Published December 31, 2016 | Version v1
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Kirkegaardia dorsobranchialis Kirkegaard 1959, new combination

Description

Kirkegaardia dorsobranchialis (Kirkegaard, 1959), new combination

Figures 3–4

Cirratulus dorsobranchialis Kirkegaard, 1959: 34 –36, figs. 2–3.

Tharyx dorsobranchialis: Day, 1961: 501 –502; 1967: 506, fig. 20f–h; Laubier 1966: 633 –637; Day et al., 1970: 30; Hartmann- Schröder 1974: 178; Intes & LeLeouff 1977: 222.

Monticellina dorsobranchialis: Blake 1991: 24 –26 (In part); Çinar 2005: 150; Çinar et al. 2014: 748.

Material examined. SE Atlantic, West Africa: Off Angola, Bay of Lobito, 12°20′S, 13°40′E, 27 m, 20 Dec. 1950, Galathea Expedition Sta. 120, holotype and 3 p aratypes (ZMUC-POL-241–2); same sample, 4 additional paratypes (ZMUC-POL-243).

Description. Holotype an incomplete male with rounded, short-headed mature sperm in posterior segments; body colorless in alcohol. Specimen appearing smooth in general outline without conspicuous segmental constrictions or grooves; segments not swollen or beaded (Fig. 3 A, C). Anterior 85 segments indistinct under lower magnification (63x) with setae inconspicuous. Holotype incomplete, 58 mm long, 0.6 mm wide across thorax at setigers 18–19 for about 150 setigers. Parapodia of thoracic region shifted dorsally, overlying dorsal surface producing distinct mid-dorsal channel (Fig. 3 A). Thoracic region long, with 24 setigers, generally defined by presence of mid-dorsal channel (Fig. 3 A, C); first 14 segments short, similar in length but slightly increasing in width; thereafter slightly decreasing in width and gradually increasing in length to chaetiger 24, where segments transition to abdominal segments and become about 2– 3x as long as setigers 1–14. More posteriorly segments become larger and increase in length, becoming about as long as wide (Fig. 3 D). Paratypes similar in overall morphology. Pygidium not observed.

Pre-setigerous region as long as wide in holotype, up to 1.5x as long as wide in some paratypes. Prostomium of holotype conical, about as long as wide, appearing blunt in dorsal view due to tip of prostomium being bent ventrally (Fig. 3 B); eyespots absent; nuchal organs inconspicuous, appearing at corners of mouth (Fig. 4 D). Proboscis elongated, sac-like, appearing cleft ventrally when extended (Fig. 4 E). Prostomium not visibly separated from peristomium (Figs. 3 A–C, 4D); peristomium smooth; holotype and most paratypes without visible annulations (Figs. 3 A–C, 4D); one paratype with faint transverse lines evident (Fig. 4 E). Paired dorsal tentacles retained as basal stumps in specimens examined, arising medially on posterior margin of peristomium anterior to setiger 1 (Figs. 3 A, C, 4D).

First pair of branchiae arising posterolateral to dorsal tentacle scars anterior to setiger 1; second pair of branchiae on setiger 1 arising medial to notosetae; following thoracic segments with branchiae in same location (Figs. 3 A, C, 4D–E). Branchiae dorsal throughout with those of right and left sides most widely separated in anterior segments, gradually approaching mid-dorsum and becoming mid-dorsal by about setiger 20, thereafter continuing mid-dorsally throughout length of specimen (Fig. 3 A, C). Branchiae close to notosetae in anterior setigers, then rapidly becoming widely separated from notosetae as branchiae remain in dorsomedial location and parapodia shift to a more lateral location becoming mid-lateral by about setiger 30 (Fig. 3 C).

Parapodia reduced, with rami small, close together but distinctly separated throughout; less conspicuous in anterior region, becoming slightly larger and with more setae posteriorly; parapodia dorsolateral in anterior setigers, gradually shifting to a mid-lateral location (Fig. 3 C); noto- and neurochaetae arising from short, welt-like protuberances. Parapodia appear to emerge from posterior edge of each segment, just posterior to segmental constriction and anterior to narrow band of MG when stained.

