2urn:lsid:arphahub.com:pub:45048D35-BB1D-5CE8-9668-537E44BD4C7Eurn:lsid:zoobank.org:pub:91BD42D4-90F1-4B45-9350-EEF175B1727AZooKeysZK1313-29891313-2970Pensoft Publishers10.3897/zookeys.522.60566056Research ArticleIsopodaFaunistics & DistributionIdentification keyTaxonomyNeogeneIranAtarbolanamakranensis, a new species of Cirolanidae (Crustacea, Isopoda) from Makran, Iranian coast of the Gulf of OmanKhalaji-PirbaloutyValiallahvkhalaji@sci.sku.ac.irhttps://orcid.org/0000-0002-0892-74631NaderlooReza2KeikhosraviAlireza3Shahrekord UniversityShahrekordIranUniversity of TehranTehranIranUniversity of Hakim SabzevariSabzvarIran
201523092015522129140231DFF99-FFE3-174A-5F07-FFD0FFB32B13C5EFB15C-BC2C-428D-A009-2C07C1F7FCD45790622305201521082015Valiallah Khalaji-Pirbalouty, Reza Naderloo, Alireza KeikhosraviThis is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.http://zoobank.org/C5EFB15C-BC2C-428D-A009-2C07C1F7FCD4
Atarbolanamakranensissp. n. is described from the intertidal zone of Makran along the Iranian coast of the Gulf of Oman. Atarbolanamakranensissp. n. can be recognized by the presence of a tuft of long setae on the antennal flagellum of males, elongate pleotelson with 12 robust marginal setae, pleotelson with narrowly rounded apex extending well beyond the uropodal endopod, uropodal endopod half as long as exopod with 14 robust marginal setae, and appendix masculina with an acute apex and extending beyond endopod distal margin. A key is provided for the four known species of Atarbolana Bruce & Javed, 1987.
IsopodaCirolanidaeAtarbolananew speciesGulf of OmanIranCitation
Khalaji-Pirbalouty V, Naderloo R, Keikhosravi A (2015) Atarbolana makranensis, a new species of Cirolanidae (Crustacea, Isopoda) from Makran, Iranian coast of the Gulf of Oman. ZooKeys 522: 129–140. doi: 10.3897/zookeys.522.6056
Introduction
The isopod fauna of the Gulf of Oman is poorly studied; in particular, there is no record of this group from the northern coast of the Gulf of Oman. Among the different families, the family Cirolanidae has received little attention in the southern coastlines of Iran. Recently, Khalaji-Pirbalouty and Wägele (2011) described two cirolanid isopods, Baharilanakiabii and Cirolanatarahomii, from the Qeshm and Kish islands along Iranian coast of the Persian Gulf.
The genus Atarbolana Bruce & Javed, 1987, was established with the description of A.exoconta from the rocky intertidal coast of Manora Island, Pakistan. Atarbolanasetosa Javed & Yasmeen, 1989, and A.dasycolus Yasmeen, 2004, have been subsequently described from the same coast (Karachi, Pakistan). Atarbolanamakranensis sp. n. constitutes the fourth species of the genus from the northwestern Indian Ocean and is the first species of the order Isopoda recorded from the Iranian coast of the Gulf of Oman (Fig. 1).
https://binary.pensoft.net/fig/57937Materials and methods
Specimens for this study were collected by turning over rocks and washing algae and sea grasses. The material was preserved in 96% ethanol and has been deposited in the Zoological Museum Hamburg, Hamburg, Germany (ZMH), and the Zoological Museum, University of Tehran, Iran (ZUTC). Appendages were dissected and fixed in stained antibacterial glycerine-gelatine (Merck). Drawings were made with the aid of a camera lucida attached to Olympus BX 51 and were then processed using Corel Draw (version X5) and Adobe Photoshop (version CS5). Terminology of the morphological characters follows that of Khalaji-Pirbalouty and Bruce (2014).
Abbreviations
AM
Australian Museum
;
ZMH
Zoologisches Museum Hamburg, Hamburg, Germany
;
ZUTC
Zoological Museum, University of Tehran, Iran
;
PMS
plumose marginal setae
;
RS
robust seta/setae
;
CPS
circumplumose setae
,
SPS
sensory palmate seta/setae
.
