Mexiclopina campechana, Suarez-Morales, Eduardo & Almeyda-Artigas, Roberto Javier, 2015

Taxon classification Animalia Cyclopoida Cyclopinidae

Mexiclopina campechana View in CoL sp. n. Figs 1, 2, 3, 4, 5, 6

Material examined.

Holotype. Adult female, dissected, mounted in glycerin sealed with Entellan (ECO-CHZ-09298), Laguna de Términos, Campeche, Mexico (18°44'29.3"N; 91°29'44.6"W), collected February 13, 2015 by R. J. Almeyda-Artigas, C. Lara-Bautista, and C. Chamorro-García. Allotype male, dissected, same site, date, and collectors (ECO-CHZ-09299). Paratypes. Two adult females, dissected, slides (ECO-CHZ-09300), 6 adult females, undissected, ethanol-preserved, vial (ECO-CHZ-09301); 3 adult males, undissected, ethanol-preserved, vial (ECO-CHZ-09302). One female, one male, specimens undissected, ethanol-preserved, same locality and collectors (USNM-1283307). One female and 2 males, all used for SEM analysis. Other material examined included +25 undissected adult and juvenile specimens, deposited at CHUX (G1106, G1107).

Description of adult female.

Length range (including caudal rami) of type specimens (n=11) 350-400 µm, average: 372 µm. Body cyclopiform (Fig. 1A), robust in dorsal view. Lateral margins of pedigers 3-5 produced posteriorly, with rounded margins. Posterior margins of pedigers 3 and 4 smooth in all specimens examined. Urosome 5-segmented. Posterior margin of urosomites with crenulated hyaline frill (Fig. 3A). Genital double-somite symmetrical (Figs 1A; 3A), broadest at anterior rounded half, slightly tapering posteriorly into straight margins, with pair of dorsal sensilla on posterior margin.

Anal somite with ventral and dorsal surfaces smooth, posterior margin ornamented with row of minute spinules along ventral margin at point of insertion of caudal rami. Anal operculum smooth. Caudal ramus (Fig. 1D) length/width ratio range: 1.17-1.20. Dorsal and ventral surface of caudal rami smooth except for row of spinules along posterior margin at insertion of caudal setae (Fig. 1D). Inner margin of caudal rami smooth. Rami with six setae; seta I absent; seta II inserted midway of outer margin; seta III shorter than seta VI, both lightly plumose; seta IV about 3.2 times as long as seta III, with heteronomous ornamentation, with spinules on proximal outer margin and with plumose distal half; proximal inner margin with few spinules, distal third plumose; seta V longest, about 1.5 times as long as seta IV, naked proximally, with few rigid spinules proximally and lightly plumose distally along both margins; dorsal seta VII as long as seta II, about twice as long as ramus (Fig. 1D). Rostrum wide, tapering distally into pointed tip.

Antennule (Fig. 1B): 10-segmented. Surface of segments smooth except for short curved comb of 7-8 spinules placed proximally on first segment. Armature of antennule segments indicating ancestral segmentation (in Roman numerals), with number of setae (Arabic numerals), and aesthetascs (aes) in parentheses: 1(I-II)(3), 2(III-V)(5), 3(VI-IX)(8), 4(X-XI)(4), 5(XII-XIV)(6), 6(XV-XX)(6+ae), 7(XXI-XXII)(2+ae), 8(XXIII-XXV)(3), 9(XXVI)(2), 10(XXVI-XXVIII)(7+ae).

Antenna (Fig. 1C): 4-segmented, fused coxa and basis cylindrical, with long lightly setulose basal seta on outer margin and slender, short inner exopodal seta (exp in Fig. 1C). Endopod 3-segmented. First endopodal segment cylindrical, about twice as long as succeeding second segment, with long medial seta reaching distal margin of second endopodal segment; segment ornamented with patch of spinules around insertion of seta. Second endopodal segment with patch of spinules on proximal position. Setation formula of endopodal segments 1-3 as: 1, 5, 6.

Mandible (Fig. 2A): with robust gnathobase armed with long setulose seta. Gnathal blade with 7 teeth plus short, uniserially pinnate dorsal seta; row of spinules at base of medial teeth. Basis with long seta plus row of spinules on inner margin. Exopod 4-segmented, armed as 1,1,1,2, surface of segments smooth; apical seta being longest of exopodal setae; distal brush not observed. Fourth segment slightly longer than preceding two exopodal segments. Endopod 2-segmented, setal formula 3, 5; inner margin of proximal segment with row of setules.

