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Incisocalliope aestuarius (Crustacea: Amphipoda: Pleustidae), an old introduced species in the Gironde Estuary (SW France)

Published online by Cambridge University Press:  13 December 2024

Benoit Gouillieux*
Affiliation:
Université de Bordeaux, CNRS, Bordeaux INP, EPOC, UMR 5805, Pessac, France
Jean-Claude Sorbe
Affiliation:
Muséum national d'Histoire naturelle, Institut de Systématique, Évolution, Biodiversité ISyEB – UMR 7205 – CNRS, MNHN, UPMC, EPHE, Paris, France
Guy Bachelet
Affiliation:
Université de Bordeaux, CNRS, Bordeaux INP, EPOC, UMR 5805, Pessac, France
Guillemine Daffe
Affiliation:
Université de Bordeaux, CNRS, Observatoire Aquitain des Sciences de l'Univers, Pessac, France
*
Corresponding author: Benoit Gouillieux; Email: [email protected]
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Abstract

The amphipod Incisocalliope aestuarius was recently collected since 2015 in the mesohaline part of the Gironde Estuary (SW France) with a van Veen grab and in the lower intertidal part in oyster bed by hand-picking. A look back at past studies showed that this species was present in this estuary since 1976, whereas the original description of this amphipod comes from Watling and Maurer in 1973, from the East coast of America. The validity of the Incisocalliope genus is herein questioned, and it is proposed to transfer species of the genus Inciscalliope to Parapleustes genus.

Type
Marine Record
Copyright
Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of Marine Biological Association of the United Kingdom

Introduction

The family Pleustidae has been widely studied and the subject of various major publications creating new sub-families, genera and species (Ishimaru, Reference Ishimaru1984; Bousfield and Hendrycks, Reference Bousfield and Hendrycks1994, Reference Bousfield and Hendrycks1995; Hendrycks and Bousfield, Reference Hendrycks and Bousfield2004). In European waters 20 species are reported out of the 145 valid species in the world. These European species are distributed in nine genera (De Broyer et al., Reference De Broyer, Lowry, Jazdzewski and Robert2007; Horton et al., Reference Horton, Lowry, De Broyer, Bellan-Santini, Coleman, Corbari, Costello, Daneliya, Dauvin, Fišer, Gasca, Grabowski, Guerra-García, Hendrycks, Hughes, Jaume, Jazdzewski, Kim, King, Krapp-Schickel, LeCroy, Lörz, Mamos, Senna, Serejo, Sket, Souza-Filho, Tandberg, Thomas, Thurston, Vader, Väinölä, Vonk, White and Zeidler2022): Austropleustes K.H. Barnard, 1931, Mesopleustes Stebbing, 1899, Neopleustes Stebbing, 1906, Incisocalliope J.L. Barnard, 1959, Parapleustes Buchholz, 1874, Pleustes Bate, 1858, Pleustomesus Guryanova, 1972, Pleusymtes J.L. Barnard, 1969 and Stenopleustes Sars, 1895. These genera are mainly composed of open sea or deep sea species (Stephensen, Reference Stephensen1938; Ledoyer, Reference Ledoyer1986). Incisocalliope is the single brackish water genus belonging to the Pleustidae currently known in European waters (Faasse and van Moorsel, Reference Faasse and van Moorsel2003), where it is represented by a unique species, I. aestuarius (Watling and Maurer, Reference Watling and Maurer1973). This species, native to the East coast of the United States, recorded on hydroids and oysters reefs from Maryland to Georgia, is considered as an alien species in European waters (Marchini & Cardeccia, Reference Marchini and Cardeccia2017) where it has been recorded since the 1990s in The Netherlands and Belgium, 2016 in Germany, and since 1976 in France (Watling and Maurer, Reference Watling and Maurer1973; Fox and Bynum, Reference Fox and Bynum1975; Ysebaert et al., Reference Ysebaert, De Neve and Meire2000; Faasse and van Moorsel, Reference Faasse and van Moorsel2003; Bachelet et al., Reference Bachelet, Acolas, Baudrimont, Blanchet, Daverat, Garabetian, Labadie, Legeay, Leconte, Lepage, Lobry, Maury-Brachet, Nowaczyk, Sauriau, Sautour, Budzinski, Chaalali, Chevillot, David, Davoult, Del Amo, Dessier, Devier, Goberville, Gouillieux, Gourves, Jatteau, Lauzent, Munoz, Nzigou, Pasquaud, Pierron, Richirt, Rochard, Savoye and Tapie2020; Leitinger et al., Reference Leitinger, Schüler and Nestler2021; present study). In the present paper, we report the occurrence of I. aestuarius in the Gironde Estuary and confirm the identification by molecular analyses, and we propose to move the genus Incisocalliope into the closely genus Parapleustes.