TaxonomySuborder Cymothoida Wägele, 1989 Family Cirolanidae Dana, 1852AnimaliaIsopodaCirolanidae63BAF101-6E17-5E88-9417-B1E289BB93D1AtarbolanaBruce & Javed, 1987Atarbolana Bruce & Javed, 1987: 145; Javed and Yasmeen 1989: 78; Yasmeen 2004: 21.Type species.
Atarbolanaexoconta Bruce & Javed, 1987; by designation and monotypy.
Type locality.
Manora Island, Karachi, Pakistan.
Species included.
A.setosaJaved and Yasmeen (1989), and A.dasycolus Yasmeen, 2004.
Diagnosis.
Diagnoses to the genus are to be found in Bruce and Javed (1987) and Javed and Yasmeen (1989).
Remarks.
In addition to the generic diagnosis given by the above authors, pereopod 7 has a flattened merus and carpus with numerous long plumose setae. Female is similar to male but smaller on average. As stated by Bruce and Javed (1987), females differ from males (apart from primary sexual characteristics) by having a shorter and less setose antennal flagellum. Pleotelson elongation is less than that in males and in most cases number of robust setae are less than in those of males. In contrast to the diagnosis given by Bruce and Javed (1987), uropod rami of females are smaller than that of males; they are subequal and extending almost to the level of pleotelson apex or slightly extending beyond. Brood pouch composed of five pairs of oostegites arising on sternites 1–5.
There are several characters that exclude the species of this genus from Cirolana Leach, 1818, and other cirolanid genera. These characters are a cylindrical uropod exopod, an oval uropod endopod, the uropod peduncle with a row of robust setae along the ventral margin, and in having a reduced pleon.
The genera Eurylana Jansen, 1981, and Pseudolana Bruce, 1979, with appendix masculina inserted medially, and short penes, appear to be most similar to Atarbolana. However, Eurylana has no secondary unguis on the dactylus and is readily separated from congers by the morphology of the clypeal region and pleopods. Pseudolana differs in having a linear frontal lamina, five visible pleonites and a wide pleotelson (Bruce 1986). In addition, Atarbolana has endopods of pleopods 3–5 entirely without marginal setae. Only few genera like Anopsilana Paulian & Deboutteville, 1956 have such character, but with appendix masculine arising basally and absence of penes.
Holotype: ♂ (4.4 mm) Gatan-Paein, Hormuzgan Province, Iran, Gulf of Oman, rocky intertidal shore covered with algae, 25°58'1.52"N, 57°15'13.78"E, 27 December 2013, coll. V. Khalaji-Pirbalouty, R. Naderloo (ZMH–K–42597). Paratypes: 5 ♂♂ (4.9, 4.4, 3.9, 3.8, 3.7 mm), 1♀ (ovig. 3.5mm), 9 ♀♀ (3,0–3.8 mm), same data as holotype (ZUTC 5481); 1♂ (3.6 mm), 4 ♀♀ (2.5, 2.6, 2.8, 3.0 mm), same locality as holotype, 30 June 2013, coll. V. Khalaji-Pirbalouty, R. Naderloo (ZUTC 5482).
Diagnosis.
Body 2.3 times as long as greatest width; pereonites 5–7, pleon and pleotelson bearing scattered small tubercles; flagellar articles 1–10 in male bearing a tuft of long serrate and simple setae; pleotelson elongated, with narrowly rounded apex, posterior margin with 12 marginal RS; uropod peduncle ventro-mesial surface with a row of 8 RS, uropodal endopod not reaching to pleotelson apex, with 14–15 (left/right) marginal RS, lateral margin proximally lacking RS, exopod about two times as long as endopod; appendix masculina with an acute apex, arising above mid-point of endopod medial margin, and extending slightly beyond endopod distal margin.
Description of male.
Body 2.3 times as long as greatest width, widest at pereonite 5 (Fig. 2A). Head with acute rostral point, with 2 sutures posteriorly. All pereonites posterior margins bearing long simple marginal setae; pereonite 1 with 2 curved furrows laterally (Fig. 2B); pereonites 5–7 bearing scattered small tubercles; pereonites 2–3 with sub-quadrate coxal plates; coxal plates 5–7 progressively more produced and acute posteriorly, produced beyond posterior margin of respective segment; all coxal plates with entire, oblique carina, all coxal plate ventral margin fringed with long simple setae (Fig. 2B).