Setae relatively short, inconspicuous along body, those of anterior 25 segments slender capillaries in a single row, with up to 15–20 per ramus of both noto- and neuropodia (20–30 per ramus in paratypes provided to him by Dr. Kirkegaard, as noted by Laubier 1966: 637), with fewer setae more posteriorly, reduced to 5–10 per ramus in some paratypes, further reduced to 2–4 setae in far posterior segments. Capillaries relatively short throughout, similar in length and shape within a fascicle, broader basally, abruptly tapering but not aristate distally; notosetae longer than neurosetae, with fine denticles in broad basal part, these not continuing or at least not visible in thin apical extension; most neurosetae shorter than notosetae but similar with fine denticles along one edge of shaft (Fig. 3 E); setae arranged within fascicles such that denticles of notosetae directed ventrally and those of neurosetae directed dorsally, vis-à-vis (Fig. 4 A–C). In posterior abdominal setigers, ventral most 2–3 neurosetae thicker, with very broad base and thicker denticles similar to those described by Kirkegaard (1959: Fig. 3). Far posterior setigers with denticles generally thicker than those of anterior and middle abdominal setigers (Fig. 4 B–C). First appearance of denticulated setae difficult to detect without dissecting numerous segments, but present by at least setigers 15– 20 in paratypes.

Methyl Green stain. A left lateral diagram of the holotype depicts the general pattern of MG staining (Fig. 3 C): tip of prostomium staining dark green with rest of prostomium and most of peristomium evenly speckled light green except for darker anterior area between nuchal organs. Anterior segments with ventral diffuse greenish area, but stain mainly limited to anterior dorsum and dorsolateral areas of thorax (Fig. 3 C); rest of body with stain dorsally concentrated in segmental constrictions, ending just behind parapodia; ventrally with narrow, elongate, diffuse mid-ventral spot on each segment, fading out on posterior segments. Dorsal channel between parapodia does not stain. Same general pattern present on paratypes, but not as prominent.

Remarks. According to a summary of the type material of Cirratulus dorsobranchialis provided to me by the late Dr. Mary E. Petersen (letter dated 14 July 1985) there were originally 13 paratypes of C. dorsobranchialis designated by Dr. Kirkegaard in addition to the holotype. Of these, three paratypes were loaned to Dr. L. Laubier and were commented on by him (Laubier 1966); however, the paratypes were not returned and Dr. Laubier subsequently informed Dr. Kirkegaard that they were lost. In addition, three paratypes were loaned to Dr. A. Eliason and these were also lost. Of the remaining seven paratypes, Dr. Petersen sent three to me for evaluation (Blake 1991); these were returned to Dr. Petersen. While working on cirratulids for the California Taxonomic Atlas, I had occasion to review the notes and sketches of the paratypes examined earlier and asked Dr. Petersen to check a few details, which she kindly provided in April 1994. This reexamination resulted in the conclusion that the synonymies proposed in Blake (1991) were not correct; comments to this effect were stated in (Blake 1996: 318). In September 1997 during a short visit with Dr. Petersen in Copenhagen, I was able to examine the holotype and other specimens of C. dorsobranchialis from Dr. Kirkegaard’s collection and prepared some additional notes and sketches. As part of a review of Dr. Petersen’s research materials following her death, I discovered her own notes and sketches of the C. dorsobranchialis types, which supported my own conclusions. Figure 4 A–E is based on Dr. Petersen’s pencil sketches of selected paratypes and prepared slides of parapodia.

The type specimens described here differ in several important aspects from the description by Kirkegaard (1959). Most importantly, Kirkegaard (1959: Fig. 2) illustrated a worm with 2–3 anterior achaetous annulations; these were not mentioned in the text. The peristomium of the holotype and paratypes had only a smooth surface with no obvious annulations apparent, although faint lines were visible on one paratype (Fig. 4 E). The obvious annulations in Kirkegaard (1959: Fig. 2) might have been due to misinterpretation by the artist who illustrated the specimens for Dr. Kirkegaard. On the same figure, some branchiae are illustrated with inflated tips; these also do not occur on the types examined and were also noted to be absent on the paratypes examined by Laubier (1966); Day (1961) also indicated that such branchiae were not present on the South African specimens he examined.