Materials and methods

Study area

The Gironde Estuary is the largest SW European estuary, with a total haline area of 625 km2; intertidal mudflats occupy only approximately 8% of this area. Water depth in the navigation channel ranges between 6 m near Bec d'Ambès and 30 m at the mouth of the estuary. The sampling stations were located on the western bank in the middle estuary (Figure 1). Water salinity and temperature fluctuates annually within the range 0.3–14 PSU and 5–25°C, respectively, near the Bec d'Ambès, and 21–29 PSU and 9–21°C, respectively, near the mouth of the estuary (http://www.somlit.fr; see also Lheureux et al., Reference Lheureux, Savoye, Del Amo, Goberville, Bozec, Breton, Conan, L'Helguen, Mousseau, Raimbault, Rimelin-Maury, Seuront, Vuillemin, Caparros, Cariou, Cordier, Corre, Costes, Crispi, Crouvoisier, de Lary de Latour, Derriennic, Devesa, Durozier, Ferreira, Garcia, Grossteffan, Gueux, Lafont, Lagadec, Lecuyer, Leroux, Macé, Maria, Mornet, Nowaczyk, Parra, Petit and David2021). Although oyster farming has been prohibited since 1996 due to cadmium pollution, wild oysters occur on muddy bottom and hard intertidal substrates along the haline part of the estuary. The Gironde Estuary is the seventh largest French maritime port and receives international maritime traffic, with 8.5 million tons of freight circulating annually, of which approximatively 300 000 tons with North America (https://www.bordeaux-port.fr/fr/le-port-de-bordeaux/chiffres-cles).

Figure 1. Sampling stations in the Gironde Estuary, France. Black stars: stations where Incisocalliope aestuarius (Watling and Maurer, Reference Watling and Maurer1973) was sampled at least once. Black circles: stations without I. aestuarius. Photograph of a specimen from the Gironde Estuary, July 2015, station F. Scale bar: 1 mm.

Sampling method

We can separate two main periods during which monitoring was carried out where the species was found: (1) as part of the ecological study of the Gironde Estuary from October 1975 to December 1979: 663 samples were collected (283 sub-surface and 380 bottoms) between Bec d'Ambès and Royan. From October 1975 to March 1976, a mesh WP2 net of 1.4 mm was used, and from April 1978 to December 1979, a net with a rectangular opening of 770 × 545 mm with a 0.5 mm mesh. (2) Since 2005, ecological monitoring of the Blayais nuclear power plant in the Gironde Estuary consisting of sampling three subtidal stations E, F and K with a van Veen grab, five samples of 0.1 m2 per station, once a month during 9 months per year (February, April to November). The samples were sieved on a 0.5 mm mesh.

An additional specific sampling was carried out in November 2016 at Saint-Christoly: oysters Magallana gigas (Thunberg, 1793) still submerged were sampled by hand at low tide in the lowest part of the foreshore, and washed over a 0.5 mm mesh sieve to collect epifauna. To genetically compare specimens of Incisocalliope aestuarius sampled in the Gironde Estuary with those of the type locality, a single specimen was successfully sampled in the Delaware Bay (USA).

Molecular data and analyses

Extraction of DNA was done with QIAamp DNA Micro Kit (QIAGEN) following protocol supplied by the manufacturers. Approximately 380 bp of the 18S gene were amplified, using primers: Aoro18SF (GATCCTGCCAGTAGTCATATGC) with Aoro18SR (GCCTGCTGCCGTCCTTGGACG) design for this study. Polymerase chain reaction (PCR) occurred with GoTaq® G2 Flexi DNA Polymerase Kit (PROMEGA, France) in 25 μl mixtures containing: 5 μl of 5X Green GoTaq® Reaction Buffer (final concentration of 1X), 1.5 μl of MgCl2 (25Mm) solution, 0.5 μl of PCR nucleotide mix (final concentration of 0.2 mM each dNTP), 0.25 μl of each primer (final concentration of 1 μM), 0.1 μl of Taq DNA polymerase (5 U/μl), 0.5 μl template DNA and 16.9 μL of nuclease-free water. The temperature profile was as follows: 94°C/600s–(94°C/60s–59°C/30s–72°C/90s)×40 cycles–72°C/600s–16°C. PCR success was verified by electrophoresis in a 1% p/v agarose gel stained with ethidium bromide. Amplified products were sent to Eurofins Genomics Company to complete double strain sequencing, using the same set of primers as used for PCR. Overlapping sequence (forward and reverse) fragments were merged into consensus sequences and aligned using Geneious Prime 2019.0.4. All sequences obtained in this study were deposited in GenBank. Pair-wise Kimura 2-parameter (K2P) genetic distance was performed using MEGA version 7.0.26.

