Distribution and species identification in the crustacean isopod genus Dynamene Leach, 1814 along the North East Atlantic-Black Sea axis

Abstract Sphaeromatid isopods, such as Dynamene, are common and abundant members of the invertebrate fauna of littoral and shallow sublittoral substrates. Six species of Dynamene occur in the northern hemisphere. Only two species exist outside this range, in Australia. The distribution of the various species in the NE Atlantic-Black Sea axis has been controversial due to the difficulty in the identification of the different species. This has led to inaccurate records of their distribution, ultimately generating uncertain or faulty assessments on the biodiversity of these habitats. An update and a clarification about the distribution of this genus is therefore in order. In this study, we describe the distribution of Dynamene species in the light of new records from the NE Atlantic Ocean and its associated islands, and the Mediterranean, Black and Red Seas, and from re-examination of museum and several authors’ personal collections. Based on these observations, we extend the northern and southern limits of Dynamene bidentata (Adams); the western and southern limits of Dynamene magnitorata Holdich; the northern, eastern and western limits of Dynamene edwardsi (Lucas); and the eastern and western limits of Dynamene bifida Torelli. The range of Dynamene tubicauda Holdich is extended, but is still only known from the eastern Mediterranean. We also clarify the synonymy of Dynamene torelliae Holdich with Dynamene bicolor (Rathke), and the occurrence of Dynamene bicolor in the Black Sea. New distribution maps of the six Dynamene species are presented. Illustrated keys to the adult males and females of the northern hemisphere species are provided.

posterior margin of the sixth pereonite (Fig. 1). This characteristic is unique to the genus (Harrison and Ellis 1991). Some species of Oxinasphaera Bruce, 1997 have such a process, but this arises from the pleon (Bruce 1997, Schotte andKensley 2005), and paired processes arise from the seventh pereonite in Dynamenella dioxus Barnard, 1914. Juveniles and females, and even sub-adult males (stages 6 and 7), are more difficult to distinguish between the species, and may also be confused with females of other genera. Vieira et al. (2015) have shown clear differences between D. bidentata, D. magnitorata and D. edwardsi at the genetic level using cytochrome oxidase I (COI-5P). Details of the changes occurring throughout the life history of the best-studied species, D. bidentata, are given below.
Dynamene species are present in a wide-range of habitats, but usually amongst algae and in cryptic habitats, e.g., under rocks, crevices, empty barnacle tests, amongst serpulid and tunicate colonies, mussel beds and encrusting sponges, from midlittoral to shallow sublittoral levels (Holdich 1970(Holdich , 1976. Dynamene bidentata, at least, has a biphasic life cycle with a change of habitat, where the immature stages are present amongst the algal cover (which they eat), whilst the adults occupy cryptic habitats where they reproduce and where females can incubate their broods in relative safety (Holdich 1968b(Holdich , 1970(Holdich , 1976. Further details of the habitats occupied by Dynamene along the NE Atlantic-Black Sea axis are given for each species below.
Given that fully adult males may not be present in many collections, species identification is often difficult and leads to incorrect assignments, questioning the validity of the information about the actual distribution of the species. The literature is scattered with misidentifications, which have come to light when such authors' material and/ or publications have been examined by us. In the present study we aim to update and correct the geographical distribution of the six described species of Dynamene from the NE Atlantic-Black Sea axis. To facilitate identification, keys to adult males and females of these six species are provided along with associated photographs. It is hoped that these will enable those involved in littoral and sublittoral surveys in the marine environment to identify species of Dynamene more easily.

Methods
The records of David Holdich (DMH) used in this study are derived from field work carried out in various localities in the British Isles, Atlantic islands, Atlantic coasts of mainland Europe, and the Mediterranean and Aegean Seas (Holdich 1968a, c, 1970, Holdich and Lincoln 1974, Holdich 1976). In addition, there have been donations from many colleagues between 1970 and 2014 (see Acknowledgments). Other samples deposited in several museum collections, particularly those in Leiden, Lisbon, London and Paris (see Acknowledgements), and dating back to the 1920s, have been examined. Also, the Dynamene specimens (deposited at the Universities of Aveiro and Minho) collected by Pedro Vieira, Henrique Queiroga and Filipe Costa with the help of other colleagues (see Acknowledgments) were used to supplement the collections. These sam-ples were collected from the NE Atlantic coasts and the Macaronesian archipelagos of Madeira, Azores and Canary islands, between 2009 and 2015. Samples were taken from rocky shore habitats by scraping of the algal cover and hand picking during low tide.
All specimens of Dynamene from DMH's collections have been deposited in the Naturalis Biodiversity Centre, Leiden, The Netherlands under the catalogue numbers: RMNH.CRUS.1. 7517-7616 and 7642-7676. Specimens of Dynamene already present in the Leiden collections have the catalogue numbers: RMNH.  In most cases the only records considered were of specimens actually seen by the authors, confirmed by molecular tools (unpublished data), or where there were clear diagrams in the literature. Although Holdich (1968c) confirmed many specimens from England and Wales during his surveys, since that time most records of D. bidentata have mainly come about as part of the general fauna collected in marine surveys. So, although many records exist in various British databases, particularly those held in the National Biodiversity Network Gateway and ERICA (see Acknowledgements), the current authors have not tried to track down voucher specimens, but have relied on identifications being correct as only one species of Dynamene is indigenous to the British Isles, thus making records more reliable. Details of all the specimens examined in the current study are given in Suppl. material 1.
