Posada, Nuoro Province, western Sardinia; leg. V. Cottarelli.</p> <p>Additional observations</p> <p>Female: Anal operculum spinulose, with 7–10 large spinules (Fig. 7B). Caudal ramus with dorsal spinules at inner distal corner and around base of seta VII; the oblique ventral setule row figured by Cottarelli (1971: Tav. I-3, left ramus only) is absent but some fine long setules are present along the inner margin; ventral surface with pore near proximal margin and tube-pore subdistally; ramus with 7 setae as in D. obscura.</p> <p>Antennule clearly 9-segmented; armature formula as in D. obscura.</p> <p>Antenna (Fig. 7C). Basis and proximal endopod segment incompletely separated; abexopodal seta of proximal endopod segment much shorter than that on basis; armature of distal endopod segment as in D. obscura.</p> <p>Mandibular endopod with 6 apical setae instead of 5 as figured by Cottarelli (1971: Tav. II-2).</p> <p>Maxillule and maxilla as in D. obscura.</p> <p>Maxilliped less slender than figured by Cottarelli (1971: Tav. II-8); basis with additional seta on palmar margin and spinule row on posterior surface; endopodal claw more elongate than in original description.</p> <p>P1 exopod 3-segmented; exp-1 and -2 with outer unipinnate spine and covered with coarse spinules around outer and distal margins; exp-3 small, with 2 unipinnate geniculate spines and 2 long bare setae; boundary between exp-2 and -3 not always clearly defined. Endopod 2-segmented; enp-1 with serrate inner seta [overlooked in Cottarelli (1971: Tav. III-1,4)].</p> <p>P2–P3 exp-2 with plumose inner seta [overlooked in Cottarelli (1971: Tav. III-2,6)].</p> <p>P1–P4 armature formula and detailed morphology of P5 as in D. obscura.</p> <p>Male: Caudal rami with large cup-shaped pore ventrally halfway along ramus length.</p> <p>Antennule haplocer with 5 segments distal to geniculation; indistinctly 13-segmented; boundaries between segments 11 and 13 expressed only dorsally, completely fused ventrally. Segment 5 small, represented by small U-shaped sclerite. Segment 6 with long aesthetasc fused basally to seta. Armature formula as in D. obscura.</p> <p>P4 closely resembling condition in D. obscura but distal seta on exp-3 shorter.</p> <p>P5 (Fig. 7E) essentially as in D. obscura except that exopodal spines are longer and more slender, and middle endopodal spine has long spinules instead of being denticulate.</p> <p>Sixth pair of legs strongly asymmetrical, with both members fused to genital somite and bearing 1 short bare and 1 long plumose seta; largest member functional one, inner portion rounded and with denticulate free margin.</p></div> 	https://treatment.plazi.org/id/B26C3D16B718FFE4B9761533FE87FE4D	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.		Plazi	Huys, Rony;Karaytuǧ, Süphan;Cottarelli, Vezio	Huys, Rony, Karaytuǧ, Süphan, Cottarelli, Vezio (2005): On the synonymy of Delamarella Chappuis and Latiremus Bo | ic (Copepoda, Harpacticoida, Latiremidae), including the description of D. obscura sp. nov. from the Black Sea. Zoological Journal of the Linnean Society 145 (3): 263-281, DOI: 10.1111/j.1096-3642.2005.00188.x, URL: https://academic.oup.com/zoolinnean/article-lookup/doi/10.1111/j.1096-3642.2005.00188.x
B26C3D16B71FFFFABAD11359FE31FD5A.text	B26C3D16B71FFFFABAD11359FE31FD5A.taxon	http://purl.org/dc/dcmitype/Text	http://rs.tdwg.org/ontology/voc/SPMInfoItems#GeneralDescription	text/html	en	Latiremus BO	<div><p>VALIDITY OF LATIREMUS BO | I C, 1969</p> <p>Chappuis (1954a) established the genus Delamarella in a preliminary note, presenting a detailed text description of the type species D. arenicola. In a later report, Chappuis (1954b) supplemented this description by providing additional drawings and a discussion of potential relationships; however, having been unable to place the new genus with confidence in any existing family, he preferred to consider it incertae sedis (see also Chappuis, 1954c). This uncertain taxonomic position remained unchanged when Petkovski (1957) and Cottarelli (1971) added two more mediterranean species to the genus, D. karamani Petkovski, 1957 from Croatia, and D. galateae Cottarelli, 1971 from Sardinia.</p> <p>Bo | i c (1969) described a new genus and species, Latiremus eximius, from La Réunion, and considered it the type of a new family Latiremidae. As pointed out by himself (Bo | i c, 1978), he unfortunately overlooked the close affinity between Delamarella and Latiremus, a relationship first recognized by Itô (1974) and subsequently confirmed by various other authors (Bodin, 1976a, b; Wells, 1976, 1978; Kunz, 1977). Most authorities considered the differences insufficient to maintain generic distinction and relegated Latiremus to a junior subjective synonym of the latter (Apostolov &amp; Marinov, 1988; Bodin, 1976a, b; Kunz, 1977, 1984; Bo | i c, 1978). This resulted in the family name being based on an invalid generic name, but as this course of action occurred after 1960, the validity of the family name and the designation of Delamarella as the type genus remained unaffected (ICZN: Art. 40). Wells (1976) preferred to treat them as distinct genera, an option also favoured by Huys &amp; Kunz (1988) who redefined the generic boundaries within the Latiremidae. They reinstated Latiremus as a valid genus, moved Delamarella phyllosetosa Kunz, 1984 to a new genus Arbutifera, and restricted Delamarella to the three mediterranean species D. arenicola, D. karamani and D. galateae.