Atarbolanamakranensis sp. n., male, holotype (ZMH–K–42597). A dorsal view B lateral view C antennule D antenna E pleotelson apex (dorsal view) F pleotelson apex (ventral view).
https://binary.pensoft.net/fig/57938
Pleon (Fig. 2A) with pleonite 1–2 concealed by pereonite 7; pleonite 3 visible dorsally; pleonite 4 extended well over lateral margins of pleonite 5 and proximal part of uropodal peduncles, pleonites 3–5 with scattered small tubercles.
Pleotelson (Fig. 2A, E, F) progressively upturned into a narrowly rounded apex, with 2 bimedian depressions, dorsal surface with scattered small tubercles; posterior margin bearing 12 marginal RS set between long PMS; apical marginal RS concealed by apical margin, distally with 3 small marginal setae (Fig. 2E, F).
Antennule (Fig. 2C) extending to posterior margin of pereonite 3, peduncle article 1 short, peduncle article 3 approximately 1.5 times as long as article 2; flagellum with 15 articles, articles 7–15 bearing 1 or 2 aesthetascs.
Antenna (Fig. 2D) peduncle articles 2–4 subequal in length, all articles each with a group of long simple setae on antero-distal corner, article 3 with 5–6 very long simple setae on ventral margin; flagellum with 17 articles, extending to posterior margin of pereonite 1, articles 1–10 bearing a tuft of long setae (some serrated), distoventral corner with a single long simple seta.
Left mandible (Fig. 3A) molar process anterior margin with about 33 flat teeth; spine row composed of 9 spines; palp article 2 longest with 10 robust biserrate setae and 2 robust simple setae, article 3 with 10 robust biserrate marginal setae.
Atarbolanamakranensis sp. n., male, holotype (ZMH–K–42597). A left mandible B maxillule C maxilla D maxilliped E maxilliped endite.
https://binary.pensoft.net/fig/57939
Maxillule (Fig. 2B) lateral endite with 10 RS (weakly serrated) and 2 slender setae; mesial endite with 3 large circumplumose RS and 2 short simple setae.
Maxilla (Fig. 3C) lateral and middle endites each with 5 long finely plumose setae; mesial endite with 7 long circumplumose RS and 2 small simple RS.
Maxilliped palp (Fig. 3D) article 1 with 6 distally placed long setae, articles 2–5 lateral margins with 2, 7, 2 and 2 slender simple setae respectively; articles 3– 5 with continuous fringe of finely biserrate setae on medial margin; endite (Fig. 4E) with 4 long CPS, and 2 coupling hooks.
Pereopod 1 (Fig. 4A) basis 3.4 times as long as wide, superior margin with 3 long simple and 2 SPS, posterodistal angle with 3–5 long finely plumose setae; ischium inferior margin with 2 long simple setae, mediodistal margin with 3 long simple setae; merus inferior margin with 3 RS and 1 long simple setae, medio-distal margin with 1 long simple setae, superior margin with 3 long simple setae; carpus triangular, inferior margin with 2 RS and 4 long simple setae; propodus inferior margin with 10 RS and 3 sets of sub-marginal slender simple seta, superior margin with a single simple seta, superodistal angle with 2 simple and 1 plumose setae; dactylus with minute secondary unguis, bearing a transverse row of 8 simple setae at base.
Pereopod 2 (Fig. 4B) basis 2.5 times as long as wide, superior margin with 5 long simple and 3 SPS, posterodistal angle with 5 long finely plumose or simple setae; ischium inferior margin with 6 long simple setae, mediodistal margin with 3 long simple setae, superior margin with 3 long simple setae; merus inferior margin with 4 RS and 4 long simple setae, superodistal angle with 5 long setae, mediodistal margin with 2 long simple setae; carpus triangular, inferior margin with 2 RS and 3 long simple setae; propodus inferior margin with 7 robust and 2 sets of sub-marginal slender simple setae, superior margin with a single simple seta, supero-distal angle with a SPS and 3 simple setae; dactylus with minute secondary unguis, bearing a transverse row of several simple setae at base.
Pereopod 3 (Fig. 4C) similar to pereopod 2.