Using information in the databases, maps were constructed of the six Dynamene species occurring along the NE Atlantic-Black Sea axis using the software ARCGIS 10.3.
Keys and photographic montages based on the main characters of adult males (stage 8) and females are given at the end of the paper. To construct the montages, photographs of alcohol preserved specimens were taken with a Dino-Eye Microscope Camera attached to a Wild M5 binocular microscope via a phototube. Images were edited using appropriate software on a computer.

Results
In this section a generic description of Dynamene is given, followed by details of each of the six species present along the North East Atlantic-Black Sea axis. Keys to and photographs of males and females of each species are given at the end of the paper. Comparisons are made in the main discussion section and overall conclusions are dealt with in the final section. Details of the material examined and geographical coordinates of locations are given in Suppl. materials 1 and 2.
Life-history. There are eight life-history stages in both males and females (Holdich 1968b). Sexual dimorphism becomes apparent in stage 6 males with the appearance of a very small bidentate process, this increases in size at the seventh, and is fully developed by the eighth and terminal stage (Figs 1D,. This process is absent from juveniles and females . Juveniles and females up to and including stage 7 are very similar to each other morphologically. At the moult to stage 8 females become ovigerous and are very similar morphologically between the species. Their mouthparts are strongly metamorphosed, and they die after releasing their broods (Hansen 1905, Holdich 1968b, 1971. Stage 8 males live for two breeding seasons, at least in the British Isles, and remain in their cryptic habitat for the entire period without apparently feeding (Holdich 1971). Those in their second year are recognizable from the growths of algae, and sometimes serpulids, on the pleotelson.
Habitat. All stages can be found on a wide variety of mid-to lower littoral algae, and also in rock pools in the upper littoral zone. Fenwick (pers. comm., July 2016) has found this species commonly amongst lower shore and sublittoral coralline algae in Cornwall, and he has also recorded adults from under large lower shore pebbles. Stage 7 females and stage 8 males move from the algae into cryptic habitats, such as crevices and empty barnacle tests, particularly Balanus perforatus, to breed (Holdich, 1970(Holdich, , 1976. Stage 7 females moult into stage 8 females within such a habitat and reach peak numbers in April/May each year (Holdich 1968b).
Colour. Some degree of camouflage in the algal habitat is given by green, yellow and brown 'uniformis' phenotypic varieties, and this is enhanced by the development in some individuals of patterns of white or red, dorsal, non-adaptable chromatophores (Tinturier-Hamelin 1962, 1967, Holdich 1969, Arrontes 2009). In the past some workers have given specific status to the red and green colour varieties, e.g. rubra and viridis (see Holdich 1968c). Adult males are particularly colourful when found amongst red algae on the lower shore, with the margins of the body segments and uropods bordered in orange.
Geographical distribution. The distribution of this species shown in Holdich (1970Holdich ( , 1974 has been extended by the present study. It occurs from the Shetland Islands to Tarfaya in western Morocco and Tenerife and Gran Canaria in the Canary Islands, which are the only two records of the species in Macaronesia (Fig. 5A). Within this range D. bidentata occurs in the north, northwest (including the outer islands), west and south coasts (as far as the Isle of Wight) of Great Britain, around Northern and Southern Ireland, the Channel Islands, northwest France, Atlantic Iberian Peninsula and in northwest Africa. Arrontes (1991) cites D. bidentata as being the most abundant isopod species on shores in northern Spain. It is the only species present in the British Isles (with the exception of a single record of D. magnitorata in southern England). It is particularly common in SW England and SW Wales, especially where the large barnacle, Balanus perforatus is present. There is one recent record for northeastern England, which may be the result of a stranding, as are records for The Neth-erlands, where it is not considered indigenous (Holthuis 1956). The closest record to the Mediterranean of D. bidentata is Tarifa, in southern Spain , Izquierdo and Guerra-García 2011, Torrecilla-Roca and Guerra-García 2012.
Remarks. Maggiore and Fresi (1984) described D. bidentata from the Gulf of Naples (publishing descriptions and figures), and several authors (e.g., Castelló and Carballo 2001, Castellanos et al. 2003, Junoy and Castelló 2003 have used Maggiore and Fresi's (1984) observations to justify their findings of D. bidentata in the Mediterranean. Yet, examination of the single specimen found by Maggiore and Fresi (1984) showed that it was in fact a D. magnitorata.
