Octocorallia, Haeckel, 1866

Subclass Octocorallia View in CoL

Order Alcyonacea

Suborder Calcaxonia Grasshoff, 1999 1

Family Primnoidae Milne-Edwards, 1857 View in CoL

Thouarella Gray, 1870 View in CoL

Primnoa Valenciennes, 1846 View in CoL : pl. 12, figs 2, 2a (only images); Milne-Edwards 1857: 140; Gray 1857: 286; 1859: 483; Kölliker 1865: 135

Thouarella Gray, 1870: 45 View in CoL ; 1872: 746; Studer 1878: 649; 1887: 50; (in part), Wright & Studer 1889: 59–61 pl. 11, 14; Versluys 1906: 22–24; Thomson & Henderson 1906: 38–41 (comparison table); Kükenthal 1907: 202–208; 1908: 10–11; 1912: 292; (in part) Bayer 1961: 294 (key to genus); 1981: 936 (key to genus); Broch 1965: 24; Stibane 1987: 17–26, pl. 1(4), 2(4); Williams 1992: 277

Rhopalonella Roule, 1908: 2–3 , pl. 1, figs 5–8

? Hookerella Gray, 1870: 45

Thouarella (Diplocalyptra) Kinoshita 1908b: 454 View in CoL , 457 (key to subgenus), pl. 17, fig. 2 (in Japanese, English translation at USNM); 1908c: 517–519 (in Japanese, English translation at USNM); 1908d: 52 (key to subgenus, in German)

Not Primnodendron Nutting 1912: 71–72 , pl. 9, fig. 2, 2a; pl. 19, fig. 4

Thouarella (Epithouarella) Kükenthal 1915: 150–151 View in CoL (key to subgenus and species); 1919: 435 (key to subgenus and species); 1924: 299 (key to subgenus and species); Bayer 1956: F220

Thouarella (Euthouarella) Kükenthal 1915: 149–150 View in CoL (key to subgenus and species); 1919: 414–415 (key to subgenus and species); 1924: 292 (key to species); Bayer 1956: F220; Bayer & Stefani 1989: 455 (key to subgenus); Cairns 2006: 176, 187–188

Thouarella (Parathouarella) Kükenthal 1915: 150 (key to species); 1919: 425–426 (key to species); 1924: 296–297 (key to subgenus and species)

Thouarella (Thouarella) View in CoL : Bayer 1956: F220; Bayer & Stefani 1989: 455 (key to subgenus); Cairns 2006: 176

Definition

The colony consists of a main stem, generally simple with rare divisions. Branching is either pinnate, dichotomous, or in a bottlebrush manner (where it is branched in at least 3 directions). Polyps are isolated, paired, or in whorls, generally upwardly inclined at 45–90˚ from the branchlet. Polyp heads are wider than the base and completely protected by 5-8 rows of longitudinally arranged scales each of 5–15 (generally 5–8) scales. Adaxial body-wall scales are often reduced in size and number.

A well-developed, conical operculum consists of 8 operculars; on rare occasions accessory operculars are found beneath the operculum. Opercular scales are lanceolate, arrowhead-shaped, or tongue-shaped, often with a keel. The operculum is surrounded by 8 marginals, often in 2 alternating rings of 4 because the operculum circumference is not large enough to accommodate 8 adjacent marginals. Marginals are keeled on their inner surface; keels are simple, channelled, or a complex multi-keel. Marginals often fold over the operculum, with the keel fitting into the concave outer opercular surface. Opercular scales are lanceolate, arrowhead-shaped, or tongueshaped, often with a keel.

Distribution

A wide global distribution: South Africa, Chile, western Atlantic from Burdwood Bank to northern Florida, Japan, Aleutian Islands, Australia, Tasman Sea, New Zealand, especially common around Antarctica /sub-Antarctic. Found from 60–2100 m depth.

1. Calcaxonia are not monophyletic in recent phylogenetic studies ( McFadden et al. 2006; Taylor et al., in prep), however a taxonomic revision has not been completed.

Comparisons

Thouarella View in CoL was placed close to three genera within the most recent phylogenetic morphological analysis of Primnoidae ( Cairns & Bayer 2009) View in CoL : Pyrogorgia Cairns and Bayer, 2009 View in CoL ; Amphilaphis Studer and Wright , in Studer, 1887; and Convexella Bayer, 1996 View in CoL . The bottlebrush form of Thouarella View in CoL can also be easily mistaken for several other genera with similar branching morphologies.