</p> <p>Huys &amp; Kunz (1988) justified the separate generic status of Latiremus on the basis of the following characters: P1-bearing somite completely incorporated in cephalosome forming cephalothorax; genital and first abdominal somites completely free in ♀; seminal receptacles clearly separated; anal operculum with setulose frill but without spinules; caudal ramus setae II–III bearing subapical flagella; antennule ♀ 8-segmented; antennary basis and proximal endopod segment not fused; P1-exopod 3-segmented; P1 enp-1 with inner subdistal seta; P4 exopod ♂ with 3 setae and 1 strong spine; P5 without modified setae, exopodal lobe with 3 bipinnate spine plus seta in ♀ and 3 bipinnate spines in ♂. The following character states were used to diagnose Delamarella: P1-bearing somite partially incorporated in cephalosome; genital and first abdominal somites fused dorsally in ♀; seminal receptacles closely set; anal operculum with 10–15 spinules; caudal ramus setae II–III without subapical flagella; antennule ♀ 8- or 9-segmented; antennary basis and proximal endopod segment fused forming allobasis; P1-exopod 2-segmented; P1 enp-1 without inner subdistal seta; P4 exopod ♂ with 3 setae and at least 2 strong blunt processes; P5 middle seta of endopodal lobe with strips of serrate membrane, exopodal lobe with 3 bipinnate spine plus seta in both sexes.</p> <p>Our re-examination of D. galateae and description of D. obscura revealed that the characters used by Huys &amp; Kunz (1988) to separate Delamarella and Latiremus are all essentially unsound and based on erroneous reports in the literature. Petkovski (1957) stated that the P1-bearing somite is only partly fused to the cephalosome in D. karamani and Cottarelli’s (1971) illustration of the male habitus of D. galateae appears to substantiate this. It now appears that both authors have wrongly interpreted the extensive intersomitic membrane separating the cephalothorax from the P2- bearing somite. It is conceivable that Kunz (1984) made the same observational error in his description of Arbutifera phyllosetosa and that consequently all latiremids possess a genuine cephalothorax. Similarly, Huys &amp; Kunz (1988) extrapolated Petkovski’s (1957) observation of a dorsally fused (but ventrally separated) genital double-somite in D. karamani to all Delamarella species. This is contradicted by our observations of D. galateae and D. obscura; in these species the genital and first abdominal somites are completely separated as in Latiremus and Arbutifera. Generic distinction based on seminal receptacle position has also proven unreliable as the structures illustrated by Cottarelli (1971) in reality refer to the crescent-shaped genital apertures (Fig. 11A) and this is probably also the case for Bo | i c ’s (1969: fig. 4a) figure of the female genital field in L. eximius.</p> <p>The ornamentation of the anal operculum in D. obscura is intermediate between the finely serrate condition displayed by L. eximius and the more spinulose state found in D. arenicola and D. galateae, indicating that this character has no significance at generic level. Caudal ramus setae II and III have a subapical flagella in D. galateae and D. obscura (Fig. 7A, B), suggesting this structure was not only overlooked in other Delamarella species, but is actually a diagnostic character for the family. The level of segmentation expressed in the distal part of the female antennule shows intraspecific variability in D. obscura (compare Figs 3E, 8A). Huys &amp; Kunz (1988) remarked that the 8-segmented conditions in L. eximius and D. arenicola may not be homologous; however, given the generally weakly defined boundaries of the apical segments, this claim requires confirmation before it can be attributed taxonomic significance. A similarly overemphasized character is the presence/absence of an antennary allobasis. All published descriptions of Delamarella species invariably state that the basis is fused to the proximal endopod segment, forming an allobasis. Our observations confirmed the presence of a transverse surface suture (Fig. 8B) in both D. obscura and D. galateae which resembles the faint articulation drawn by Bo | i c (1969) in his description of L. eximius.</p> <p>The 2-segmented P1 exopod reported by Chappuis (1954a, b), Petkovski (1957) and Cottarelli (1971) was considered by Huys &amp; Kunz (1988) as one of six autapomorphies defining the genus Delamarella. We observed that in D. obscura and D. galateae the P1 exopod is in reality 3-segmented although the segment boundary between exp-2 and exp-3 is not always clearly discernible. Unlike the articulation between exp-1 and exp-2, the joint between exp-2 and exp-3 is telescopic in nature and does not display the usual condylar reinforcements. The middle and distal segments are connected by a membranous intersegmental zone (arrowed in Fig. 10B) which enables the latter to be partly withdrawn in the former (Fig. 10B). When exp-3 is fully exposed, the telescopic boundary is hardly discernible, creating the false impression that the ramus is 2-segmented (Fig. 10B). Although the inner seta on P1 enp- 1 in A. phyllosetosa and L. eximius has consistently been claimed to be absent in previous Delamarella descriptions, we have shown it to be present in at least D. galateae and D. obscura. As this element typically arises from the posterior surface of the segment, we suspect that it may have been overlooked in D. arenicola and D. karamani.