Results

Number of specimens collected with ecological data are in the Supplementary Table S1

Systematics

Order Amphipoda Latreille, 1816
Family Pleustidae Buchholz, Reference Buchholz1874
Subfamily Parapleustinae Bousfield and Hendrycks, Reference Bousfield and Hendrycks1994
Genus Incisocalliope J.L. Barnard in J.L. Barnard and Reish, Reference Barnard and Reish1959
Incisocalliope aestuarius (Watling and Maurer, Reference Watling and Maurer1973)

Material examined

France, Gironde Estuary, Point F, subtidal station: 10 specimens, 2.70–5.99 mm (body length, BL), 09 July 2015, MNHN-IU-2016-3385; 1 dissected female specimen, 5.45 mm (BL), 09 July 2015, MNHN-IU-2016-3384; 2 specimens, 3.67 and 4.06 mm (BL), 06 September 2016, MNHN-IU-2016-3383; 3 specimens, 2.91–3.21 mm (BL), 04 August 2018; 5 specimens, 2.30–4.42 mm (BL), 26 July 2019.

France, Gironde Estuary, Saint-Christoly, intertidal station: 16 specimens, 1.81–6.32 mm (BL), 15 November 2016, on oysters M. gigas (Thunberg, 1793), MNHN-IU-2016-3382.

USA, New Jersey, Delaware Bay, subtidal station: 1 brooding female, 4.75 mm (BL), on oyster Crassostrea virginica (Gmelin, 1791) bed, 22 May 2017, MNHN-IU-2016-3386.

Due to the loss of collected specimens between 1976 and 1978, the identification of the species for this period was made on the description and figures that were made and conserved at that time.

Diagnosis (Figures 24)

Body without dorsal processes; eyes circular; lateral cephalic lobe rounded; antenna 1 at least as long as first 5 pereonites, accessory flagellum very small, scale-like, looks absent (sometimes covered by A1 peduncle article 3); antenna 2 peduncle longer than antenna 1 peduncle, peduncle article 4 and 5 subequal; upper lip deeply incised, lobes asymmetrical; non-triturative mandibular molar; mandibular palp article 1 distal tooth absent; gnathopods subequal, carpus with posterior lobe poorly developed, two or three clusters of spines delimit the palms, palmar margin with a small triangular tooth; coxae 1–3 posterior margin with one to three robust setae and with two to four posteroventral notches; coxa 1–4 with setae on the mesial face; gnathopod 1 basis anterior margin densely setosed; pereopod 3 carpus distinctly shorter than merus; pereopod 7 basis posterodistal lobe variously expanded (extending or not beyond the ischium), dactylus about half length of propodus; epimeral plate 3 posterodistal corner acuminate; uropod 2 outer ramus slightly shorter than the inner ramus.

Figure 2. Incisocalliope aestuarius (Watling and Maurer, Reference Watling and Maurer1973). Specimen from the Gironde Estuary: (A) lateral view; (B) antenna 1 peduncle article 3, accessory flagellum and flagellum article 1; (C) maxilla 1; (D) maxilla 2; (E) maxilliped; (F) right mandible; (G) left mandible; (H) upper lip. Scale bars: A, D–F: 0.1 mm; B, C, G: 0.05 mm.

Figure 3. Incisocalliope aestuarius (Watling and Maurer, Reference Watling and Maurer1973). Specimen from the Gironde Estuary: (A) gnathopod 1; (B) gnathopod 2; (C) gnathopod 2, ventrolateral view of palmar corner. Scale bars: A–B: 1 mm; C: 0.5 mm.

Figure 4. Incisocalliope aestuarius (Watling and Maurer, Reference Watling and Maurer1973). Specimen from the Gironde Estuary: (A–E) pereopods 3–7; (F) epimerale plates 1–3; (G) uropode 2–3 and telson, dorsal view. Scale bars: A–E: 1 mm; F: 0.25 mm; G: 0.5 mm.