Pereopod 4 (Fig. 4D) basis 2.3 times as long as wide, with 5 long simple submarginal and 2 SPS, postero-distal angle with 3 long simple setae and 2 long finely biserrate setae; ischium supero-distal angle with 2 long RS, supero-medial surface with 4 long simple setae, inferior margin with 2 sets of RS and 2 sets of long simple sub-marginal setae; merus inferior margin with 2 sets of RS (1 + 7), superior distal angle with 3 RS and 1 long simple seta; carpus inferior distal margin with 6 simple or serrated RS, superior distal angle with 2 RS; propodus inferior margin with 3 RS, superior distal angle with 1 SPS and 2 simple setae; dactylus with minute secondary unguis, sub-marginal row of 3 simple setae.
Pereopod 5 (Fig. 5A) and Pereopod 6 (Fig. 5B) are similar to pereopod 4 as illustrated.
Atarbolanamakranensis sp. n., male, holotype (ZMH–K–42597). A–C pereopods 5–7 respectively D uropod dorsal view E uropod ventral view.
https://binary.pensoft.net/fig/57941
Pereopod 7 (Fig. 5C) basis 2.5 times as long as wide, postero-distal angle with 1 serrated RS and 4 long simple setae; ischium superior distal angle with 5 biserrate or simple RS, medial surface with 3 rows of long simple setae, inferior margin with 3 sets RS and 2 sets long simple sub-marginal setae; merus and carpus superior and inferior margins fringed with numerous long plumose setae; propodus inferior margin with 2 sets robust setae, superior distal angle with 1 RS, I simple and 1 SPS; dactylus with minute secondary unguis.
Pleopod 1 (Fig. 6A) exopod and endopod with ~39 and 16 PMS, endopod longer and narrower than exopod; sympod 1.5 times as wide as long, mesial margin with 4 coupling hooks and 1 plumose seta, lateral margin with a single RS.
Pleopod 2 (Fig. 6B) exopod and endopod with ~54 and 10 PMS respectively; appendix masculina arising above 0.6 of endopod medial margin, extending slightly beyond endopod distal margin (by approximately 0.2 times of length), tapering to an acute apex; sympod mesial margin with 3 coupling hooks and 1 plumose seta, lateral margin with a single sub-marginal RS.
Pleopod 3 (Fig. 6C) and Pleopod 4 (Fig. 6D) essentially similar, exopod with ~51 and ~58 PMS, and an entire transverse suture; sympod medial margin with 3 coupling hooks and 1 plumose seta, lateral margin with single sub-marginal RS.
Pleopod 5 (Fig. 6E) exopod with 56 plumose marginal setae, and entire transverse suture; sympod without coupling hook, lateral margin with single sub-marginal RS.
Penes (Fig. 6F) short, separate but adjacent, 2.5 times as long as basal width.
Uropod (Fig. 5D); endopod not reaching to pleotelsonic apex, with 14–15 (left/right) marginal RS, lateral margin proximally lacking RS; exopod (Fig. 5E) elongate, slender, nearly 2 times as long as endopod, extended well beyond pleotelsonic apex, dorso-lateral margin with 3 RS, ventro-medial margin with 4 RS, distal margin with a tuft of long simple setae, 1 prominent RS and 1 small RS; peduncle ventral side with a single long RS distally, ventro-medial surface with a row of 8 RS and 2 long plumose setae.
Female. Apart from sexual characters differs from male by having an antenna without tuft of long setae on flagellum articles; uropod rami smaller than in male and extending just beyond the pleotelsonic apex, endopod with 12 marginal RS (rather than 14 in male); pleotelson with 8 marginal RS (rather than 12 in male), elongation less than in male.
Variations.
Pleotelson marginal RS (n = 14 [7♂ and 7♀]) males with 10–12 RS, with 12 RS (86%) most frequent, and 10 (14%) occurring only once; in females with 8–9 RS, with 8 RS most frequent (71%), and 9 (28%). Uropod endopod in males with 14–15 RS, with 14 RS (86%) most frequent, and 15 (14%) occurring only once; in females with 12–13 RS, with 12 RS (86%) most frequent, and 13 (14%) occurring only once.
Remarks.