The short, strongly dentate setae illustrated by Kirkegaard (1959: Fig. 3) were not observed during my initial study of the type material and were not observed by Laubier (1966) in the paratypes he examined and were not observed in specimens identified as Tharyx dorsobranchialis by Day (1961, 1967); instead, only finely serrated setae were observed. It was not until individual parapodia from different parts of the body of paratypes were carefully examined that setae with conspicuous denticles were observed at 400x (Fig. 4 A–C). Most of the denticulated setae along the body have only numerous fine serrations along the shaft (Fig. 3 E) and for the longest and thinnest setae, they were only barely apparent at 400x.

The most conspicuous difference between Kirkegaardia dorsobranchialis and K. heterochaeta noted by Laubier (1966) was the presence of distinct peristomial rings in the first species and none in the second. However, the peristomial rings illustrated by Kirkegaard (1959: Fig. 2) are not present on the holotype and only vague rings were observed on one of the paratypes of K. dorsobranchialis. Thus, other characters are required in order to distinguish between the two species.

One obvious difference is that K. dorsobranchialis has a much shorter peristomium than K. heterochaeta. In K. heterochaeta the long narrow head region (prostomium + peristomium) is as long as the first 8–10 setigers and has a length to width ratio of ca. 2.2:1 whereas in K. dorsobranchialis the ratio of length to width is no more than 1.5: 1 in the paratypes and only 1.1: 1 in the holotype. In addition, specimens of K. heterochaeta examined here have a raised mid-dorsal ridge within the dorsal channel that is not present in K. dorsobranchialis.

The most conspicuous difference between the two species, however, is the MG staining pattern. Kirkegaardia heterochaeta has a prominent oval green patch on the dorsum of the second half of the peristomium prior to the origin of dorsal tentacles and a spectacular dark blue pattern concentrated on the thorax as stripes that begin middorsally and continue down each side with the most intense stain on the venter of the thoracic region. In contrast, the staining pattern of K. dorsobranchialis is less intense, with the tip of the pre-setigerous region darkly stained and the rest of the prostomium and peristomium evenly covered with light speckles. The thoracic segments have a mid-ventral greenish area, but not the intense blue of K. heterochaeta, and stripes are not formed. A narrow, elongate, diffuse mid-ventral spot is present on abdominal segments of both species.

Recent records of K. dorsobranchialis from the Mediterranean by Çinar (2005) and others have not been confirmed. Given the large number of species identified as part of this study from worldwide locations and the differences between the present description of the type material and the original description by Kirkegaard (1959), it is likely that non-African records of K. dorsobranchialis belong to other species.

Among other species of Kirkegaardia reviewed in this study, K. dorsobranchialis is closest morphologically to K. carinata n. sp. from deep-water off northern California, K. chilensis n. sp. from offshore Chile, and K. cryptica (Blake, 1996) from southern California shelf and slope depths. All of these species have an entirely smooth peristomium without either ridges or annular rings. Of these, K. dorsobranchialis and K. cryptica have a smooth mid-dorsal channel; whereas, K. carinata n. sp. and K. chilensis n. sp. have a prominent ridge within the channel. K. cryptica differs most noticeably from K. dorsobranchialis in (1) having a longer pre-setigerous area of 1.9:1 length-to-width ratio instead of up to 1.5:1, (2) having few sharply pointed, widely spaced denticles on the neurosetae instead of numerous larger denticles that are tightly spaced, and (3) several differences in the MG staining patterns.

Biology. The species is recorded from sand and mud in False Bay, South Africa. Other records do not have any sediment data. Short-headed sperm were recorded for this species by Petersen (1999), based on the type collection from Angola, Bay off Lobito in 27 m; presence of sperm was also confirmed as part of my examination of the holotype.

Distribution. West Africa from off Sierra Leone to Angola 27–100 m; South Africa, coastal waters and embayments, 20–105 m; also recorded from the eastern Mediterranean Sea in shallow water.