DNA analyses

The amplification product of 380 bp for 18S gene was published at NCBI GenBank for two specimens. Similarity between I. aestuarius specimen from the Gironde Estuary (France) (accession number OQ561302) and specimen from the type locality (Delaware Bay – USA, specimen MNHN-IU-2016-3386) (accession number PQ302303) was 100% (e-value = 0). Another sequence was registered in GenBank database (accession number KT808759) (Verheye et al., Reference Verheye, Martin, Backeljau and D'Udekem D'Acoz2016) corresponding to a specimen from Hoedekenskerke (The Netherlands). This last sequence contains a certain number of indeterminations, however its percentage of similarity remains high (K2P distance between French specimen and Netherlands specimen = 0%)

Discussion

Incisocalliope aestuarius in European waters

Incisocalliope aestuarius was recorded in The Netherlands, Germany, Belgium and France (Faasse and van Moorsel, Reference Faasse and van Moorsel2003; Bachelet et al., Reference Bachelet, Acolas, Baudrimont, Blanchet, Daverat, Garabetian, Labadie, Legeay, Leconte, Lepage, Lobry, Maury-Brachet, Nowaczyk, Sauriau, Sautour, Budzinski, Chaalali, Chevillot, David, Davoult, Del Amo, Dessier, Devier, Goberville, Gouillieux, Gourves, Jatteau, Lauzent, Munoz, Nzigou, Pasquaud, Pierron, Richirt, Rochard, Savoye and Tapie2020; Leitinger et al., Reference Leitinger, Schüler and Nestler2021). Concerning the French coasts, the species is currently known only in the Gironde Estuary (Bachelet et al., Reference Bachelet, Acolas, Baudrimont, Blanchet, Daverat, Garabetian, Labadie, Legeay, Leconte, Lepage, Lobry, Maury-Brachet, Nowaczyk, Sauriau, Sautour, Budzinski, Chaalali, Chevillot, David, Davoult, Del Amo, Dessier, Devier, Goberville, Gouillieux, Gourves, Jatteau, Lauzent, Munoz, Nzigou, Pasquaud, Pierron, Richirt, Rochard, Savoye and Tapie2020). Leitinger et al. (Reference Leitinger, Schüler and Nestler2021) report the species on the French coasts from the Aquanis database. After verification on the Aquanis website, the species is not referenced in the English Channel and the French North Sea, but only in the Gironde Estuary. Thereby, Curd (Reference Curd2019a, Reference Curd2019b) references in Leitinger et al. (Reference Leitinger, Schüler and Nestler2021) should not be taken into account. In the Gironde Estuary, between 1975 and 1979, only 28 specimens were sampled by JC Sorbe. When the first specimens were sampled, the species was considered new to science and a description was started. Later, it was learned that the species had been recently described from the USA, the description was stopped, and its presence was not mentioned in France either. A first hypothesis at the time to explain the presence of the species only during September and October was that the species migrated for reproduction in the water column, while the rest of the year the species had a benthic way of life. Since the beginning of ecological monitoring of the Blayais nuclear power plant, only 23 specimens were collected in more than 2000 samples, and only in the station ‘F’ around the summer period (June to September). The species has been found abundant when associated with oysters, hydroids or fouling (Cory, Reference Cory1967; Watling and Maurer, Reference Watling and Maurer1973; Faasse and van Moorsel, Reference Faasse and van Moorsel2003; present study). In the Gironde Estuary, the species was only sampled out of these habitats during the period when estuary temperatures are highest. Opportunistic sampling with a net or a van Veen grab on habitats devoid of hydroids and oysters would seem to confirm the hypothesis of a migration in the water column during the period of highest temperatures.

In the original description, I. aestuarius was collected from the base of hydroids attached to oysters between 3 and 5 m depth in the Delaware Bay, where salinity and temperature ranged between 10 to 33 PSU and −1.8 to 28.9°C, respectively (Watling and Maurer, Reference Watling and Maurer1973). In the Gironde Estuary, the species was collected with typical species of the mesohaline environment (temperature, salinity and associated species – see Table S1) and many specimens were collected while sampling a subtidal oyster bed. Unfortunately, no data are available on the associated fauna for the period 1975–1979.

The species was described by Watling and Maurer in 1973 with specimens from the Delaware Bay region, but the first observation of the species in the USA was 1963 in Maryland (‘Amphipod species A’ in Cory, Reference Cory1967, see Watling and Maurer, Reference Watling and Maurer1973 comments). In European waters, the first record of the species was in the Gironde Estuary in 1976 (present paper). The Gironde Estuary has an important commercial port through which transit thousands of boats and tons of goods from Europe, but also from North America (data from Bordeaux port: Archives/GPMB/1975). The presence of the species is therefore most likely due to an introduction by maritime traffic with hull fouling on ships or ballast water, as was also suggested by Faasse and van Moorsel (Reference Faasse and van Moorsel2003) and Leitinger et al. (Reference Leitinger, Schüler and Nestler2021).