Species of Convexella View in CoL have marginal scales with a smooth inner surface whereas those of Thouarella View in CoL have a keel.

The only species of Thouarella that may be described as having the distinctive “radiating spinose ridges” ( Cairns & Bayer 2009) found on the outer surface of body-wall scales of Pyrogorgia , is T. striata . However, the polyps of the latter are isolated and the colonies bushy, which is very unlike the uniplanar, dichotomous colony shape and polyp whorls of Pyrogorgia species , making Thouarella and Pyrogorgia clearly distinct.

According to Cairns and Bayer (2009) Amphilaphis differs from Thouarella in having polyps with eight ‘complete’ rows of body-wall scales, whereas the two adaxial rows of body-wall scales in Thouarella are relatively reduced in size. This scale size reduction is a particularly difficult character to quantify. Amphilaphis species are not considered within this revision as it was written prior to the recent revision of the genus Amphilaphis (Zapata- Guardiola & López-González, 2012).

Thouarella View in CoL is most closely related, in terms of polyp morphology, to Plumarella View in CoL and Amphilaphis . Species of Plumarella View in CoL are uniplanar, often plumose, whereas only six species of Thouarella View in CoL are truly uniplanar, although some bottlebrush arrangements are compressed giving a uniplanar appearance (e.g. T. brucei View in CoL ). The polyps of Plumarella species are usually placed in an alternately biserial manner (there are a few species with isolated polyps), whereas within Thouarella View in CoL only T. bipinnata Cairns, 2006 View in CoL , T. minuta View in CoL , and T. koellikeri View in CoL have polyps that are approximately biserial. Marginal scales of Plumarella species are fixed, i.e. do not fold over the operculars (although this is a difficult character to judge, especially in species with long marginals, e.g. T. variabilis View in CoL ). Species of Plumarella View in CoL have eight rows of body-wall scales; the number of scales in a row can be reduced adaxially, which is very similar to Thouarella View in CoL . Polyps of Plumarella View in CoL often stand at 90° to the branchlet, whereas those of Thouarella View in CoL are mostly at 45–80°. All of these characters are not exclusive to either Thouarella View in CoL or Plumarella View in CoL . The only diagnostic character to separate the two genera is the presence or absence of keeled marginals; a keeled marginal is considered a character of Thouarella View in CoL , unkeeled is Plumarella ( Cairns 2010) View in CoL .

As already mentioned, there are a number of genera with bottlebrush colonies that are often mistaken for Thouarella View in CoL . The similarities and differences between these genera and Thouarella View in CoL are listed below:

Colonies of Dasystenella Versluys, 1906 have a bottlebrush formation and are often misidentified as Thouarella . Dasystenella primarily differs from Thouarella in having polyps with just five marginal scales, compared to eight in the latter. Only one species of Dasystenella has been described ( D. acanthina ) yet much variation was observed amongst specimens seen throughout this study. Dasystenella requires further investigation as there is likely more than one species ( Cairns 2006).

Although it has a bottlebrush colony shape, the newly described genus Tauroprimnoa Zapata-Guardiola & López-González, 2010 differs from Thouarella in having polyps with only four marginals.

The recently described bottlebrush genus Digitogorgia Zapata-Guardiola & López-González, 2010 has marginals with a smooth inner surface and numerous irregular longitudinal rows of body-wall sclerites and is thus distinct from Thouarella .

Fannyella (Scyphogorgia) Cairns and Bayer, 2009 View in CoL also has a bottlebrush form and is separated from Fannyella (Cyathogorgia) Cairns and Bayer, 2009 View in CoL only by branching morphology (the latter being dichotomously branched, verging on pinnate). Fannyella Gray, 1872 View in CoL has ascus-type body-wall scales, which have a distinct boundary separating their exposed distal area from the covered proximal area, whereas Thouarella View in CoL has even, unsectioned, non-ascus body-wall scales.

Colonies of Parastenella Versluys, 1906 View in CoL are mostly uniplanar, however, they can be bushy with isolated, paired, or whorled polyps and could be easily mistaken for Thouarella View in CoL . The most distinctive difference between these two genera is the morphology of the distal border of the marginal scales of the polyps; marginal scales of Parastenella View in CoL polyps have a fluted hollow structure whereas those of Thouarella View in CoL are unfluted.

Species Group 1—isolated polyps