Notes

Published as part of Blake, James A., 2016, Kirkegaardia (Polychaeta, Cirratulidae), new name for Monticellina Laubier, preoccupied in the Rhabdocoela, together with new records and descriptions of eight previously known and sixteen new species from the Atlantic, Pacific, and Southern Oceans, pp. 1-93 in Zootaxa 4166 (1) on pages 10-14, DOI: 10.11646/zootaxa.4166.1.1, http://zenodo.org/record/272348

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Linked records

Additional details

Biodiversity

Family
Ctenodrilidae
Genus
Kirkegaardia
Kingdom
Animalia
Order
Terebellida
Phylum
Annelida
Scientific name authorship
Kirkegaard
Species
dorsobranchialis
Taxonomic status
comb. nov.
Taxon rank
species
Type status
holotype , paratype
Taxonomic concept label
Kirkegaardia dorsobranchialis (Kirkegaard, 1959) sec. Blake, 2016

References

  • Kirkegaard, J. B. (1959) The Polychaeta of West Africa. Atlantide Report, No. 5, 7 - 117.
  • Day, J. H. (1961) The polychaete fauna of South Africa. Part 6. Sedentary species dredged off Cape coasts with a few new records from the shore. Journal of the Linnean Society of London, 44, 463 - 560. http: // dx. doi. org / 10.1111 / j. 1096 - 3642.1961. tb 01623. x
  • Laubier, L. (1966) Sur la position systematique de Monticellina heterochaeta Laubier, 1961. Bulletin de la Societe Zoologique de France, 91, 631 - 638.
  • Day, J. H., Field, J. G. & Penrith, M. J. (1970) The benthic fauna and fishes of False Bay, South Africa. Transactions of the Royal Society of South Africa, 39, 1 - 108. http: // dx. doi. org / 10.1080 / 00359197009519103
  • Hartmann-Schroder, G. (1974) Zur Kenntnis des Eulitorals der afrikanischen Westkuste zwischen Angola und Kap der Guten Hoffnung und der afrikanischen Ostkuuste von Sudafrika und Mocambique under besonderer Berucksichtigung der Polychaeten und Ostracoden. Tiel II. Die Polychaeten des Untersuchungsgebietes. Mitteilungen aus dem Hamburgischen Zoologischen Museum und Institut, 69, 95 - 228.
  • Intes, A. & Le Loeuff, P. (1977) Les annelides polychetes de Cote d'lvoire. II. - Polychetes sedentaires- Compte rendu systematique. Cahiers O. R. S. T. O. M., Serie Oceanographique, 15, 215 - 249.
  • Blake, J. A. (1991) Revision of some genera and species of Cirratulidae from the Western North Atlantic. In: Petersen, M. E. and J. B. Kirkegaard (Eds.), Proceedings of the Second International Polychaete Conference, Copenhagen. Ophelia, Supplement No. 5, 17 - 30.
  • Cinar, M. E. (2005) Polychaetes from the coast of northern Cyprus (eastern Mediterranean Sea), with two new records for the Mediterranean Sea. Cahiers de Biologie Marine, 46, 143 - 160.
  • Cinar, M. E., Dagli, E. & Sahin, G. K. (2014) Checklist of Annelida from the coasts of Turkey. Turkish Journal of Zoology, 38, 734 - 764. http: // dx. doi. org / 10.3906 / zoo- 1405 - 72
  • Blake, J. A. (1996) Chapter 8. Family Cirratulidae Ryckholdt, 1851. In: Blake, J. A., Hilbig, B. & Scott, P. H. (Eds.), Taxonomic Atlas of the Santa Maria Basin and Western Santa Barbara Channel. Vol. 6. Annelida. Part 3. Polychaeta: Orbiniidae to Cossuridae. Santa Barbara Museum of Natural History, pp. 263 - 384.
  • Day, J. H. (1967) A monograph on the Polychaeta of southern Africa. British Museum of Natural History, Publication, No. 656, 1 - 878.
  • Petersen, M. E. (1999) Reproduction and development in Cirratulidae (Annelida: Polychaeta). In: Dorresteijn, A. W. C. & Westheide, W. (Eds.), Reproductive Strategies and Developmental Patterns in Annelids. Hydrobiologia, 402, 107 - 128. http: // dx. doi. org / 10.1023 / A: 1003736408195