Identification of I. aestuarius in European waters was mainly based on Watling and Maurer (Reference Watling and Maurer1973) and Bousfield and Hendrycks (Reference Bousfield and Hendrycks1995). Specimens recorded in the Gironde Estuary are in accordance with the original description apart from (1) the presence of setae on the mesial face on coxa 1–4; (2) coxa 1–3 with less posterior robust setae (1–3 vs 2–5) and (3) posterior lobe of pereopod 7 basis is variously expanded, exceeding or not ischium. Faasse and van Moorsel (Reference Faasse and van Moorsel2003) showed some differences between their specimens from The Netherlands and the original description of I. aestuarius (anterodistal lobe of the basis of pereopods 5–7 and uropod 2 outer ramus vs inner ramus size) but concluded that these differences were not enough to erect their specimens to a new species. Leitinger et al. (Reference Leitinger, Schüler and Nestler2021) specimens from Germany are in accordance with the original description, but showed some morphological differences with Bousfield and Hendrycks (Reference Bousfield and Hendrycks1995) description (length of uropod 2 rami and length of pereopod 7 dactylus in relation to the propodus). Genetic analyses having shown that no differences exist between specimens from the type locality, the Gironde Estuary and The Netherlands, these slight morphological differences are therefore due to an intraspecific variability.

Taxonomical comments on Incisocalliope and Parapleustes

The genus Parapleustes was created by Buchholz in 1874 for P. gracilis from East Greenland, and characterized by the following distinguishing features: small rostrum; antenna 1 longer than antenna 2; upper lip short and wide, deeply emarginated; mandibular incisor with small teeth associated with a dentate lacinia mobilis, molar process poorly developed.

Parapleustes aestuarius was described by Watling and Maurer (Reference Watling and Maurer1973) from the Delaware Bay region. This estuarine species is in good accordance with the original diagnosis of the genus Parapleustes. Barnard and Reish (Reference Barnard and Reish1959) created the genus Incisocalliope for the new species I. newportensis from Newport Bay (California), with the following features: accessory flagellum minute, scale-like; upper lip deeply incised; lower lip with broad inner lobes; palp of maxilla 1 large; gnathopods moderately large, propodus much longer than carpus, both articles not slender or elongated; rami of uropod 3 unequal in size and length. This new genus was probably created in relation with the deeply incised morphology of its upper lip. Nevertheless, it was first ascribed to Calliopiidae, a family generally characterized by a rounded distal margin of upper lip, except for some species (Stenopleura atlantica Stebbing, 1888; Tylosapis dentatus [Stebbing, 1888]; Bouvierella carcinophila [Chevreux, 1889]; Pontogeneoides dubia [Ruffo, 1949]; and Stenopleuroides macrops Birstein and M. Vinogradov, 1964). Subsequently, Barnard and Karaman (Reference Barnard and Karaman1991) properly transferred Incisocalliope to the family Pleustidae, and synonymized it to the former genus Parapleustes.

Later on, Bousfield and Hendrycks (Reference Bousfield and Hendrycks1994, Reference Bousfield and Hendrycks1995) wisely subdivided the family Pleustidae into 11 subfamilies, proposed a new identification key to Parapleustinae and took the opportunity to create many new genera in this subfamily. In this way, they resurrected the genus Incisocalliope, creating the new species I. nipponensis and transferring many Parapleustes species in this new genus: I. dilatatus (Ishimaru, Reference Ishimaru1984), I. bairdi (Boeck, 1871), I. derzhavini (Gurjanova, 1938), I. makiki (J. L. Barnard, 1970), I. aestuarius (Watling and Maurer, Reference Watling and Maurer1973) and I. filiaris (Hirayama, 1988). In their new identification key, Incisocalliope was distinguished from Parapleustes by the following characters (couplet 3): antennae normally elongate (vs short), antenna 1 flagellum distinctly longer than peduncle (vs little longer); antenna 2 flagellum distinctly longer than peduncle (vs shorter); gnathopods, anterior margin of carpus >0.25x propodus length (vs <0.25x), hind lobe about half as wide as its anterior margin (vs small, narrow); epimeron 3 with acuminate hind corner (vs small hook).

If we follow this couplet 3 to distinguish Incisocalliope to Parapleustes, we notice that due to (1) gnathopod 1 carpus more than ¼ length of propodus (ratio between 0.4 and 0.8) for Parapleustes assimilis (Sars, 1882), P. bicuspoides Nagata, 1965, P. gracilis (Buchholz, Reference Buchholz1874), P. major (Bulyčeva, 1952), P. monocuspis (Sars, 1893), P. trianguloculatus (Bulyčeva, 1952), P. tricuspis Ishimaru, Reference Ishimaru1984, (2) gnathopod 2 carpus more than ¼ length of propodus (ratio about 0.3–0.4) for P. ischimarui Bousfield and Hendrycks, Reference Bousfield and Hendrycks1995 and P. sinuipalmus Dunbar, 1954, or (3) antenna 1 distinctly longer than peduncle (ratio about 3.8 whereas ratio for Incisocalliope species between 3.1 and 4.3) for P. bicuspis (Krøyer, 1838), all these species should be placed into the genus Incisocalliope. Concerning P. mielcki (Sokolowsky, 1925), the original description is too insufficient to conclude. Thereby, characters used in the key are only based on P. americanus Bousfield and Hendrycks, Reference Bousfield and Hendrycks1995 and do not apply to all Parapleustes species.