Maxillule (Figs 2B; 5B): with well-developed precoxal arthrite armed with 9 setae/spines. Coxal epipodite represented by two unequal setae; coxal endite knob-like, armed with long seta. Appendage with two basal endites, proximal with three, distal with two setae. Endopod rounded, unsegmented, armed with 7 setae; exopod subrectangular, unsegmented, with 4 apical, relatively short stout setae (asterisks in Fig. 2B).

Maxilla (Fig. 2C): 5-segmented, syncoxal endites with setal formula as 3,1,3,3. Basis with robust claw and two pinnate setae; endopod 3-segmented, first and second segments with three and two setae, respectively, third with 4.

Maxilliped (Figs 2D; 5B): slender, 6-segmented, precoxa and coxa fused forming syncoxal segment with three endites; proximal endite with single seta, second with 3 unequal setae, third endite ornamented with cluster of cuticular scales, armed with two long, subequal stout setae. Basis expanded distally, medial margin ornamented with row of long, stiff setules, and with two subdistal setae. Endopod 4-segmented; first and second segments naked, third segment with one lightly plumose seta, fourth segment with four elements including two short plumose and two long, stout simple setae.

Legs 1-4 (Fig. 3B-H): biramous, each with distinct coxa and basis and 3-segmented endopodal and exopodal rami. Outer margin of all segments finely serrate in both sexes (Fig. 5E). Spines on exopodal segments flanged with serrate hyaline frill.

Leg 1 (Fig. 3B, C): intercoxal sclerite subrectangular, with two medial spiniform processes on distal margin (Fig. 3F), otherwise smooth. Coxa with two submarginal short rows of minute spinules on outer margin and with pinnate inner seta. Basipod with long flexible outer seta almost reaching distal margin of exopodal ramus, plus stout, robust flanged inner spine (asterisk in Fig. 3B).

Legs 2-3: each with exopodal ramus longer than endopod, intercoxal sclerites with distal margin smooth (Fig. 3G). Coxa with two rows of spinules on outer margin; insertion point of inner seta naked. Basipod with outer seta shorter than leg 1 counterpart (Fig. 3D).

Leg 4 (Fig. 3E): posterior surface of coxa furnished with two rows of minute spinules on proximal and lateral margins. Intercoxal sclerite posterior margin smooth (Fig. 3H). Basipod with outer seta shorter than leg 1 counterpart (Fig. 3E). Third endopodal segment with outermost subdistal setal element modified, proximal half stouter, wider than flexible, whip-like distal half (asterisk in Fig. 3E).

Armature formula of swimming legs as:

Leg 5 (Figs 2E; 3A): with coxobasis subrectangular, armed with single seta on outer margin, inner margin smooth. Exopod unsegmented, subrectangular, ornamented with longitudinal row of few spinules along inner margin and group of minute spinules on outer margin (Figs 2E; 5A). Exopod armature consisting of one short inner spine, one medial setulose seta and one outer blunt spine flanged with serrate hyaline frill, latter about 2.4 times as long as inner spine.

Leg 6 (Fig. 5A): inserted laterally, represented by short plate armed with inner slender unipinnate spine and outer setulose seta (asterisks in Fig. 5A).

Description of adult male.

Length of allotype 325 µm, of rest of male paratypes (n=7): 313-328 µm, average 321 µm. Body cyclopiform, smaller than female and slightly narrower (Figs 4A; 5D). Rostrum as in female (Fig. 6F). Length/width ratio of caudal ramus 1.20-1.22, setation pattern as in female (Figs 4B; 5C). Antennules, symmetrical, digeniculate, 15-segmented (Figs 4C; 6A, B). Segment 9 concave, partially covering proximal half of succeeding segment 10. Armature of segments as follows: 1(I-II)(2), 2(III-V)(6), 3(VI-VIII)(3), 4(IX)(1+ae), 5(X-XI)(1), 6(XII)(naked), 7(XIII)(2), 8(XIV)(2), 9(XV)(1+sp), 10(XVI)(2+sp), 11(XVII)(sp), 12(XVIII)(1+sp), 13(XIX-XX)(1+sp), 14(XXI-XXII)(1+sp), 15(XXIII-XXVIII)(11+2ae). Geniculations between ancestral segments XV and XVI (9-10) and XX-XXI (13-14).Spines on segments 9-12 pectinate (asterisks in Fig. 6B). Terminal segment with modified, hypertrophied flattened aesthetasc on apical position (mfs in Fig. 6A). Segmentation and setation pattern of mouthparts (Figs 6A, C, F; 5B) and swimming legs 1-4 (Fig. 5D, E) as in female.