A lot of confusion regarding the identification of D. bidentata was caused by Torelli (1930) who figured what she called D. bidentata (a stage 8 male and a stage 8 ovigerous female), from the Bay of Naples, Italy. Omer-Cooper and Rawson (1934) used Torelli's figures to illustrate D. bidentata from Britain, which was then proliferated in some British identification guides, e.g., Barrett and Yonge (1964), although this has been corrected in more modern guides, e.g., Hayward and Ryland (1995). Pauli (1954) also used Torelli's figures to illustrate D. bidentata from the Black Sea. Holdich (1968a) collected material from Naples and decided that Torelli's figures were in fact of a new species, commonly found in the Bay of Naples, which he named D. torelliae Holdich, 1968. However, Kussakin (1979 decided that D. torelliae was in fact synonymous with D. bicolor (Rathke, 1837). This species was in fact unknown to Holdich at the time of his studies.
Databases we have consulted indicate that D. bidentata commonly occurs around Northern and Southern Ireland. However, we could only find one modern published record, i.e., de Grave and Holmes (1998) from Lough Hyne in County Cork.
Unlike most other isopods, stage 8 male Dynamene bidentata do not have appendix masculina on the endopods of the second pair of pleopods, this is also the case in the other Dynamene species. This phenomenon has also been noted by Messana (2004) in Sphaeroma terebrans Bate, 1866. It is very difficult to observe mating in Dynamene due to the cryptic habitat of the adults. It is probable that sperm are released directly into the marsupium as the eggs are laid.
Dynamene torelliae: Holdich (1968Holdich ( , 1970. Dynamene bicolor: Kussakin (1979); Maggiore and Fresi (1984). Material examined. Specimens have been examined from 48 locations in 12 countries in the Mediterranean and Black Seas -see the Suppl. materials 1 and 2. A number of literature records have been included where the diagrams clearly indicate this species.

Key morphological characters.
In stage 8 males the pleotelsonic boss is comprised of two right-angled triangular structures separated by a deep groove (however, the boss may be very low lying in some specimens, e.g., those from the Black Sea); the arms of bidentate process taper to a point and are rugose dorsally ( Fig. 2J-K). In stage 7 females the pleotelsonic dome is keeled in side view and the pleotelsonic foramen is flush with the edge of the pleotelson (Fig. 3H, I). The females of this species are very difficult to separate from those of D. magnitorata. Maggiore and Fresi (1984) provide a complete description of D. bicolor.
Life-history. Nothing is known of the life-history, other than the fact that sexual dimorphism occurs with males developing the bidentate process characteristic of the genus.
Habitat. Juveniles are usually found in shallow water on a variety of algae down to 3.0 m and adults in empty Balanus tests, in mussel beds, in rock crevices, within sponges, and under rocks throughout the Mediterranean. However, occasionally they have been found in deeper water, e.g., off the island of Chios (Greece) specimens were collected from Cystoseira at depths from 0.5 -30 m (see Suppl. material 1).
Colour. As with D. bidentata, some degree of camouflage in the algal habitat is given by yellow or dull green 'uniformis' phenotypic varieties, and this is enhanced by the development in some individuals of patterns of white or red, dorsal, non-adaptable chromatophores (Holdich 1969).
Geographical distribution. The distribution of this species shown in Holdich (1970) has been extended by the present study. It is the most commonly recorded Dynamene species in the Mediterranean, occurring from the Balearic Islands in the west to the coast of Israel in the east, although there are only a few records for the North African coast (Fig. 5B). It has been frequently recorded around the Greek islands and mainland coast of both Greece and Turkey. The most northerly record is for Croatia in the Aegean Sea. It has also been recorded for a number of countries around the Black Sea (Bulgaria, Romania, Turkey and Georgia) (Fig. 5B). Most records in the literature refer to D. torelliae, which is now considered synonymous with D. bicolor.
Remarks. Many records exist, both published and unpublished, for Dynamene bicolor (usually as 'D. torelliae') in the Mediterranean Sea, particularly from the coasts of Spain, France, Italy and Greece (Holdich 1970, Bakir et al. 2014). However, its presence in Egypt and Israel was unreported until now. Previous observations indicated its presence in the Black Sea (Kussakin 1979), where it was thought to be the only Dynamene species present (Gönlügür-Demirci and Katağan 2004). On comparing specimens from the Black and Mediterranean Seas the current authors have accepted the decision of Kussakin (1979) that D. torelliae and D. bicolor are synonymous. However, it is clear that some of the specimens from the Black Sea have a reduced pleotelsonic boss, and the two may eventually turn out to be separate species when more material is examined. Kirkim et al. (2006) commented on the form of the pleotelsonic boss, stating that this can vary from two small projections to a well-formed boss in specimens of 'D. torelliae' from the Aegean Sea. Rathke's (1837) drawings of D. bicolor show the posterior halves of a female and a stage 7 male. The male has two joined hemispherical pleotelsonic bosses, which are similar to those found in the same stage of 'D. torelliae' and unlike that of D. edwardsi the other species in the region, which is single. Torelli, 1930 Restricted synonymy. Dynamene bifida: Torelli (1930).