According to the new classifications of Lowry and Myers (Reference Lowry and Myers2013, Reference Lowry and Myers2017) and to Bousfield and Hendrycks (Reference Bousfield and Hendrycks1995), Incisocalliope is part of the family Pleustidae (suborder Amphilochidea) and not of the family Calliopiidae (suborder Senticaudata). But as characters used in the original diagnoses of Incisocalliope and Parapleustes do not make it possible to distinguish the species between the two genera, and due to inconsistencies in Bousfield and Hendrycks (Reference Bousfield and Hendrycks1995) in the morphological criteria used in the key and in Parapleustes diagnosis (body smooth while dorsally toothed for P. bicuspis, P. bicuspoides, P. monocuspis and P. tricuspis; epimeral plate 3 hind corner weakly acuminate while subquadrate for P. assimilis, P. gracilis, P. ischimarui and P. trianguloculatus), we propose to group the species Incisocalliope and Parapleustes into the genus Parapleustes, as Barnard and Karaman (Reference Barnard and Karaman1991) did.

Conclusion

Incisocalliope aestuarius can be a rare or abundant species, depending on the water salinity or the substratum (Cory, Reference Cory1967; Feeley and Wass, Reference Feeley and Wass1971; Watling and Maurer, Reference Watling and Maurer1973; Fasse and van Moorsel, Reference Faasse and van Moorsel2003, present paper). In the Gironde Estuary, I. aestuarius was collected in the same type of habitat as in the type locality (abundant on oyster bed) as well as in the water column (rare). The Gironde Estuary being an important port area, the introduction of the species could be due to maritime traffic between North America and France. Due to its low abundance and likely reproductive cycle, the lack of a strong sampling strategy, or targeted sampling, may explain why the species was not found between 1978 and 2015. A revision of Pleustidae is necessary with the grouping of the genera Incisocalliope and Parapleustes as it has already been done because even if Bousfield and Hendrycks (Reference Bousfield and Hendrycks1995) did a great work, many errors exist that can lead to misidentification.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S0025315424000997

Acknowledgments

Authors have a thought for Jean-Claude Sorbe who sadly passed away in 2019. This contribution is dedicated to his memory. We thank the SOMLIT network for providing temperature and salinity data, and EDF (Electricité De France) for macrofauna data from ecological monitoring of the Blayais nuclear power plant. Authors also want to thank Jenny Paterno Shinn (Rutgers University, USA) for kindly providing the specimen used in molecular analyses.

Author contributions

Benoit Gouillieux and Jean-Claude Sorbe made the identification and the main text; Guy Bachelet participated in the writing and corrections of the manuscript; Guillemine Daffe provided genetic analyses.

Financial support

There was no financial support.

Competing interest

None.

Ethical statement

Normal scientific ethical practices have been respected.

Data availability

Data of temperature and salinity are provided from the SOMLIT network, data of macrofauna from EDF (Electricité De France) ecological monitoring of the Blayais nuclear power plant.