Leg 5 (Figs 4D; 6D, E) with coxobasis subrectangular, armed with outer seta. Exopod unsegmented, ornamented with few spinules on inner margin and group of minute spinules on outer margin (Figs 4D, 6E). Exopod armed with five elements, two long, inner setae, one small medial spine, one medial seta and outer flanged spine with serrate hyaline frill; as in female, latter element (arrowed in Fig. 6E) blunt, about 2.5 times as long as inner spine.

Leg 6 represented by flat, rounded plate bearing two slender setae and an inner spiniform process (Figs 4D; 6D).

Type locality.

Laguna de Términos (18°44'29.3"N; 91°29'44.6"W), state of Campeche, Mexico, southern Gulf of Mexico.

Etymology.

The species is named after the state of Campeche in southeast Mexico. Gender is feminine.

Habitat.

The lagoon has a length of 70 km and 30 km at its widest sector. It has extense coverage of seagrass beds (mainly Thalassia testudinum ), mangrove areas and zones with no vegetation. It is a shallow system, (average depth = 2.5 m). The lagoon receives freshwater input from several rivers. Most of its bottom is covered by sediments of sand, silt and clay with a high content of calcium carbonate mainly in the vicinity of Boca de Puerto Real (between 50 and 70%).

Remarks.

Based on the first examination of these specimens, they were tentatively identified as a species of Cyclopina Claus, 1863 by the combined display of the following features: 10-segmented female antennule with sixth antennulary segment being longest, antenna with single exopodal seta; female fifth leg exopod with three armature elements, the apical seta flanked by two spines; leg 1 with 3-segmented endopod; and caudal seta I absent (cf. Vervoort 1964; Jaume and Boxshall 1997; Boxshall and Halsey 2004). However, when Jaume and Boxshall’s (1996b) key to the cyclopinid genera was run, our specimens could not be adequately placed in a genus and it did not fit in the generic diagnoses of other related cyclopinids ( Jaume and Boxshall 1996a, b, 1997; Martínez Arbizu 1997a, b; Humes 1999; Ivanenko and Defaye 2004). Also, based on our morphological comparison with Cyclopina esilis Brian, 1938, the best described species of Cyclopina ( Jaume and Boxshall 1996a), it was clear that despite their affinities, the new genus and Cyclopina diverge in several important characters. In addition, the monotypic genus Heptnerina ( Ivanenko and Defaye 2004) shares some characters with the new genus (i.e., swimming legs segmentation, number of female antennulary segments, armature of male and female fifth legs, segmentation of mandible palp) but differ in some others, as explained below. Overall, the genus Mexiclopina gen. n. differs from the other cyclopinid genera in having a unique combination of characters including: 1) absence of modified brush-like seta on the 4th mandibular exopodal segment; 2) maxillule exopod with stout setal elements and no brush-like setae; 3) presence of modified seta on the fourth leg endopod; 4) fifth leg exopod armed with three elements in the female and five in the male; 5) outer exopodal spine of leg 5 blunt in both sexes; 6) male sixth leg with two outer slender setae and inner spiniform process; 7) intercoxal sclerite of first swimming leg with two medial spiniform processes on distal margin. The new genus diverges from Heptnerina in the lack of an endopodal lobe in leg 5, in the presence of a single antennary exopodal seta vs. two setae present in Heptnerina confusa ( Ivanenko and Defaye 2004, fig. 3A), and the lack of a modified seta on the maxillule exopodal lobe and also in the mandible exopod ( Ivanenko and Defaye 2004, figs. 3A, C). The new genus differs from Cyclopina in the lack of a brush-like seta on the mandible exopod ( Jaume and Boxshall 1996a; Lotufo 1994); this character is distinctive of the genus and it is present in the type species, Cyclopina gracilis Claus, 1863. Remarkably, in the new genus the intercoxal sclerite of leg 1 has a distinctive feature not previously observed in Cyclopina ; it has two medial spiniform processes on the posterior margin (Fig. 3F), similar acute processes in leg 1 are present in Troglocyclopina balearica Jaume & Boxshall, 1996 ( Jaume and Boxshall 1996b), but are absent in Heptnerina ( Ivanenko and Defaye 2004). The new genus clearly diverges from Troglocyclopina Jaume & Boxshall, 1996 in having six setae instead of five on the distal segment of endopod of leg 1 ( Jaume and Boxshall 1996b, figs. 4A) but also in the presence of two exopodal setae on the antenna ( Jaume and Boxshall 1996b, fig. 3A) vs. a single exopodal seta in Mexiclopina .

