Dicellophilus limatus, (WOOD, 1862)

Bonato, Lucio, Dányi, László & Minelli, Alessandro, 2010, Morphology and phylogeny of Dicellophilus, a centipede genus with a highly disjunct distribution (Chilopoda: Mecistocephalidae), Zoological Journal of the Linnean Society 158 (3), pp. 501-532 : 522-523

publication ID

https://doi.org/ 10.1111/j.1096-3642.2009.00557.x

persistent identifier

https://treatment.plazi.org/id/0398B850-2F15-524A-189B-8A78FDAAFE6E

treatment provided by

Valdenar

scientific name

Dicellophilus limatus
status

 

DICELLOPHILUS LIMATUS ( WOOD, 1862) View in CoL

Mecistocephalus limatus Wood, 1862 . Original description: Wood, 1862: 42. Type locality: ‘California’ (no more precise locality given). Type material: three syntypes, sex and developmental stage unknown; originally deposited in the collections of the Smithsonian Institution, Washington, DC (code number 310), but current repository unknown; possibly lost.

= Mecistocephalus breviceps Meinert, 1886 View in CoL . Original description: Meinert, 1886b: 214. Type locality: ‘Nantucket, Mass.’ [= Nantucket (Massachusetts, USA)]. Type material: holotype male, adult, in the Museum of Comparative Zoology, Cambridge, USA (code number 310). Synonymy by Chamberlin, 1920: 186.

Main references for morphology: Wood, 1862: 42 (original description); Wood, 1865: 177 (diagnosis); Meinert, 1886b: 214 (redescription as M. breviceps View in CoL ); Chamberlin, 1912: 653 (redescription); Attems, 1929: 147 (diagnosis and key).

Diagnosis: A Dicellophilus species with 45 leg-bearing segments. Antennae about four times as long as the maximum width of the head, strongly tapering (width of the terminal article less than half of the width of article I); terminal article more than two times as long as wide, and less than 1.5 times as long as article XIII. The longest setae on the antennae are ~300-Mm long ( Fig. 4E View Figure 4 ). Sensilla on the antennal tip usually with a crown-like projection at roughly mid-length. Head ( Fig. 4A View Figure 4 ) ~1.5–1.6 times as long as wide. Lateral margins of the cephalic plate almost straight, evidently converging for most of their length. Frontal line ( Fig. 4C View Figure 4 ) forming an angle pointing forwards. Clypeus: lateral margins converging backwards; a wide subtriangular posteromedial area without setae, but with a distinctly isolated posteromedian pair of setae. Non-areolate part of the buccae ( Fig. 4D View Figure 4 ) extending forwards distinctly beyond the labrum. Mandible with between five and seven pectinate lamellae. Coxosternum of maxillae I ( Fig. 4B View Figure 4 ) less than 3.0 times as wide as medially long. Medial projection of maxillae I more than two times as long as wide; distal hyaline part enlarged, subtriangular; hyaline scales present on the dorsal surface ( Fig. 4H View Figure 4 ). Distal hyaline part of the telopodite of maxillae I distinctly longer than the basal chitinous part. Distal article of the telopodite of maxillae II subconical, tapering gradually along most of its length, ~1.5 times as long as wide ( Fig. 4B View Figure 4 ). Condylar processes of the forcipular coxosternum ( Fig. 4I View Figure 4 ) well developed. Forcipular article I 1.2–1.3 times as long as wide, the tubercle relatively large, and greatly projecting beyond the distal margin of the article ( Fig. 4F View Figure 4 ). Forcipular tarsungulum with evident basal tubercle, the dorso-internal margin only weakly crenulated, with uniformly spaced notches. Sternum of the last leg-bearing segment ( Fig. 4G View Figure 4 ) wider than long. Posterior end of coxopleura usually indistinctly pointed.

The main differential characters with respect to the other Dicellophilus species are presented in Table 3.

Notes on taxonomy: Originally included in the genus Mecistocephalus Newport, 1843 ( Wood, 1862), the species was separated in a distinct genus Dicellophilus by Cook (1896a), but this generic assignment has only been adopted universally since the 1950s. The name was occasionally misspelled as lineatus ( Wood, 1865: plate I; Saussure & Humbert, 1872; Verhoeff, 1902 –1925) or limitatus ( Kevan, 1983).

The syntypes of M. limatus were originally deposited in the Smithsonian Institution, Washington, DC ( Wood, 1862, 1865), but there is no evidence that they are still there (D. De Roche, pers. comm.).

Mecistocephalus limatus Wood, 1862 was listed as a synonym of Mecistocephalus melanonotus Wood, 1862 by Chamberlin (1912: 661), even though in the same paper, inconsistently, Chamberlin (1912: 653) treated M. limatus as a distinct, valid species, and also listed some of the localities noted for M. melanonotus for M. limatus . The synonymy was confirmed by Chamberlin (1946), but must be rejected, as M. melanonotus has subsequently been demonstrated as not belonging to the Mecistocephalidae ( Crabill, 1950) View in CoL .