References

Bachelet, G, Acolas, ML, Baudrimont, M, Blanchet, H, Daverat, F, Garabetian, F, Labadie, P, Legeay, A, Leconte, M, Lepage, M, Lobry, J, Maury-Brachet, R, Nowaczyk, A, Sauriau, PG, Sautour, B, Budzinski, H, Chaalali, A, Chevillot, X, David, V, Davoult, D, Del Amo, Y, Dessier, A, Devier, MH, Goberville, E, Gouillieux, B, Gourves, PY, Jatteau, P, Lauzent, M, Munoz, G, Nzigou, AR, Pasquaud, S, Pierron, F, Richirt, J, Rochard, E, Savoye, N and Tapie, N (2020) Biodiversité et fonctionnement écologique. In Sautour B. and Baron J. (Presses Universitaires de Bordeaux, Pessac) L'estuaire de la Gironde : un écosystème altéré ? Entre dynamique naturelle et pressions anthropiques, pp. 132–209 + Annexes, pp. 339348.Google Scholar
Barnard, JL and Reish, DJ (1959) Ecology of Amphipoda and Polychaeta of Newport Bay, California. Allan Hancock Foundation Publications, Occasional Paper, 1102.Google Scholar
Barnard, JL and Karaman, GS (1991) The families and genera of marine gammaridean Amphipoda (except marine gammaroids). Parts 1 and 2. Records of the Australian Museum 13(Supplement), 1866.CrossRefGoogle Scholar
Bousfield, EL and Hendrycks, EA (1994) A revision of the family Pleustidae (Crustacea: Amphipoda: Gammaridea). Part 1. Systematics and biogeography of component subfamilies. Amphipacifica 1, 1757.Google Scholar
Bousfield, EL and Hendrycks, EA (1995) The amphipod family Pleustidae on the Pacific coast of North America. Part III. Subfamilies Parapleustinae, Dactylopleustinae and Pleusirinae: systematics and distributional ecology. Amphipacifica 2, 65133.Google Scholar
Buchholz, R (1874) Crustaceen. In Die zweite deutsche Nordpolarfahrt in den Jähren 1869 und 1870, unter Führung des Kapitän Koldwey. Verein für die deutsche Nordpolarfahrt in Bremen, 2, 262–399, pls. 1–15.Google Scholar
Cory, RL (1967) Epifauna of the Patuxent River Estuary, Maryland, for 1963 and 1964. Chesapeake Science 8, 7189.CrossRefGoogle Scholar
Curd, A (2019a) Incisocalliope aestuarius introduction to France, Celtic-Biscay Shelf, English Channel. AquaNIS. Information system on aquatic non-indigenous and cryptogenic species. Version 2.36+. www.corpi.ku.lt/databases/aquanis (accessed 24 March 2021).Google Scholar
Curd, A (2019b) Incisocalliope aestuarius introduction to France, North Sea. AquaNIS. Information system on aquatic non-indigenous and cryptogenic species. Version 2.36+. www.corpi.ku.lt/databases/aquanis (accessed 24 March 2021).Google Scholar
De Broyer, C, Lowry, JK, Jazdzewski, K and Robert, H (2007) Catalogue of the Gammaridean and Corophiidean Amphipoda (Crustacea) of the Southern Ocean, with distribution and ecological data. In: De Broyer C. (ed.). Census of Antarctic Marine Life: Synopsis of the Amphipoda of the Southern Ocean. Vol. I. Bulletin de l'Institut royal des Sciences naturelles de Belgique, Biologie, 77, suppl. 1, 1325.Google Scholar
Faasse, M and van Moorsel, G (2003) The North-American amphipods, Melita nitida Smith, 1873 and Incisocalliope aestuarius (Watling and Maurer, 1973) (Crustacea: Amphipoda: Gammaridea), introduced to the Western Scheldt estuary (The Netherlands). Aquatic Ecology 37, 1322.CrossRefGoogle Scholar
Feeley, JB and Wass, L (1971) The distribution and ecology of the Gammaridea (Crustacea: Amphipoda) of the lower Chesapeake estuaries. Virginia Institute of Marine Science, Special Papers Marine Science 2, 158.Google Scholar
Fox, RS and Bynum, KH (1975) The amphipod crustaceans of North Carolina estuarine waters. Chesapeake Science 16, 223237.CrossRefGoogle Scholar
Hendrycks, EA and Bousfield, EL (2004) The amphipod family Pleustidae (mainly subfamilies Mesopleustinae, Neopleustinae, Pleusymtinae and Stenopleustinae) from the Pacific coast of North America: systematics and distributional ecology. Amphipacifica 3, 45113.Google Scholar
Horton, T, Lowry, J, De Broyer, C, Bellan-Santini, D, Coleman, CO, Corbari, L, Costello, MJ, Daneliya, M, Dauvin, JC, Fišer, C, Gasca, R, Grabowski, M, Guerra-García, JM, Hendrycks, E, Hughes, L, Jaume, D, Jazdzewski, K, Kim, YH, King, R, Krapp-Schickel, T, LeCroy, S, Lörz, AN, Mamos, T, Senna, AR, Serejo, C, Sket, B, Souza-Filho, JF, Tandberg, AH, Thomas, JD, Thurston, M, Vader, W, Väinölä, R, Vonk, R, White, K and Zeidler, W (2022) World Amphipoda Database. Pleustidae Buchholz, 1874. Accessed through: Costello, M.J.; Bouchet, P.; Boxshall, G.; Arvanitidis, C.; Appeltans, W. (2022) European Register of Marine Species at http://www.marbef.org/data/aphia.php?p=taxdetails&id=101404 on 2022-06-21.Google Scholar
Ishimaru, SI (1984) Taxonomic studies of the family Pleustidae (Crustacea: Amphipoda: Gammaridea) from coastal waters of Northern Japan. I. The genus Parapleustes. Journal of the Faculty of Science, Hokkaido University. Serie VI, Zoology 23, 403453.Google Scholar
Ledoyer, M (1985[1986]) Une nouvelle espèce de Pleustidae (Crustacea, Amphipoda) de la Méditerranée. Bolletino del Museo Civico di Storia Naturale di Verona 12, 511513.Google Scholar
Leitinger, J, Schüler, L and Nestler, S (2021) Among us: first record of the non-indigenous amphipod Incisocalliope aestuarius (Watling and Maurer, 1973) in Germany. BioInvasions Records 10, 875884.CrossRefGoogle Scholar
Lheureux, A, Savoye, N, Del Amo, Y, Goberville, E, Bozec, Y, Breton, E, Conan, P, L'Helguen, S, Mousseau, L, Raimbault, P, Rimelin-Maury, P, Seuront, L, Vuillemin, R, Caparros, J, Cariou, T, Cordier, MA, Corre, AM, Costes, L, Crispi, O, Crouvoisier, M, de Lary de Latour, H, Derriennic, H, Devesa, J, Durozier, M, Ferreira, S, Garcia, N, Grossteffan, E, Gueux, A, Lafont, M, Lagadec, V, Lecuyer, E, Leroux, C, Macé, E, Maria, E, Mornet, L, Nowaczyk, A, Parra, M, Petit, F and David, V (2021) Bi-decadal variability in physico-biogeochemical characteristics of the temperate coastal ecosystems: from large-scale to local drivers. Marine Ecology Progress Series 660, 1935.CrossRefGoogle Scholar
Lowry, JK and Myers, AA (2013) A phylogeny and classification of the Senticaudata subord. nov. (Crustacea: Amphipoda). Zootaxa 3610, 180.CrossRefGoogle ScholarPubMed
Lowry, JK and Myers, AA (2017) A Phylogeny and Classification of the Amphipoda with the establishment of the new order Ingolfiellida (Crustacea: Peracarida). Zootaxa 4265, 189.CrossRefGoogle ScholarPubMed
Marchini, A and Cardeccia, A (2017) Alien amphipods in a sea of troubles: cryptogenic species, unresolved taxonomy and overlooked introductions. Marine Biology 164, 114.CrossRefGoogle Scholar
Stephensen, K (1938) The amphipoda of Northern Norway and Spitzbergen with adjacent waters. Tromsø Museums Skrifter 3, 141278.Google Scholar
Verheye, ML, Martin, P, Backeljau, T and D'Udekem D'Acoz, C (2016) DNA analyses reveal abundant homoplasy in taxonomically important morphological characters of Eusiroidea (Crustacea, Amphipoda). Zoologica Scripta 45, 300321.CrossRefGoogle Scholar
Watling, L and Maurer, D (1973) A new euryhaline species of Parapleustes (Amphipoda) from the east coast of North America. Proceedings of the Biological Society of Washington 86, 18.Google Scholar
Ysebaert, T, De Neve, L and Meire, P (2000) The subtidal macrobenthos in the mesohaline part of the Schelde Estuary (Belgium): influenced by man? Journal of the Marine Biological Association of the UK 80, 587597.CrossRefGoogle Scholar
Figure 0