Other remarkable features of the new genus include: 1) the short, stout distal setae of the exopodal segment of the maxillule (asterisks in Fig. 2B); these setae are long, flexible in Cyclopina ( Lotufo 1994; Jaume and Boxshall 1996a; Karanovic 2008) and Heptnerina ( Ivanenko and Defaye 2004); 2) the female P6, represented by short plate armed with two slender setae; it is similar to that known in species of Cyclopina but differs from Heptnerina ( Ivanenko and Defaye 2004, fig. 1E), with three unequal setae; and 3) the modified, short spiniform outer seta of the third endopodal segment of leg 4 (asterisk in Fig. 3E), not described in any other cyclopinid.

Because of the close morphological resemblance of the new species with Cyclopina , we performed a comparison with the most closely related species of this genus. Only a few species of Cyclopina have a female leg5 with the inner spine of the exopodal segment less than half the length of the outer spine, the latter being longer than the segment itself ( Jaume and Boxshall 1996a). This group of species include Cyclopina kieferi Schäfer, 1936, from Europe, Cyclopina esilis Brian, 1938 from Mediterranean anchialine caves, Cyclopina americana Herbst, 1982, from North Carolina, USA, Cyclopina caissara Lotufo, 1994 from Brazil ( Lotufo 1994) and from the Mexican Pacific ( Gómez and Martínez Arbizu 2004), and Cyclopina amita from Australia ( Karanovic 2008). The new species shares this feature with this group of species but it can be easily distinguished from Cyclopina caissara by the segmentation of the antennules, the new species having 10 segments, like most other known species of Cyclopina , whereas Cyclopina caissara has a 12-segmented antennule both in specimens from Brazil ( Lotufo 1994, fig. 37) and from Mexico ( Gómez and Martínez Arbizu 2004, fig. 3A). Also, the length/width ratio of the caudal rami differs between these two species, being slightly longer in Cyclopina caissara (ratio=1.3-1.5; Lotufo 1994; Gómez and Martínez Arbizu 2004) vs. 1.17-1.2 in the new species. The shape and size of the outermost terminal flanged spine of the male fifth leg differ in these species, being broad and blunt in the new species vs. slender and pointed in Cyclopina caissara ( Lotufo 1994, fig. 52). Also, the female fifth leg differs in the size and proportions of these spines; the outer spine is more than 4 times as long as the inner one in Cyclopina caissara ( Lotufo 1994, fig. 49), whereas in the new species this element is only about twice longer than the inner spine. In Cyclopina caissara the armature of the female sixth leg consists only of two elements, the inner one corresponding to a thick stout serrate seta ( Lotufo 1994, fig. 50; Gómez and Martínez Arbizu 2004, fig. 1C), thus differing from the slender seta present in homologous position in the new species (Fig. 5A).

The new species differs from Cyclopina esilis in the display of a long terminal seta on the exopod of mandibular palp; it is the longest and is slightly broader than the rest of exopodal setae; contrastingly, this seta is remarkably short and modified, umbrella-like, in Cyclopina esilis ( Jaume and Boxshall 1996a, fig. 2B). In addition, both species can be readily distinguished by the proportions of the caudal rami, being 2.6-3.3 times longer than wide, relatively elongate in Cyclopina esilis ( Jaume and Boxshall 1996a, fig. 1F,G), vs. short and subquadrate (length/width ratio 1.2) in the new species.

Mexiclopina campechana sp. n. differs from Cyclopina americana in body shape, with the third and fourth pedigerous somites strongly produced posteriorly, the process of the fourth somite reaching well beyond the posterior margin of the fifth pedigerous somite (Fig. 1A); in Cyclopina americana the posterolateral corners of the fourth pedigerous somite do not reach the posterior margin of the succeeding somite ( Herbst 1982, fig. 1). Also, in Cyclopina americana the female anal somite is 1.16 times as long as the caudal ramus ( Herbst 1982, fig.1), whereas in the new species the anal somite is shorter (0.8 times) than the caudal ramus. The length/width ratio of the caudal rami is also slightly different in both species, 1.2 in Mexiclopina campechana sp. n., vs. 1.3 in Cyclopina americana ( Herbst 1982, fig. 2). They differ also in the relative length of the antennulary segments, particularly in the shorter segment 6 in Cyclopina americana , which is 26% of the antennule length ( Herbst 1982, fig. 3), vs. 21% in the new species from Campeche. In Cyclopina americana the antenna lacks the exopodal seta ( Herbst 1982, fig. 4), which is present in the new species (Fig. 1C), but in some species like Cyclopina amita this seta is also absent ( Karanovic 2008). In ventral view the male anal somite of Cyclopina americana is long, 1.45 times as long as the caudal rami ( Herbst 1982, fig. 10), whereas in the new species it is relatively shorter, 0.7 times as long as the caudal ramus (Figs 4A; 5C). In addition, both sexes have a crenulate hyaline frill on the posterior margin of urosomites(Figs 3A, 5C), whereas these margins are smooth in both sexes in Cyclopina americana ( Herbst 1982, figs 1;10; 11). In Cyclopina americana the male fifth leg has four elements on the exopodal segment ( Herbst 1982, fig. 13), vs. five in the new species. In addition, the sixth leg of the new species has, like the majority of the species of Cyclopina for which males are known ( Karanovic 2008), an inner spine aside the two usual setae; this spine is absent in both Cyclopina americana ( Herbst 1982, figs 10;11) and Cyclopina amita ( Karanovic 2008, fig. 36C). The new species differs from Cyclopina amita in the antennule segmentation; this appendage having 11 segments in the Australian species ( Karanovic 2008, fig. 34A) vs. 10 segments in Mexiclopina campechana .

