Search for mesophotic octocorals (Cnidaria, Anthozoa) and their phylogeny: I. A new sclerite-free genus from Eilat, northern Red Sea

Abstract This communication describes a new octocoral, Altumia delicata gen. n. & sp. n. (Octocorallia: Clavulariidae), from mesophotic reefs of Eilat (northern Gulf of Aqaba, Red Sea). This species lives on dead antipatharian colonies and on artificial substrates. It has been recorded from deeper than 60 m down to 140 m and is thus considered to be a lower mesophotic octocoral. It has no sclerites and features no symbiotic zooxanthellae. The new genus is compared to other known sclerite-free octocorals. Molecular phylogenetic analyses place it in a clade with members of families Clavulariidae and Acanthoaxiidae, and for now we assign it to the former, based on colony morphology. The polyphyletic family Clavulariidae is, however, in need of a thorough revision once the morphological distinctions among its phylogenetically distinct clades are better understood.


Introduction
Sclerites are microscopic, calcitic skeletal elements embedded in the tissues of certain groups of invertebrates, such as holothurians, tunicates and octocorals. Amongst the latter, they are considered to be one of the most prominent characteristic features and their form and anatomical arrangement are of major taxonomic importance (Fabricius and Alderslade 2001). Octocoral sclerites may vary greatly in morphology and size among different parts within a colony as well as among distinct taxa. They also differ in density and spatial orientation in the coenenchyme, and therefore in the degree to which they provide mechanical support and protection to colonies. In some taxa (e.g. gorgonians belonging to the subordinal group Scleraxonia) dense aggregations of fused sclerites form rigid axes that support very large, arborescent colonies (Fabricius and Alderslade 2001). In other taxa (e.g. some Nephtheidae) there is no skeletal axis and relatively few sclerites can be found in the coenenchyme, but bundles of large sclerites nonetheless support and protect individual polyps. Rarely, octocoral species may lack sclerites entirely.
The majority of species in the families Alcyoniidae, Clavulariidae and Xeniidae have sclerites, however species without sclerites represent unusual exceptions. The families Alcyoniidae and Clavulariidae are highly polyphyletic (McFadden andOfwegen 2012, 2013), and the few species that lack sclerites belong to unique clades that are not closely related to other members of those families. The depth of collection has been indicated for some of the above sclerite-free species, but none specifically refer to mesophotic coral ecosystems (MCEs). Thus, these octocorals are principally shallowreef inhabitants (<30 m depth), except for Dendrobrachia spp., which are deep-water inhabitants. A recent remote-operated vehicle survey (ROV) conducted in Eilat (Gulf of Aqaba, northern Red Sea) at mesophotic depths (see also Benayahu et al. 2017) revealed a sclerite-free octocoral, whose morphological features and phylogenetic affinities justify the establishment of a new genus, described below.

Materials and methods
Samples were collected by ROV (ECA H800) operated at a depth range of 50-190 m, by Sam Rothberg R/V of the Interuniversity Institute for Marine Sciences in Eilat (IUI). In situ photography was carried out by a low-light black and white camera VS300 (Eca Robotics) and 1CAM Alpha HD camera (SubCimaging). Samples were obtained by the ROV arm; fragments were removed on board and preserved in 100% ethanol for molecular work. The original samples were placed in 70% ethanol for taxonomic identification, and deposited at the Steinhardt Museum of Natural History, Israel National Center for Biodiversity Studies (ZMTAU).

Systematic section
Family Clavulariidae Hickson, 1894 Sub-family Clavulariinae Roxas, 1933 Altumia gen. n. http://zoobank.org/03DD2AAA-D26D-4E41-A6B8-A6DB1CAEF749 Diagnosis. Clavulariinae with a thin and soft encrusting base, sometimes resembling a short stolon. Polyps erect when expanded, separate from each other; the stolon may feature a few polyps, occasionally only one. Polyps fully retractile into base of the colony, forming low truncated dome-shaped mounds. No sclerites in any part of the colony. Colonies lack symbiotic algae (zooxanthellae). Type species: Altumia delicata sp. n. by original designation and monotypy.
Etymology. The generic name is derived from the Latin 'altum', deep, referring to the habitat of the new genus at MCE depths and beyond. Gender female.
Molecular results. Maximum likelihood and Bayesian analyses yielded identical tree topologies that both support the phylogenetic placement of Altumia n. gen. as the sister taxon to Acanthoaxis wirtzi (Acanthoaxiidae), within a larger well-supported clade that also includes the Clavulariidae genera Carijoa F. Müller, 1867 andCryptophyton Williams, 2000 (Figure 1). Pairwise genetic distances (Kimura 2-parameter) between Altumia n. gen. and Acanthoaxis Diagnosis. The ethanol-preserved holotype is comprised of thin patches of short stolon-like crusts growing over the dead branch of a black coral (Antipatharia) (Figure  2A), almost invisible to the naked eye. The milky-white, thin (<0.5 mm) crusts are a few mm long ( Figure 2B), very soft, almost slime-like. Polyps completely retracted and practically invisible in the preserved colonies. No sclerites observed in any part of the colony.
When alive, the delicate, semi-transparent expanded polyps are distinct and are up to 20 mm long, featuring eight pinnate tentacles ( Figure 3A). The ROV photographs indicate that the colonies commonly grow on dead black corals; the latter may reach a  large size (~45 cm in length) and can be predominantly fouled by A. delicata ( Figure 3B). Interestingly, debris, such as PVC net found at a depth of 100 m, was found to be colonized by this octocoral ( Figure 3C).
Intraspecific variability. There are no differences between the holotype and the paratype except for the size of the colonies.
Etymology. The species name is formed from the Latin 'delicata', delicate, referring to the fine texture of the colonies and their polyps. Gender female.