Dynamene bifida
Dynamene bifida: Holdich (1968Holdich ( , 1970. Material examined. Specimens were examined from seven locations in Spain, Greece, France, Italy and Turkey in the Mediterranean -see the Suppl. materials 1 and 2. A number of literature records have been included where the diagrams clearly indicate this species. Key morphological characters. In stage 8 males each arm of the bidentate process is large, tapering and with a well-developed, downwardly-directed accessory process a quarter of the way from the apex; the pleotelsonic boss is very small with raised pointed corners ( Fig. 2G-H). In stage 7 females the pleotelsonic dome is smoothly rounded in side view and the pleotelsonic foramen is at the end of short tube ( Fig. 3L-M).
Life-history. Nothing is known of the life-history of this species, other than the fact that sexual dimorphism occurs with males developing the bidentate process characteristic of the genus.
Habitat. Adults, including stage 8 females, were found among Hydroides unicata colonies and other cryptic habitats in the Bay of Naples (Torelli 1930, Holdich 1970. Ledoyer (1962) recorded it from Ulva lactuca at Endoume, southern France, and Holthuis (unpublished records) from rocky shores amongst algae at 0.0-1.0 m at Banyuls-sur-Mer. The latter record included stage 8 females.
Colour. All specimens seen were a pale, sandy yellow. No polychromatism was observed.
Geographical distribution. The distribution of this species shown in Holdich (1970) has been extended by the present study. It has a widespread distribution in the Mediterranean stretching from southern Spain to Turkey (Fig. 5C).
Remarks. Originally described by Torelli (1930) from the Bay of Naples, males of this distinctive, and sometimes large, species has been infrequently recorded, and females even less so. The accessory process on each arm of the bidentate process is similar to that found in the Australian species, D. ramuscula (Holdich and Harrison 1980). The fact that ovigerous females were found amongst shallow-water algae raises questions about the life-history of this species, although in the Bay of Naples this stage has been recorded with males in more protective habitats.
Life-history. Nothing is known of the life-history of this species, other than the fact that sexual dimorphism occurs with males developing the bidentate process characteristic of the genus.
Key morphological characters. Body convex; in stage 8 males the apices of arms of the bidentate process are swollen, each with a short, downwardly-directed spur; the pleotelsonic boss is plate-like with two forward-facing pegs; the body exhibits various degree of setation ( Fig. 2E-F), e.g., specimens examined from the Balearic Islands (Spain) and the island of Chios (Greece) are somewhat different from other D. edwardsi seen by us in being very hirsute, with a pronounced developing boss and respiratory tube in the stage 7 males. In stage 7 females the pleotelsonic dome is keeled in side view, with a median protuberance; the pleotelsonic foramen is at the end of a short tube (Fig. 3E-G). Further details are provided by the scanning electron microscope pictures of the posterior body of a stage 8 male and a stage 7 female in Holdich (1976). See keys to stage 8 males and stage 7 females.
Habitat. Juveniles and adults have been found amongst a variety brown, green and red algae in the littoral and sublittoral zones, sometimes in conjunction with D. bicolor in the Mediterranean, and with D. bidentata and D. magnitorata on Atlantic coasts. Adults have also been recorded from amongst mussels and tube worm colonies and barnacle tests in the Bay of Naples (Torelli 1930, Holdich 1970, and elsewhere in the Mediterranean (e.g., Rivosecchi 1961, Bellan-Santini 1962. It has been found associated with encrusting matter on solid surfaces in some harbours and canals. On occasions it has been found amongst the 'trottoir' on steep-sided cliffs as deep as 10 m. Monod (1932) recorded it from coralline and fucoid algae on the coast of NW Africa. In the Azores, adults have been recorded from empty Chthamalus stellatus tests attached to lower shore cobbles, along with Campecopea lusitanica. In West Portugal (Buarcos) it is present with D. bidentata and D. magnitorata. However, while D. bidentata adults were present in barnacles, no D. edwardsi were found inside barnacles, only among intertidal algae and on a few 'small' algae in shaded crevices at 0-1 m. Also, they were not present among mussels. Unusually, adults, including stage 8 females, were found in upper shore sandstone crevices, along with Campecopea hirsuta, in southern Portugal.
Colour. The general body colour is a dull grey-green, individuals sometimes exhibit polychromatism caused by patterns of white, dorsal, non-adaptable chromatophores as seen in some of the other species (Holdich 1969).
Geographical distribution. The distribution of this species shown in Holdich (1970) has been extended by the present study. It is the most meridional of the Atlantic species, occurring from Galicia in north-western Spain to Nouadhibou in Mauritania (Fig. 5D). This is the currently known southern limit of Dynamene species of the NE Atlantic-Black Sea axis. It is widespread in the Macaronesian islands and in the eastern and western Mediterranean (Fig. 5D). The most northerly record comes from the Venice Lagoon in the Adriatic Sea. It is also the only Dynamene species recorded from the Red Sea, in the Gulf of Aqaba (Fig. 5D). Glynn (1972) recorded a species that is clearly D. edwardsi from the Suez Canal. Picker and Griffiths (2011) have recorded this species (as D. bidentata) from South Africa.