The new species of Mexiclopina shows also some resemblance with Cyclopina kieferi , but in this species the external spine of the female fifth leg is 1.2-1.5 times as long as the internal spine (vs. 2.5 in the new species), the caudal rami are clearly longer than the anal somite and have a length/width ratio of 2.6 ( Vervoort 1964; Lotufo 1994),thus differing from Mexiclopina campechana , with an anal somite as long as the caudal rami, which in turn have a 1.2 length/width ratio.

Males are known for only about half the known nominal species of Cyclopina ( Karanovic 2008) and the available keys are based on females ( Vervoort 1964), thus, characters of this gender have not been fully explored but some of them appear to be potentially important to define species. For instance, the male of Cyclopina esilis shares several features with the new species, but the antennulary armature differs. The male antennule of Cyclopina esilis has pectinate spines on each of segments 10-13 (Jaume and Boxshall 1996, fig. 4D), whereas these spines are distributed on segments 9-12 in the new species (Fig. 6B). In addition, the male antennule of Cyclopina americana has 13 segments ( Herbst 1982, fig. 12) vs. 15 in the new species; the last antennular segment is distinctly acute in Cyclopina americana ( Herbst 1982, fig. 12) and blunt in the new species. Details of the male antennulary armature were not shown in the description of Cyclopina americana ( Herbst 1982), but this appendage is likely to provide additional differences at the species level.

The male fifth leg of the new species has 5 elements on the exopodal segment, thus diverging from most species of Cyclopina for which males have been described thus far. This feature is shared only with Cyclopina esilis , Cyclopina caissara , Cyclopina kieferi , Cyclopina amita , and Cyclopina confusa , but the latter has an ornamented anterior surface of the female fifth leg, thus diverging from the smooth condition of the same surface in Mexiclopina campechana .

The copepod fauna of the Laguna de Términos has been known mainly from plankton surveys ( Suárez-Caabro and Gómez-Aguirre 1965; Salas-Marmolejo 1981); relatively little is known from other copepod habitats. The local copepod diversity of interstitial environments may equal or exceed that of their planktonic relatives. The sampling of shallow coastal systems frequently results in the capture of epibenthic or interstitial fauna that is integrated into the water column. This appears to be the case in the new species, belonging to a genus of interstitial forms ( Karanovic 2008).

This work increases the number of species of cyclopinids known from the Americas ( Wilson 1932; Nicholls 1939; Herbst 1982; Reid 1990; Lotufo and Rocha 1991; Lotufo 1994; Rocha and Botelho 1998; Gómez and Martínez Arbizu 2004). Records of this family now comprise thirteen species of Cyclopina : Cyclopina agilis Wilson, 1932, Cyclopina laurentica Nicholls, 1939, Cyclopina vachoni Nicholls, 1939, Cyclopina americana Herbst, 1982, Cyclopina caiala Lotufo & Rocha, 1991, Cuipora janaina (Lotufo & Rocha, 1991), Cyclopina arenosa Lotufo, 1994, Cyclopina caissara Lotufo, 1994, Cyclopina caroli Lotufo, 1994, Cyclopina mediterranea Steuer, 1940, Cyclopina dorae Lotufo, 1994, Cyclopina yutimaete Lotufo, 1994, and a species of the new genus, Mexiclopina campechana . The new species is the first cyclopinid described from Mexico, and represents the first record of the family in the Gulf of Mexico (see Suárez-Morales et al. 2009). After the finding of Cyclopina caissara in the Mexican Pacific coast ( Gómez and Martínez Arbizu 2004), it is the second record of cyclopinids in the country.