</p> <p>The most striking apomorphy of latiremids is displayed by the complex morphology of the male P4 exopod. The different processes and elements of the distal part of the ramus cannot readily be homologized with their equivalents in the adult female. Prior to the final moult the P4 is essentially the same in both sexes, except that the proximal and middle exopod segments are already expanded in the male (Fig. 7F). Examination of a copepodid V ♂ intermoult of D. obscura (Fig. 7F, G) provided new insights into the reorganization and allometric growth of the male exopod. The outer lobate process of exp-2 (B) is the homologue of the expanded distal outer margin (proximal to the outer spine) of the segment. The outer spine of exp-2 is strongly reduced, being represented by a small spiniform element (A) arising from the posterior surface of the segment. The large attenuated structure on exp-2 (D), opposing the claw-like distal segment, is not a modified setation element but homologous to the outer distal corner of the segment. Exp-3 becomes reshaped into a triangular, curved segment bearing three short setae which are conceivably the homologues of the two distal setae and the distal outer spine in the female. The hook-like extension of exp-3 may be derived from the proximal outer spine, which became incorporated, but no evidence can be found in support of this assumption. The inner spine on enp-1 is expressed as in the female, showing its loss in the adult male is secondary.</p> <p>The reported difference in the male P4 exopodal ornamentation between Latiremus and Delamarella is almost completely attributable to observational errors. Chappuis’s (1954a, b) illustration of D. arenicola shows no setation element on the middle segment but three hook-like spines on the distal segment. Using D. obscura as a reference for comparison (Fig. 6D), it is obvious that the inner spine corresponds to the rudimentary distal segment, the middle and outer spines to the attenuated outer distal corners of the middle segment, and that the small outer spine of the middle segment was overlooked. Similarly, Bo | i c (1969) illustrated the P4 of L. eximius with no outer spine on exp-2 and three setae plus one spine on exp-3; this atypical pattern results from conflating the reflexed small third segment (three setae) and the spiniform distal outer corner of the middle segment (spine). Petkovski (1957) again presented a different interpretation for D. karamani, showing a recurved inner spine on the middle segment (in reality this spine is the reduced distal segment) and two spinous processes (derived from exp-2) plus two setae (derived from exp-3) on the alleged distal segment.</p> <p>Given the difficulty in observing the serrate flanges of the setae on the fifth legs it is premature to attribute any significance to the absence of this character in L. eximius. Finally, we suspect the absence of the smooth seta on the P5 exopodal lobe in female L. eximius (but not in the male) is based on an observational error and does not necessarily reflect phylogenetic distinctiveness. No such sexual dimorphism is found in any Delamarella species. The explanation for this lack lies in the progenetic development of the P5, resulting in the persistence of the sexually undifferentiated copepodid IV condition in the adults. Because this scenario (early offset) is probably applicable across the family there is little evidence to accept the alternative pattern displayed by L. eximius. In conclusion, as there are no conclusive grounds left to maintain Latiremus as a distinct genus it is formally synonymized with Delamarella and, consequently, its type species is transferred as D. eximia (Bo | i c, 1969) comb. nov. Based on published records the genus appears to assume a ponto-mediterranean distribution with one outlier in the Western Indian Ocean (Bo | i c, 1969); however, one of us (V.C.) recently discovered another morphologically close congener from the Philippines, suggesting that Delamarella is probably Tethyan in distribution. Most mediterranean species are found interstitially in beach sands influenced by freshwater, i.e. at or near the mouth of rivers and streams. This low salinity preference probably enabled the genus to colonize other habitats in the oligohaline Black Sea.</p> </div>	https://treatment.plazi.org/id/B26C3D16B71FFFFABAD11359FE31FD5A	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.		Plazi	Huys, Rony;Karaytuǧ, Süphan;Cottarelli, Vezio	Huys, Rony, Karaytuǧ, Süphan, Cottarelli, Vezio (2005): On the synonymy of Delamarella Chappuis and Latiremus Bo | ic (Copepoda, Harpacticoida, Latiremidae), including the description of D. obscura sp. nov. from the Black Sea. Zoological Journal of the Linnean Society 145 (3): 263-281, DOI: 10.1111/j.1096-3642.2005.00188.x, URL: https://academic.oup.com/zoolinnean/article-lookup/doi/10.1111/j.1096-3642.2005.00188.x