Remarks. Dynamene edwardsi occupies a wide vertical range in the littoral zone on NE Atlantic shores, and from the littoral zone down to 10 m in the Mediterranean. In recent field work, it was found to be very abundant in the Canary Islands and Madeira archipelago, whereas D. magnitorata was more common in the Azores and D. edwardsi rare. It is the most southerly of the Dynamene species extending down the West African coast to Mauritania and the only record for tropical waters. Glynn (1972) suggested that D. edwardsi has migrated from the Mediterranean throughout the whole length of the canal. Our study has shown that it has now reached the Gulf of Aqaba in the Red Sea The records for the Suez Canal and Red Sea are interesting as they show movement from the Mediterranean Sea into the Red Sea, whilst many marine species are moving in the opposite direction (Galil et al. 2014). No Dynamene species have yet been recorded from the Indian Ocean (Schotte and Kensley 2005). However, a stage 8 male has been recorded from Port Elizabeth harbour in South Africa by Picker and Griffiths (2011). They suggest that it may have been introduced as a fouling organism or in ballast water. It is known that this species can be transported amongst fouling organisms on ships, as evidenced by the finding a stage 8 male on a ship in Tangiers harbour (Morocco) (see Suppl. material 1).
This species is variable in its morphology and particularly in the degree of hirsuteness. It may be that some of the specimens collected from the Balearic and Greek islands are in fact a new species, but more material is needed to prove this. Ideally, a molecular genetic analysis needs to be carried out on Mediterranean and Adriatic specimens. Such a technique applied to specimens from some NE Atlantic coasts and Macaronesian islands has shown that a number of cryptic species may be present (Vieira et al. 2015). Holdich, 1968 Restricted synonymy. Dynamene magnitorata: Holdich (1968).
Dynamene magnitorata: Holdich (1968aHoldich ( , 1970Holdich ( , 1976. Material examined. Specimens were examined from 52 locations in the NE Atlantic, and four countries in the Mediterranean -see the Suppl. materials 1 and 2. A number of literature records have been included where the diagrams clearly indicate this species. Key morphological characters. Body convex; in stage 8 males the pleotelsonic boss is large, bilobed, with the two halves separated by a narrow groove; the arms of the bidentate process are of similar width along their lengths and are dorsally tuberculate (Holdich 1976, fig. 3A, B; Fig. 2C-D in this paper). In stage 7 females the pleotelsonic dome is keeled in side view and the pleotelsonic foramen is flush with the edge of the pleotelson (Fig. 3C-D). Further details are provided by the scanning electron microscope pictures of the posterior body of a stage 8 male and a stage 7 female in Holdich (1976). The females of this species are very difficult to separate from those of D. bicolor. See keys to stage 8 males and stage 7 females.
Life-history. A comparison of the life-histories of D. bidentata and D. magnitorata from two Atlantic coast locations was made by Holdich (1976). Only a limited number of D. magnitorata specimens were available but it showed that this species has a similar sequence of seasonal events (see description for D. bidentata). However, whereas D. bidentata stage 8 males live for two breeding seasons, those of D. magnitorata may only live for one.
Habitat. A mid-to lower littoral and shallow sublittoral species, although sometimes recorded from deeper water. Its range occasionally overlaps that of D. bidentata. Juveniles are found associated with a wide range of littoral and shallow water algae, particularly Corallina sp., Rhodomenia palmata, Chondrus cripspus and Gigartina stellata. Adults have been found in empty tests of Balanus crenatus, amongst ascidians, and in channels within sponges (including those associated with eel grass beds). In the Roscoff region (northern France) adults were frequently found within the encrusting sponge, Halichondria sp. In the Azores (São Miguel island) adults have been found sublittorally in the empty tests of Megabalanus azoricus, as well as intertidally among algae on the islands of Terceira, São Miguel and Santa Maria. On Fuerteventura (Canary Islands) adult males were caught using a surface dip net. In the Chafarinas Islands off Mediterranean Morocco they have been recorded from 0.0m down to 20.0 m on a variety of algae. Like Dynamene bidentata (Harvey et al. 1973), D. magnitorata adults were found to have a tolerance to high air temperatures, i.e., 38° C (Holdich 1976). However, survival at 5° C was much lower for D. magnitorata compared to D. bidentata (Holdich 1976) and this may be the reason it has not colonized more northerly regions.
Colour. Individuals exhibit a wide variety of colours, often matching the colour of their background, the predominant colours being coralline-pink and brown, rather than the greens and yellows seen in D. bidentata. Individuals sometimes exhibit polychromatism caused by white, dorsal, non-adaptable chromatophores, as seen some other species (Holdich 1969(Holdich , 1976. Geographical distribution. The distribution of this species shown in Holdich (1970) has been extended by the present study. It has been recorded from southern England (a single specimen only that may be the result of a stranding), the Channel Islands, around the coasts of Brittany, the Atlantic Iberian Peninsula and northwest Africa, the islands of the Azores, Canary Islands and Madeira in the Macaronesian archipelagos, and in the Mediterranean along the European and African coasts, and also Egypt (Fig. 5E).