Figure 1. Sampling stations in the Gironde Estuary, France. Black stars: stations where Incisocalliope aestuarius (Watling and Maurer, 1973) was sampled at least once. Black circles: stations without I. aestuarius. Photograph of a specimen from the Gironde Estuary, July 2015, station F. Scale bar: 1 mm.

Figure 1

Figure 2. Incisocalliope aestuarius (Watling and Maurer, 1973). Specimen from the Gironde Estuary: (A) lateral view; (B) antenna 1 peduncle article 3, accessory flagellum and flagellum article 1; (C) maxilla 1; (D) maxilla 2; (E) maxilliped; (F) right mandible; (G) left mandible; (H) upper lip. Scale bars: A, D–F: 0.1 mm; B, C, G: 0.05 mm.

Figure 2

Figure 3. Incisocalliope aestuarius (Watling and Maurer, 1973). Specimen from the Gironde Estuary: (A) gnathopod 1; (B) gnathopod 2; (C) gnathopod 2, ventrolateral view of palmar corner. Scale bars: A–B: 1 mm; C: 0.5 mm.

Figure 3

Figure 4. Incisocalliope aestuarius (Watling and Maurer, 1973). Specimen from the Gironde Estuary: (A–E) pereopods 3–7; (F) epimerale plates 1–3; (G) uropode 2–3 and telson, dorsal view. Scale bars: A–E: 1 mm; F: 0.25 mm; G: 0.5 mm.

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