Rhynchospio aff. asiatica sensu Radashevsky et al., 2014
publication ID |
https://dx.doi.org/10.3897/zookeys.1015.54387 |
publication LSID |
lsid:zoobank.org:pub:F6BD9213-9DB7-4564-AA00-3C61B2F43B2D |
persistent identifier |
https://treatment.plazi.org/id/C8C4A764-9BB2-5708-BA21-76427956243D |
treatment provided by |
|
scientific name |
Rhynchospio aff. asiatica sensu Radashevsky et al., 2014 |
status |
|
Rhynchospio aff. asiatica sensu Radashevsky et al., 2014 View in CoL Figs 4G, H View Figure 4 , 6 View Figure 6
Larval morphology.
Overall body shape short and thick in relation to length. Prostomium broad, stumpy, somewhat notched anteriorly. Peristomium well developed, forming wide collar on sides of prostomium. Two pairs of red or dark red eyes arranged in straight line, lateral pair in kidney-shape. Parapodia strongly differentiated in late larvae. Larval chaetae occur only in notopodia. Pygidium large and round, acquires dorsal cirri in late larvae. Late larvae have two antero-lateral processes on prostomium (Fig. 4H View Figure 4 ). Pigmentation usually absent, some individuals have brownish pigmentation on peristomium, dorsum, and/or pygidium, and/or two medial black pigmentation ventrally on approximately chaetiger VI and anterior margin of the pygidium.
Remarks.
Adult individuals of this species were collected from intertidal and shallow subtidal sandy or muddy bottom sediments in Gamo Lagoon in January 2011 and Sasuhama in September 2011 by using a hand-scoop. To date, three Rhynchospio species, R. foliosa Imajima, 1991, R. gutaea (Ehlers, 1987), and R. tuberculata Imajima, 1991, have been recorded from Japan ( Imajima 1991a). However, extensive morphological and molecular studies revealed the absence of records of R. glutaea from the northern Pacific Ocean ( Radashevsky 2007; Radashevsky et al. 2014, 2016a). Radashevsky et al. (2014) also referred to R. arenicola Hartman, 1936, R. asiatica Chlebovisch, 1959, R. aff. asiatica , and R. glutaea as members of the R. glutaea complex because they resembled each other so closely. Adult morphology and 18S and 16S rRNA gene sequences of Rhynchospio specimens obtained in the present study agree (18S: 1716/1716, 16S: 486/492 bp) with those of R. aff. asiatica (Fig. 3 View Figure 3 ) from South Korea (KJ546296) reported by Radashevsky et al. (2014); therefore, this species was referred to R. aff. asiatica sensu Radashevsky et al. (2014). The larvae and adults were confirmed to match (18S: 1783/1783, 16S: 471/477 bp) using molecular data (Fig. 2 View Figure 2 ).
This species is recorded from Japan for the first time in the present study. The brooding of larvae beneath dorsal branchiae in this species was observed in September 2011 (Fig. 6 View Figure 6 ). The larvae adhere to their parents and are enclosed by branchiae present on the posterior chaetigers (26th-39th chaetigers). The larvae are retained on the parents’ dorsum even when the parent individuals leave their tube, unless the parent is disturbed. Larvae seemed to be released at around the 3-chaetiger stage; the fact that planktonic larvae with more than three chaetigers were commonly collected from plankton supports this observation. Similar dorsal larval brooding was reported in other Rhynchospio species ( Levin 1982; Radashevsky 2007; Radashevsky et al. 2014) and in Streblospio benedicti Webster, 1879 ( Levin 1982, 1984).
Planktonic larvae were found in Onagawa Bay, Gamo Lagoon, and Sasuhama in almost every season of the study period, but few were found in winter season (November to March). Larval morphology of this species resembles that of R. glutaea and R. nhatrangi Radashevsky, 2007 described by Carrasco (1976) and Radashevsky (2007), respectively. The overall larval morphology of Rhynchospio species is quite similar to that of the genus Malacoceros described in Hannerz (1956, as Scolelepis ), but it differs in the latter having three pairs of black eyes, the most lateral pairs with double-eyes.
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.
Kingdom |
|
Phylum |
|
Class |
|
Order |
|
Family |
|
SubFamily |
Nerininae |
Genus |