Remarks. Almost all the Dynamene specimens found in the Azores during recent field work belonged to D. magnitorata. However, Dynamene was less prevalent in the benthic community when comparing with Canaries and Portugal (pers. obs., unpublished data). Maggiore and Fresi (1984) described D. bidentata from the Bay of Naples, but in fact examination of the specimen showed it to be a male D. magnitorata. If the author's had compared an actual D. bidentata with their specimen then they would have realized this, particular as it is so much smaller than any known D. bidentata specimen. Dynamene magnitorata has only rarely been recorded in the Mediterranean, i.e. twice in Spain, and once in each of Egypt, Italy, Monaco and Tunisia, although it was found to be common on the Chafarinas Islands off Morocco (Castellanos et al. 2003) (see Suppl. material 1).
Dynamene tubicauda: Holdich (1968aHoldich ( , 1970; Lombardo (1984); Borg et al. (2006). Material examined. Specimens were examined from six Italian locations in the Bay of Naples and off the island of Elba, and one location off Malta -see the Suppl. materials 1 and 2. A number of literature records from Sicily have been included as the diagrams clearly indicate this species (Lombardo 1984).
Key morphological characters. The morphology of this species is unique amongst the known Dynamene species -in stage 8 males the pereon length and width are similar; the epimera and front of the head form a shelf; the antennular peduncle is expanded; there are two widely separated, peg-like pleotelsonic bosses; and the pleotelsonic foramen is at the end of a ventrally-closed tube (Fig. 2I). In stage 7 females the body is also flattened with the epimera forming a shelf round the body; the pleotelsonic foramen is at the end of a well-developed tube (Figs 3J-K). See keys to stage 8 males and stage 7 females.
Life-history. Nothing is known of the life-history of this species, other than the fact that sexual dimorphism occurs with males developing the bidentate process characteristic of the genus. Holdich (1968) only recorded males, but both sexes have been recorded in the present study. Lombardo (1984) was the first to describe the adult female.
Habitat. This species has been found between 2-30 m amongst algae in muddy/ sandy and coralline habitats, rock scrapings, freely swimming at 30 m, and also in sea grass meadows (Lombardo 1984, Borg et al. 2006. Colour. Pale yellow. No polychromatism was observed. (1970) has been extended by the present study. However, it appears to be restricted to the eastern Mediterranean, having only been recorded off the west coast of Italy (Holdich 1968), Sicily (Lombardo 1984) and Malta (Borg et al. 2006) (Fig. 5F). The most northerly record is for the island of Elba and the most southerly is off Malta.

Geographical distribution. The distribution of this species shown in Holdich
Remarks. The distribution of this species is the most restricted of all the Dynamene species along the NE Atlantic-Black Sea axis. Considering the large number of samples examined during this study this restricted distribution is most likely real. Its unusual flattened shape and the position of the pleotelsonic foramen at the end of a tube, even in adult males, may be an adaptation to inhabiting sediments.

Dynamene sp.
Material examined. Two stage 8 males. See the Suppl. materials 1 and 2. Key morphological characters. The bilobed pleotelsonic boss has a posteriorlydirected spine not seen in any other stage 8 males. The uropodal exopod is wide and the body markedly hirsute.
Habitat. Known only from the stomach contents of a black scorpionfish Scorpaena porcus.
Geographical distribution. Known only known from NW Aegean Sea. Remarks. Only two specimens have been found, both stage 8 males, and both from the stomach contents of a black scorpionfish, Scorpaena porcus. This could well be a new species of Dynamene, but more material is needed to confirm this. It may even be related to the hirsute specimens found in the Balearic Islands and the Greek island of Chios. The fish is known to be a bottom feeder in the Black Sea, close to where the specimen came from, which was in the NW Aegean, where it occurs at 20-40 m depth (Başçïnar and Saǧlam 2009). Rafrafi-Nouira et al. (2016) examined the diet of S. porcus from waters off the coast of Tunisia, but the only isopods they found were listed as unidentified.

Discussion
Three species of Dynamene occur on the shores of the continent and islands of the NE Atlantic Ocean (D. bidentata, D. magnitorata and D. edwardsi). In recent field work, no Dynamene specimens were collected in Scandinavia or Iceland (pers. obs., unpublished data). This is probably due to the fact that members of this genus may not be able to tolerate cold water and weather. For example, studies by Holdich (1968bHoldich ( , c, 1970 were meant to be carried out on the Gower Peninsula in South Wales, but the severe and long-lasting winter of 1962-1963 decimated the populations, as well as those of Balanus perforatus, and the study site was relocated to western Pembrokshire in 1964 (SW Wales), where the populations of both were unaffected. Moyse and Nelson-Smith (1964) showed that when sea and air temperatures were below 5°C for a long period, viable broods were not produced by females of D. bidentata. Moreover, with lower average air temperatures, populations of Dynamene must restrict their growth phases to fewer months of the year (Holdich 1976). The previously known northerly limit of Dynamene was Ardrossan in the west of Scotland (Holdich 1970). In this study, we extended the northern range of this genus to Clatholl in the north of Scotland, and recent surveys by British workers have shown that it also occurs in the Shetland Islands north of Scotland. There are a number of records for the Western Isles off Scotland (Fig. 5A) that are warmed by the Gulf Stream. However, one record is shown from north-eastern England (Fig. 5A), which tends to be colder than the west coast due to a lack of influence from the Gulf Stream, but it is not known if a permanent population exists there. It may represent a stranding from a population elsewhere. Holthuis (1956) recorded D. bidentata from the other side of the North Sea in The Netherlands. He was of the opinion that it was not indigenous there, but was occasionally stranded with flotsam and jetsam. There are old records in the literature of D. bidentata for eastern Scotland (Scott 1899) and also for south-east England (Butler 1878), but none (other than the record mentioned above) have come to light in the last few decades.