Mecistocephalus breviceps Meinert, 1886 View in CoL was described by Meinert (1886b) from two specimens (holotype and paratype). The original description was incomplete, and no other specimens have been referred to this nominal species. Cook (1896a) included it in his new genus Dicellophilus View in CoL , therefore recognizing that it was close to M. limatus . After examining both specimens, Chamberlin (1920) synonymized M. breviceps View in CoL under D. limatus , followed by subsequent authors ( Attems, 1929; Kevan, 1983). Even though the original description of M. breviceps View in CoL was obscure, and apparently inconsistent at some points with the morphology of D. limatus (particularly in the elongation of the forcipules, the putative presence of tubercles on the forcipular coxosternum, the width of the forcipular tergum, and the shape of the sternum of the last leg-bearing sternum), the provenance of the specimens is outside the known geographical range of D. limatus (see below), and the identity of D. limatus could have been misunderstood by R.V. Chamberlin (see above), after directly examining both the holotype and paratype, we can confirm that they are both fully consistent with D. limatus , in all characters recognized here as being diagnostic for the species, and therefore confirm that M. breviceps View in CoL is actually a junior synonym of D. limatus .

Notes on morphology: In describing the three syntypes, the number of pairs of legs was given by Wood (1862, 1865) as ‘43–44’ and this value was subsequently interpreted by Chamberlin (1904) as 43. However, 45 pairs of legs are unambiguously recognizable in the only specimen illustrated by Wood (1865), and an invariant number of 45 pairs has been found in all other specimens examined so far ( Chamberlin, 1912; L. Bonato, pers. observ.), and has been maintained by all authors since then (e.g. Attems, 1929, 1947; Verhoeff, 1934). Worth noting is that H.C. Wood often gave approximate estimates of the number of leg pairs of geophilomorphs in his papers, usually not counting the last pair, which were often very distinct from the other pairs.

Distribution: The species occurs naturally in a restricted area in the south-western part of North America, along the Pacific Coast Range of central and southern California, in particular around the San Francisco Bay and close to Los Angeles ( Fig. 10 View Figure 10 ). It has been recorded in at least half a dozen localities, namely Mill Valley, Sausalito, Berkeley, Stanford, Claremont ( Chamberlin, 1912), and Sonoma (L. Bonato, pers. obs.).

Notes on distribution: Dicellophilus limatus has been recorded from three localities in eastern North America ( Fig. 10 View Figure 10 ), but no compelling evidence exists to indicate that the species actually lives outside of the restricted range in California. Wood (1862, 1865) stated that both the holotype and paratype of M. breviceps (actually identical to D. limatus ; see above) were collected from Nantucket Island, along the coast of Massachusetts, but such a locality is not reported on the labels associated with the specimens, and are only noted in a catalogue, and therefore the actual provenance of the specimens remain dubious, as already highlighted by Chamberlin (1920). Meyer (1937) reported to have collected several specimens of D. limatus at Cedar Glade, near Nashville, Tennessee, but the identification is possibly unreliable, as intimated by R.E. Hefner (see Notes on distribution, for Dicellophilus ) and no other specimens have been recorded in that or neighbouring states by other authors (e.g. Bollman, 1888; Chamberlin, 1921). A specimen preserved in the collections of the Smithsonian Institution, Washington, DC (USNM 2046777), and labelled as ‘ Florida: Miami (Chapman Field)’ has been examined by us, and found to be fully consistent with D. limatus in all characters here recognized as being diagnostic of the species; it is worth noting that an associated label documented that it had already been examined by R.E. Crabill, who indicated it as resembling D. limatus ; however, no other specimen of Dicellophilus has ever been collected in Florida, despite the relatively extensive sampling in that state (e.g. Mc Neill, 1887; Cook, 1899; Chamberlin, 1958; Corey, 1988; Corey & Stout, 1992).

Kingdom

Animalia

Phylum

Arthropoda

Class

Chilopoda

Order

Geophilomorpha

Family

Mecistocephalidae

Genus

Dicellophilus

Loc

Dicellophilus limatus

Bonato, Lucio, Dányi, László & Minelli, Alessandro 2010
2010
Loc

Dicellophilus

Cook 1896
1896
Loc

Mecistocephalus breviceps

Meinert 1886
1886
Loc

M. breviceps

Meinert 1886
1886
Loc

Mecistocephalus breviceps

Meinert 1886
1886
Loc

M. breviceps

Meinert 1886
1886
Loc

M. breviceps

Meinert 1886
1886
Loc

M. breviceps

Meinert 1886
1886
Loc

Mecistocephalus limatus

Wood 1862
1862
Loc

Mecistocephalus limatus

Wood 1862
1862
Loc

Mecistocephalus melanonotus

Wood 1862
1862
Loc

M. limatus

Wood 1862
1862
Loc

M. melanonotus

Wood 1862
1862
Loc

M. limatus

Wood 1862
1862
Loc

M. melanonotus

Wood 1862
1862
Loc

M. limatus

Wood 1862
1862
Loc

D. limatus

Wood 1862
1862
Loc

D. limatus

Wood 1862
1862
Loc

D. limatus

Wood 1862
1862
Loc

D. limatus

Wood 1862
1862
Loc

D. limatus

Wood 1862
1862
Loc

D. limatus

Wood 1862
1862
Darwin Core Archive (for parent article) View in SIBiLS Plain XML RDF