The species Zenion hololepis (Goode & Bean, 1896) belongs to the relatively small family Zenionidae, which comprises only three genera and seven species (Heemstra, Reference Heemstra, Smith and Heemstra1986), although the number of species and genera within this family is not consensual (see discussion in Heemstra, Reference Heemstra, Smith and Heemstra1986). Members of this family are typically found over mud or sand–mud bottom and usually at depths between 180 and 700 m (Heemstra, Reference Heemstra, Smith and Heemstra1986). Information about the species Z. hololepis is relatively scarce, both in dedicated databases such as FishBase (www.fishbase.org) and in the scientific literature. This species seems to have a wide distribution (Figure 1), including the western and north-western Atlantic (Scott & Scott, Reference Scott and Scott1988; Claro, Reference Claro and Claro1994) and the western central Pacific (Heemstra, Reference Heemstra, Carpenter and Niem1999). FishBase indicates the occurrence of Z. hololepis also in the western Indian Ocean and South China Sea (Froese & Pauly, Reference Froese and Pauly2010). In the eastern Atlantic, Z. hololepis occurs from Cape Timiris (Mauritania) to South Africa (Quéro, Reference Quéro, Maurin and Quéro1981).
On the course of two separate fisheries research campaigns of IPIMAR (Portuguese fisheries research agency) five uncommon specimens, subsequently identified as Z. hololepis, were collected. The specimens were caught off the south-west coast of Portugal (Figure 1), by the research vessel ‘Noruega’, in September 2008 (collection of two specimens at the geographical coordinates: 38°0.2′N 09°7.2′W 37°57.4′N 09°08.6′W) and June 2009 (sampling of three specimens at the geographical coordinates: 37°57.4′N 09°08.6′W 37°21.40′N 09°10.2′W and 37°24.9′N 09°09.6′W). Fish were captured using a bottom trawl operating at a depth between 340 and 361 m. The specimens were carefully examined for diagnostic morphological features, following description provided by Heemstra (Reference Heemstra, Smith and Heemstra1986). According to this author, Z. hololepis displays an elongate body and a head length 2.3 to 2.7 times the standard length, the latter one being the measurement from the most anterior tip of the body to the posterior end of the vertebral column. The upper jaw is extremely protractible. The dorsal fin has 6 to 7 spines and 25–28 rays, with the front edge of the second spine distinctly serrate. Pectoral fins show 15–17 rays, while the pelvic fins are characterized by serrate spine and 6 branched rays. The main characteristic that distinguishes this species from the congeneric Zenion leptolepis is the anal fin, with 23–28 rays in the former species, and 28–32 rays in the latter one.
The specimens identified as Zenion hololepis (Figure 2) were photographed and preserved in 70% ethanol for storage at the National Museum of Natural History in Lisbon. Table 1 reports the range of meristic and morphometric characteristics and body proportions of the Z. hololepis specimens under consideration. Among the five specimens, the total length ranged from 79 to 134 mm and their total weight from 18.9 to 51.5 g.
L S, percentage of standard length; L H, percentage of head length. Roman and Arabic numerals represent hard and soft fin rays, respectively.
To further characterize the specimens and substantiate the taxonomic identification, we complemented our observations using genetic tags for species identification, i.e. DNA barcodes (Hebert et al., Reference Hebert, Cywinska, Ball and deWaard2003). Namely, we analysed the sequence variation of a 652 base pair (bp) fragment of the mitochondrial DNA gene cytochrome c oxidase I (5′-COI).
A sample of muscle tissue of each individual was collected and preserved in 96% ethanol for molecular analyses. Total genomic DNA was extracted from white muscle tissue, and DNA barcode regions amplified and sequenced following published protocols (Ivanova et al., Reference Ivanova, Zemlak, Hanner and Hebert2007; Rock et al., Reference Rock, Costa, Walker, North, Hutchinson and Carvalho2008).
After editing the bidirectional sequences, we obtained five 652 bp DNA barcodes, which were deposited in the GenBank® with the following accession numbers: JF718831–JF718835. Details of the respective PCR primers, sequences and trace files are publicly available on the Barcode of Life Data Systems (BOLD; www.barcodinglife.org, under the project titled ‘First record of Zenion hololepis in Portuguese continental waters [MLFPZ]’. Among all five specimens, DNA barcodes differed at most by two nucleotides, and consequently the average conspecific divergence was very low [0.2% Kimura-2-parameter (K2P)]. We submitted Z. hololepis DNA barcodes to GenBank's BLAST® (http://www.ncbi.nlm.nih.gov/BLAST) and to BOLD's (Ratnasingham & Hebert, Reference Ratnasingham and Hebert2007) identification engine, in search for matching sequences. No complete matches were found, but the nearest match (90.7% identity) belonged to a homologous COI sequence of the congeneric species Zenion japonicum (GenBank® Accession AP004434). Zenion japonicum is the only species of Zenion for which there is any genetic data available in GenBank® and BOLD. Comparison of the aligned nucleotide sequences of the two Zenion species revealed an average divergence of 10.1% (K2P), which is within the range found in DNA barcodes of congeneric fish species (Ward et al., Reference Ward, Zemlak, Innes, Last and Hebert2005). Hence, this nucleotide genetic distance provides evidence of the existence of at least two different species of the genus Zenion. Additionally, the corresponding amino acid sequences of the two Zenion species were identical, confirming their close evolutionary relatedness. The sequences here reported are the first published DNA barcodes for Z. hololepis, providing reference genetic tags for comparison with specimens of Zenion spp. collected elsewhere in the future.
There are no records in the literature of the occurrence of Z. hololepis in the north-eastern Atlantic Ocean, nor in the IPIMAR's fisheries surveys database, which spans several decades of regular research campaigns along Portuguese waters.
There have been various recent reports on expansions of the northern limit of warm water species towards the temperate north-eastern Atlantic, including new occurrences along the Portuguese coast (Azevedo et al., Reference Azevedo, Raposeiro and Rodrigues2004; Lima et al., Reference Lima, Ribeiro, Queiroz, Hawkins and Santos2007; Baňón & Sande, Reference Baňón and Sande2008; Borges et al., Reference Borges, Valente, Palma and Nunes2010).
Based on current evidence, it is not possible to conclude if this new observation of Z. hololepis in areas previously unrecorded is a fortuitous observation or a more permanent expansion of its northern distribution range. However, the fact that this species was captured on two independent occasions separated by 9 months favours the latter possibility.
Acknowledgements
We thank Pedro da Conceição for providing us with specimens and J. Olney, R. Lord, T. Kwak, W. Starnes, S. Ross, J. Caruso, J. Moore and A. Gosztonyi for help in Z. hololepis identification. This work was partially supported by Fundação para a Ciência e a Tecnologia (FCT) research grant METAFISHCODE PTDC/MAR/101795/2008. The work of M. Landi was supported by an FCT fellowship reference SFRH/BPD/45246/2008.