Dynamene bidentata is the only species present in the British Isles (Holdich 1969(Holdich , 1970Holdich and Lincoln 1974). Although in our databases there is a record of Dynamene magnitorata in southern England, we believe this probably does not represent an actual permanently established population. However, D. magnitorata is common on Guernsey (Channel Islands), which is not that far geographically from the south of England. According to Holdich (1970), and confirmed by the current study, D. bidentata is distributed along the Atlantic coasts of Europe from the northern British Isles to Portugal. Barrois (1888) recorded D. bidentata from the Azores, and it is listed as being present there by Ferraz et al. (2004) and Borges et al. (2010). Rodrigues (1990) recorded it as being common on the island of Flores. However, none of the specimens we have examined from the Azores have been of this species, and the records may well have been D. magnitorata or D. edwardsi. Pereira et al. (2006) (2012) recorded it from southern Portugal and southwest Spain, and indicated that these regions as the most meridional locations where this species was collected. Our observations extend the distribution of D. bidentata further south, i.e., Akhfenir in Morocco and Tenerife and Gran Canaria in the Canary Islands. Because D. bidentata can survive at temperatures up to 38° C (Harvey et al. 1973), it is possible that this species occurs further south.
During the current study the authors examined many collections from the Mediterranean and we did not find any D. bidentata. It has been pointed out above that Torelli's (1930) 'D. bidentata' from the Bay of Naples is in fact D. bicolor, as are a number of other references to D. bidentata in the literature. Also, Maggiore and Fresi's (1984) 'D. bidentata' from the Bay of Naples is a D. magnitorata. From the examination of some other collections we also conclude that Castello's (1986) 'D. bidentata' is an Ischyromene sp., that Kirkim's (1998) 'D. bidentata' is D. bicolor, andthat Castellanos' et al. (2003) 'D. bidentata' is D. magnitorata. It is not impossible that D. bidentata occurs in the western Mediterranean as it has been recorded close to the Strait of Gibraltar (Torrecilla-Roca and Guerra-García 2012), but currently there is no evidence for this.
On Atlantic mainland coasts and islands, D. bidentata, D. edwardsi and D. magnitorata are usually present in the midlittoral to sublittoral zones, although occasionally they are found higher up the shore. Usually the juveniles are present among the fronds of brown, red and sometimes green algae, whilst the adults inhabit cryptic habitats such as crevices, empty barnacle tests, mussel beds and encrusting organisms. Individuals often match the colour of the algae they are feeding on and additional camouflage is afforded by linear and globular patterns of white chromatophores on the dorsal surface (Tinturier-Hamelin 1962, Holdich 1969, 1976. In the Mediterranean and Black Seas, D. magnitorata, D. bifida, D. bicolor and D. edwardsi usually inhabit shallow water zones, although the last two species can also be present in deeper water off steep-sided islands. Juveniles of these species inhabit algae whilst adults are usually found in more cryptic habitats, but sometimes amongst algae. Dynamene tubicauda has been found between 2-30 metres amongst algae in muddy/sandy and coralline habitats, rock scrapings, freely swimming at 30 m, and also in sea grass meadows (Lombardo 1984, Borg et al. 2006. The vertical range of D. bicolor is the largest, extending from shallow-water algae and cryptic habitats such as barnacles down to 33 m off steep-sided islands. The vertical ranges of some Dynamene species may overlap, e.g., D. bidentata and D. magnitorata on Atlantic Ocean shores, although the latter usually occurs at a lower level on the shore (Holdich 1970, Arrontes andAnadón 1990a;Castelló and Carballo 2001, Izquierdo and Guerra-García 2011. Dynamene bicolor and D. edwardsi frequently inhabit the same shallow-water algae in the Mediterranean.

