Ascidiacea (Chordata: Tunicata) of Greece: an updated checklist.

BACKGROUND: The checklist of the ascidian fauna (Tunicata: Ascidiacea) of Greece was compiled within the framework of the Greek Taxon Information System (GTIS), an application of the LifeWatchGreece Research Infrastructure (ESFRI) aiming to produce a complete checklist of species recorded from Greece. This checklist was constructed by updating an existing one with the inclusion of recently published records. All the reported species from Greek waters were taxonomically revised and cross-checked with the Ascidiacea World Database. NEW INFORMATION: The updated checklist of the class Ascidiacea of Greece comprises 75 species, classified in 33 genera, 12 families, and 3 orders. In total, 8 species have been added to the previous species list (4 Aplousobranchia, 2 Phlebobranchia, and 2 Stolidobranchia). Aplousobranchia was the most speciose order, followed by Stolidobranchia. Most species belonged to the families Didemnidae, Polyclinidae, Pyuridae, Ascidiidae, and Styelidae; these 4 families comprise 76% of the Greek ascidian species richness. The present effort revealed the limited taxonomic research effort devoted to the ascidian fauna of Greece, which is attributed to the lack of experts and low sampling effort. Therefore, major knowledge gaps on the ascidian diversity of Greece occur and further research in this field is needed.

Introduction

The class (phylum , subphylum ) is globally represented by over 2,800 marine species (Shenkar and Swalla 2011, Shenkar et al. 2016b). Ascidians have been identified as a distinct zoological group since the ancient times; Aristotle was the first who described these peculiar animals, "Téthya", as the most extraordinary ones having a completely hidden body inside a leathery shell attached on rocks and with two openings some distance apart (Voultsiadou and Vafidis 2007). Their taxonomic classification proved to be challenging for zoologists. As members of the subphylum , their close affinity to vertebrates has been recently confirmed by phylogenomic studies (Delsuc et al. 2006). Furthermore, the original classification of Lahille (1886), which classified the ascidian species into the orders , , and according to the structure of the branchial sac, is supported by molecular phylogeny and is currently accepted by most taxonomists (Shenkar and Swalla 2011). However, there are still different views on the placement of several families into orders, and the phylogenetic relationships within the ascidians remain fuzzy (Turon and López-Legentil 2004, Moreno et al. 2008, Pérez-Portela et al. 2009, Tsagkogeorga et al. 2009, Shenkar et al. 2016a).

The first list of Mediterranean ascidians (Pérès 1958, Pérès 1967) reported 132 species; since then, the relevant scientific research increased leading to 229 ascidian species at present (Coll et al. 2010, Shenkar and Swalla 2011). Most records are from the western Mediterranean (165 species), where much more effort has been devoted as opposed to the eastern basin, from which only 86 species have been reported (Koukouras et al. 1995). Among Mediterranean ascidians, 103 exclusive species are included and the entire basin has been recognized as an area of endemism, at least for this specific taxonomic group (Naranjo et al. 1998, Moreno et al. 2014).

In the Greek seas, however, only scattered records of ascidian species were available, either in relevant faunistic accounts (e.g. Hartmeyer 1904, Monniot and Monniot 1974, Koukouras and Siamidou-Efremidou 1978) or in general ecological publications (e.g. Pérès and Picard 1958, Kiseleva 1963, Vamvakas 1971). Koukouras et al. (1995) published the first checklist of the Aegean , covering also the eastern Mediterranean basin and the Black Sea. So far, this work was the only comprehensive systematic account on the Greek ascidians, combining primary data with an exhaustive literature review. After this publication, a number of studies have been conducted covering various aspects of ascidian biology, such as population dynamics (Panagiotou et al. 2007, Panagiotou et al. 2008, Vafidis et al. 2008), reproduction (Panagiotou et al. 2008, Vafidis et al. 2008), fisheries (Antoniadou and Vafidis 2008), and ecology in general (Morri et al. 1999, Antoniadou et al. 2006, Antoniadou et al. 2013, Sini et al. 2014) or focusing on ascidian associations with other invertebrates (Voultsiadou et al. 2007, Voultsiadou et al. 2010). This research effort has led to some new records of ascidian species in the Aegean Sea (i.e. Morri et al. 1999, Sini et al. 2014), in parallel with additional biodiversity records (Thessalou-Legaki et al. 2012) and the presence of non-indigenous species (Kondilatos et al. 2010, Katsanevakis et al. 2014).

Therefore, the aim of the present work is to compile an updated checklist of of the Greek seas. For this purpose, the earlier list compiled by Koukouras et al. (1995) has been extended, updated, and annotated according to the recent literature and taxonomic status.

Materials and methods

The Checklist of of Greece (Suppl. material 1) was compiled within the context of the Greek Taxon Information System (GTIS). GTIS is an application of the LifeWatchGreece Research Infrastructure (ESFRI) aiming to produce a complete inventory of the Greek biota, by joining relevant efforts. As a first step, the publication of Preliminary Checklists for each taxonomic group has been suggested (Bailly et al. 2016). The present checklist of ascidians has been based on the key-publication of Koukouras et al. (1995), who had compiled the ascidian species list of the Aegean Sea for the first time. In the course of the current study, all recent primary literature was also thoroughly searched and the relevant data were incorporated into the updated species list. New species additions are annotated in the checklist and cited along with the first literature reference reporting their presence in the Greek seas. Non-indigenous species (NIS) are also marked. A cross-checking of all species names and their higher classification was carried through the Ascidiacea World Database, AWD (Shenkar et al. 2016b); the classification followed in the present checklist is the one proposed by the AWD, which contains an updated list of all ascidian species, recursively revised by ascidian taxonomy experts (Shenkar and Swalla 2011).