Discussion
Assignment of Altumia gen. n. to family Clavulariidae is complicated by the recognition that this family is highly polyphyletic, comprising at least seven distinct clades distributed across the Octocorallia (McFadden and Ofwegen 2012). Among other species that lack sclerites, Altumia delicata n. gen. n. sp. is most similar morphologically to Cervera atlantica, an azooxanthellate, stoloniferous species formally classified in the family Cornulariidae (López-González and Garcia-Gomez 1995). Cervera is, however, far removed phylogenetically from Cornularia, a genus that is characterized by a thecalike peridermal envelope that surrounds the polyp, a unique morphological feature not found in Cervera or any other octocoral. Phylogenetically, Cornularia occupies a unique, basal position within Octocorallia. In contrast, Cervera belongs to the large Holaxonia-Alcyoniina clade, where it is a close sister taxon of Azoriella, a genus of Clavulariidae ( Figure 1). These morphological and phylogenetic differences suggest that Cervera should not be classified in Cornulariidae, but instead in Clavulariidae. Cervera and Altumia gen. n. are also morphologically similar to another clavulariid, Phenganax parrini, although that sclerite-free species has zooxanthellae. Despite its morphological similarity to Cervera and Phenganax, the molecular phylogenetic analyses suggest that Altumia gen. n. is not closely related to either of those genera (Figure 1). Instead it falls within a clade comprising two other genera of Clavulariidae, Carijoa and Cryptophyton, as well as Acanthoaxis wirtzi, the sole member of family Acanthoaxiidae. Altumia gen. n. is, however, morphologically distinct from each of those genera. Carijoa and Cryptophyton both have sclerites; Carijoa is further distinguished by a growth form in which secondary polyps arise from primary, axial polyps, while Cryptophyton has a membranous growth form. Like Altumia gen. n., Acanthoaxis wirtzi lacks sclerites, but it has an axis of gorgonin with a hollow, crosschambered core and spines, which are unique morphological features that define the monotypic family Acanthoaxiidae. Because of its morphological similarity to other Clavulariidae and its phylogenetic position within a clade that includes members of that family, we have assigned Altumia gen. n. to Clavulariidae. As discussed by McFadden and Ofwegen (2012), the polyphyletic family Clavulariidae will require extensive revision once the morphological distinctions among its phylogenetically distinct, component clades are better understood.
At present there is only scant information on MCE octocorals (Shoham and Benayahu 2017 and references therein), and no study has referred to any octocoral similar to Altumia delicata. Undoubtedly, the discovery of A. delicata highlights the need for an in-depth study of MCE octocoral diversity. The photographic records from the ROV indicate a continuous distribution of this species from 69 to 140 m depth and, therefore, it can be concluded that it inhabits lower MCEs (> 60 m, see Loya et al. 2016). However, its possible occurrence at deeper sites should be further explored. For instance, Kahng et al. (2014) noted that it is still unclear whether MCEs host specialized coral communities, or are merely marginal extensions of their shallower counterparts.

Conclusion
The current study highlights the possibility that MCEs may host octocorals also found below the deepest fringes of these MCEs; and that specifically, deep-water octocorals may populate the zone alongside those of the lower MCEs, contributing to the biodiversity there. Consequently, questions related to the genetic/demographic connectivity between MCEs and shallower reefs (Loya et al. 2016) are potentially relevant to understanding the connectivity between MCEs and deeper communities. laboratory assistance, A. Shlagman for curatorial skills, V. Wexler for digital editing and N. Paz for editorial assistance. This research was supported by the TASCMAR project (Tools and Strategies to access original bioactive compounds from cultivated marine invertebrates and associated symbionts) that has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 634674; and by the Israel Cohen Chair in Environmental Zoology to YB. Collection of animals complied with a permit issued by the Israel Nature and National Parks Protection Authority.