Conclusions
Six species of Dynamene are present along the NE Atlantic-Black Sea axis, and one species extends into the Red Sea. It would appear that D. bidentata is restricted to coastal habitats of the NE Atlantic, no evidence was found to suggest it inhabits the Mediterranean. Dynamene magnitorata has a wider geographical range, occurring on coastal habitats of the NE Atlantic as well as those of the Mediterranean. Dynamene edwardsi has the widest geographical range of the six species under consideration, extending from the Macaronesian archipelagos in the NE Atlantic, down the north-western coast of Africa, through the Mediterranean into the Suez Canal and Red Sea. It is not known if a recent record from South Africa represents an introduction or an established population. Dynamene bicolor, D. bifida and D. tubicauda are restricted to the Mediterranean, although D. bicolor also extends into the Black Sea. Dynamene bicolor is the most commonly found and most wide-spread Dyamene species in the Mediterranean. Dynamene bifida has only been recorded at six locations, but its range extends from southern Spain to Turkey. Dynamene tubicauda has the smallest geographical range having only been recorded for Italy and Malta. Some species have large vertical ranges, having been found intertidally down to 30 m. It is highly probable that some of the records for the Dynamene species are the result of introductions via fouling organisms attached to ocean-going vessels, e.g., D. magnitorata and D. bifida with their sporadic distribution in the Mediterranean, and D. edwardsi in South Africa.
There are still a number of outstanding issues relating to Dynamene that can only be dealt with if more material becomes available. Firstly, the status of the hirsute spe-cies from the Balearic Islands and the Greek island of Chios -are these a form of D. edwardsi or a new species? Secondly, the status of 'D. torelliae' -is it really synonymous with D. bicolor from the Black Sea? Thirdly, the status of the specimens found in the Scorpaena porcus stomach, which appears different from the other species, but cannot be confirmed until more stage 8 males are found. Fourthly, a genetic analysis of all the species needs to be carried out to ascertain the taxonomic status and species boundaries, and the phylogenetic relationships between species, especially those in the Mediterranean and Black Seas. Currently, only D. bidentata, D. magnitorata and D. edwardsi from NE Atlantic coasts have been analyzed, and have been found to be distinct.   (Roscoff, France). Arrows indicate shape of the bidentate process (C), the uropods (C, D) and the pleotelsonic boss (C, D). Note the difference in the shape of the boss and the ends of the arms of the bidentate process to those of D. bidentata E, F D. edwardsi (E Canaries F Azores). Arrows indicate shape of the bidentate process (E, F), uropods (F) and pleotelsonic boss (E, F). Specimen in E shows relatively little dorso-lateral setation, whilst that in F is hirsute. Note the differences in the shape of the boss and the tips of the arms of the bidentate process compared to those of D. bidentata and D. magnitorata G, H D. bifida (France, Mediterranean). Arrows indicate shape of the bidentate process (G, H), uropodal exopod (H) and pleotelsonic boss (G). Note the large accessory process on each arm of the bidentate process, the small sessile pleotelsonic boss and the long narrow uropodal exopods I D. tubicauda (Bay of Naples, Italy). Arrows indicate the unique body shape, tubular respiratory channel, peg-like pleotelsonic bosses, and the curved uropodal exopods J, K D. bicolor (Bay of Naples, Italy). Arrows indicate shape of the bidentate process (J), and pleotelsonic boss (J, K). Note in particular the rugose nature of the dorsal surface of the bidentate arms, and the triangular shape of each half of the boss -in specimens from the Black Sea the boss is of a similar shape but much less prominent.  With a bidentate process arising from posterior margin of pereonite 6 -subadult and adult ♂ Dynamene (Figs 1, 2, 3 Pereon length and width similar; epimera and front of head forming a shelf; antennular peduncle expanded; two widely separated, peg-like pleotelsonic bosses; pleotelsonic foramen at end of a ventrally-closed tube (Fig. 2I)  Bidentate processes large, tapering and with a well-developed, downwardlydirected accessory process a quarter of the way from the apex; pleotelsonic boss very small with raised pointed corners ( Fig. 2G-H)  Apices of bidentate processes swollen, each with short, downwardly-directed spur; pleotelsonic boss plate-like with two forward-facing pegs; body exhibiting various degree of setation, sometimes hirsute ( Fig. 2E-F Pleotelsonic boss comprised of two right-angled triangular structures separated by a deep groove (however, the boss may be very low lying in some specimens, e.g. those from the Black Sea); arms of bidentate process tapering to point, rugose dorsally ( Fig. 2J-K)  Pleotelsonic boss large, bilobed, two halves separated by a narrow groove; arms of bidentate process of similar width with along length, dorsally tuberculate ( Fig. 2C-D Notes: When identifying Dynamene juveniles and ♀♀ care must be taken not to confuse them with those of Ischyromene lacazei Racovitza, 1908 andCampecopea lusitanica (Nolting, Reboreda andWägele, 2008). If in doubt, then consult Schüller and Wägele (2005) and Bruce and Holdich (2002) respectively.
Except for size, juveniles are very similar to stage 7 females. Dynamene magnitorata and D. bicolor females are very similar and cannot be keyed out, except on size -on average D. magnitorata tends to be larger (see main text). Ovigerous females are very similar between species and it is not possible to create a key for them. They are characterized by metamorphosed mouthparts, ventral marsupium, wide body and a pleotelsonic foramen that is more upturned and which gradually becomes closed posteriorly ( Fig. 4-upper row 8).