Atarbolanamakranensis sp. n. can be identified by the elongate pleotelson with a narrow apex and 12 marginal RS in male. The ventral surface of the uropod peduncle with a row of 8 RS, uropodal endopod not extending to apex of the pleotelson, about half length of exopod, lateral margin lacking RS proximally. Atarbolanamakranensis sp. n. is similar to A.setosaJaved and Yasmeen (1989), and A.dasycolus Yasmeen, 2004 (both described from Karachi, Pakistan), in having an antennal flagellum with tufts of long and dense setae. However, the two species can be clearly distinguished from A.makranensis by having an elongated appendix masculina which extends well beyond the apex of the endopod of the pleopod 2. Furthermore, in the new species the pleotelson extends well beyond the uropodal endopod, whereas in A.setosa the pleotelson extends just to the endopod apex. Atarbolanadasycolus has a pleotelson with 8 marginal RS and does not extend to the endopod apex. In addition, in A.makranensis the uropod exopod/endopod ratio is approximately 2, whereas it is 1.7 in A.setosa and 1.35 in A.dasycolus. Based on the drawings and description of A.exoconta, the type species of the genus, given by Bruce and Javed (1987) and examination of paratype material (AM. P.37200, P.37276, Manora Island, Pakistan), A.exoconta differs from A.makranensis in having a shorter pleotelson with 16 marginal RS, lacking long setae on the antennal flagellum, and a lower uropod exopod/endopod ratio (1.34).
Etymology.
The specific epithet of the new species refers to its type locality, Makran, which is the name of the area with the original Aryan people living in the southeast of Iran along the coast of the Gulf of Oman.
Key to the species of Atarbolana
1
Appendix masculina extending well beyond pleopod 2 endopod distal margin (by ≥ 0.5 its length)
Pleotelson with 10 marginal RS, elongated, extending just beyond the uropodal endopod distal margin
A.setosa
–
Pleotelson with 8 marginal RS, short, not extending to uropodal endopod distal margin
A.dasycolus
3
Antennal flagellum of adult male lacking long setae, pleotelson short, with 16 marginal RS
A.exoconta
–
Antennal flagellum of adult male with tufts of long and dense setae, pleotelson elongated, with 12 marginal RS
A.makranensis sp. n.
Acknowledgements
The authors would like to thank Dr. Stephen J. Keable (Australian Museum) for the loan of type material of Atarbolanaexoconta. Dr. Saskia Brix (Senckenberg am Meer, German Centre for Marine Biodiversity Research, Hamburg, Germany) and two other anonymous referees are appreciated for critically reviewing the manuscript. This paper is a part of the project documenting the isopod fauna of the Iranian coast of the Gulf of Oman. The project is funded by the Iran National Science Foundation (INSF) under the grant no. 91048864, and is also partly supported by the Shahrekord University.
ReferencesBruceNL (1979) Preliminary diagnosis of a new genus of marine isopod. (Flabellifera, Cirolanidae). Crustaceana 37: 112. doi: 10.1163/156854079X00924BruceNL (1986) Cirolanidae (Crustacea: Isopoda) of Australia.6(Supplement): 1–239. doi: 10.3853/j.0812-7387.6.1986.98BruceNLJavedW (1987) A new genus and species of cirolanid isopod Crustacea from the northern Indian Ocean.21: 1451–1460. doi: 10.1080/00222938700770911DanaJD (1852) On the classification of the CrustaceaChoristopoda or Tetradecapoda.2(14): 297–316. JansenKP (1981) Eurylana, a new genus of Cirolanidae (Isopoda: Flabellifera) with two species, Eurylanacookii (Filhol) and Eurylanaarcuata (Hale).11: 5–10. doi: 10.1080/03036758.1981.10419448JavedWYasmeenR (1989) Atarbolanasetosa, a new cirolanid isopod from the northern Arabian Sea.56(1): 78–82. doi: 10.1163/156854089X00815Khalaji-PirbaloutyVBruceNL (2014) A review of the genus Heterodina Kensley & Schotte, 2005 (Crustacea: Isopoda: Sphaeromatidae) with description of a new species from Iran.3887(3): 494–500. doi: 10.11646/zootaxa.3887.4.7Khalaji-PirbaloutyVWägeleJW (2011) Two new species of cirolanid isopods (Crustacea: Isopoda: Cirolanidae) from Qeshm and Kish Islands in the Persian Gulf.2930: 33–46. PaulianRCDebouttevilleCD (1956) Un cirolanide cavernicole a Madagascar [Isopode].11: 85–88. WägeleJW (1989) Evolution und phylogenetisches system der Isopoda.140: 1–262. YasmeenR (2004) A new species of cirolanid isopod of the genus Atarbolana Bruce and Javed, 1987 (Crustacea) from the Karachi coast of Pakistan.13(1/2): 21–26.