Checklists

Checklist of known to occur in Greek waters

(Zirpolo, 1825)

(Müller, 1776)

Lafargue, 1976

(Drasche, 1883)

Lafargue, 1975

(Milne Edwards, 1841)

(Drasche, 1883)

(Milne Edwards, 1841)

Brément, 1913

(Milne Edwards, 1841)

Notes

Recorded by Morri et al. (1999)

(Giard, 1872)

(Giard, 1872)

Recorded by Thessalou-Legaki et al. (2012)

Lafargue, 1968

(Giard, 1872)

(Giard, 1872)

(Drasche, 1883)

(Della Valle, 1877)

(Della Valle, 1877)

(Renier, 1804)

(Hartmeyer, 1904)

(Milne Edwards, 1841)

Drasche, 1883

(Olivi, 1792)

(Giard, 1872)

Recorded by Sini et al. (2014)

(Milne Edwards, 1841)

(Verrill, 1871)

(Pérès, 1956)

(Savigny, 1816)

Monniot & Gaill, 1978

Harant, 1930

Milne Edwards, 1841

Recorded by Morri et al. (1999)​

Pérès, 1952

Monniot C. & Monniot F., 1970

Müller, 1776

Heller, 1874

(Traustedt, 1885)

Müller, 1776

(Müller, 1776)

(Müller, 1776)

(Grube, 1864)

(Cuvier, 1815)

Savigny, 1816

Recorded by Kondilatos et al. (2010); NIS

(Linnaeus, 1767)

Lahille, 1887

Recorded by Thessalou-Legaki et al. (2012)

(Müller, 1776)

(Savigny, 1816)

Savigny, 1816

Philippi, 1843

Herdman, 1880

Recorded by Monniot (1983)

Wiegman, 1835

(Alder & Hancock, 1848)

Heller, 1877

(De Kay, 1843)

Kupffer, 1875

(Linnaeus, 1767)

(Savigny, 1816)

Recorded by Katsanevakis et al. (2014); NIS

(Savigny, 1816)

Monniot C., 1962

Heller, 1877

Roule, 1885

Monniot, 1962

Heller, 1877

(Heller, 1877)

(Savigny, 1816)

(Alder, 1863)

(Forbes, 1848)

(Pallas, 1766)

(Savigny, 1816)

Gaertner, 1774

Monniot C. & Monniot F., 1974

(Stimpson, 1852)

Heller, 1877

(Savigny, 1816)

(Savigny, 1816)

(Lesueur, 1823)

Discussion

A total of 75 species classified, according to AWD, into 33 genera, 12 families and 3 orders, have been reported from the Greek seas. In addition, , Müller, 1776 which is included in AWD and WoRMS databases is a doubtful record for the Greek seas because its original reference for the area is missing and thus it was not included in the list by Koukouras et al. (1995). and are the most speciose orders with 32 and 25 species, respectively. reach 36 species, if the families and are included therein instead of , as suggested by various ascidian taxonomists based on morphological, developmental, and molecular data (Kott 1990, Turon and López-Legentil 2004, Shenkar and Swalla 2011, Shenkar et al. 2016a) but not currently adopted by AWD. The families (14 species), (12 species), (12 species), (10), and (9 species) comprised the highest number of species, covering altogether 76% of the Greek ascidian species richness. The first two families have been identified as the most speciose ones across most Mediterranean longitudinal bands (Moreno et al. 2014).

Most ascidian species included in the present checklist were already known as elements of the Greek fauna (Koukouras et al. 1995), while 8 new additions were made in the course of this compilation. These additions include: 4 species of , namely , , , and ; 2 species of , namely and ; and 2 species of , namely and . Although the latter species may need additional confirmation because of the identification uncertainty between the 3 darkly pigmented species when based on exclusively external features (Vandepas et al. 2015), we consider its presence as valid since it has been reported from the south sector of the Aegean Sea by multiple authors (Kondilatos et al. 2010, Çinar 2014).

The Greek ascidian fauna is mainly composed by species of Atlanto-Mediterranean origin (44.4%) or by endemic species (40.3%), as previously suggested (Koukouras et al. 1995). Among the newly added species, is a Mediterranean endemic, whereas and are considered non-indigenous species (NIS) of circum(sub)tropical and Indo-pacific origin, respectively (Gerovasileiou et al. 2016); both species have been probably introduced through shipping (Galil et al. 2016). Another three species, i.e. Traustedt, 1883, (Lahille, 1890), and Heller, 1878, have been recently reported from the Turkish coasts of the Aegean (Çinar 2014); this may imply their presence in the nearby Greek coasts, since they are part of the same ecoregion, the Aegean Archipelago (Spalding et al. 2007) and also part of the Levantine cluster, i.e. areas highly impacted by Erythraean species migration (Galil et al. 2016). Finally, we should mention the presence of (Michaelsen, 1904) in the Turkish levantine coasts (Çinar et al. 2006). Since several non-indigenous ascidians, such as and , have invaded the Greek waters few years after their first record in Turkish waters, it is reasonable to expect them to be reported from south Greece as well, within next few years.

The present updated checklist of of the Greek seas summarizes the status of the current knowledge. However, a major gap in our knowledge on ascidian diversity of the Greek seas is obvious when the number of species is compared to those known from the western Mediterranean. This can be attributed to two main reasons: (i) the absence of ascidian expertise in Greece and, (ii) the fact that the entire literature on Greek ascidians refers almost exclusively to the Aegean Sea. The necessity for further research on ascidian diversity becomes therefore obvious and expands to the Ionian and Levantine coasts of Greece, from which the ascidian fauna has practically not at all been studied so far.

Checklist of the ascidian fauna (: ) of Greece

Data type: Taxonomic checklist

Brief description: Taxonomic checklist of known to occur in Greek waters.

File: oo_97915.xls