The Gametogenic Cycle of the Non-Native False Limpet

The Gametogenic Cycle of the Non-Native False Limpet

Mediterranean Marine Science Vol. 21, 2020 The gametogenic cycle of the non-native false limpet Siphonaria pectinata (Linnaeus, 1758) in the easternmost limit of its distribution range: implications for its future in the Eastern Mediterranean Basin SLAMA TASNIME Laboratoire de Biosurveillance de l'Environnement, Groupe MFA, Faculté des Sciences de Bizerte, Université de Carthage, Tunisie KEFI-JAAFAR FERDAOUS Laboratoire de Biosurveillance de l'Environnement, Groupe MFA, Faculté des Sciences de Bizerte, Université de Carthage, Tunisie MAATOUG-BÉJAOUI Laboratoire de JIHÈNE Biosurveillance de l'Environnement, Groupe MFA, Faculté des Sciences de Bizerte, Université de Carthage, Tunisie LAHBIB YOUSSEF Laboratoire de Biosurveillance de l'Environnement, Groupe MFA, Faculté des Sciences de Bizerte, Université de Carthage, Tunisie HERMET SOPHIE UMR 9190 MARBEC., Université de Montpellier, Montpellier, France RIVERA-INGRAHAM Laboratorio de Fisiología y GEORGINA Genética Marina (FIGEMA), Centro Avanzado de Estudios en Zonas Áridas (CEAZA), Universidad Católica del Norte, Coquimbo, Chile LIGNOT JEHAN HERVÉ UMR 9190 MARBEC., Université de Montpellier, Montpellier, France MENIF NAJOUA University of Carthage, Faculty of Sciences of Bizerte https://doi.org/10.12681/mms.23093 http://epublishing.ekt.gr | e-Publisher: EKT | Downloaded at 21/05/2021 12:15:27 | Copyright © 2020 Mediterranean Marine Science To cite this article: SLAMA, T., KEFI-JAAFAR, F., MAATOUG-BÉJAOUI, J., LAHBIB, Y., HERMET, S., RIVERA-INGRAHAM, G., LIGNOT, J. H., & MENIF, N. (2020). The gametogenic cycle of the non-native false limpet Siphonaria pectinata (Linnaeus, 1758) in the easternmost limit of its distribution range: implications for its future in the Eastern Mediterranean Basin. Mediterranean Marine Science, 21(3), 599-607. doi:https://doi.org/10.12681/mms.23093 http://epublishing.ekt.gr | e-Publisher: EKT | Downloaded at 21/05/2021 12:15:27 | Research Article Mediterranean Marine Science Indexed in WoS (Web of Science, ISI Thomson) and SCOPUS The journal is available on line at http://www.medit-mar-sc.net DOI: http://dx.doi.org/10.12681/mms.23093 The gametogenic cycle of the non-native false limpet Siphonaria pectinata (Linnaeus, 1758) in the easternmost limit of its distribution range: implications for its future in the Eastern Mediterranean Basin Tasnime SLAMA1, Ferdaous KEFI-JAAFAR1, Jihène MAATOUG-BÉJAOUI1, Youssef LAHBIB1, Sophie HERMET2, Georgina RIVERA-INGRAHAM3, Jehan hervé LIGNOT2 and Najoua TRIGUI EL MENIF1 1 Laboratoire de Biosurveillance de l’Environnement, Groupe MFA, Faculté des Sciences de Bizerte, Université de Carthage, Tunisie 2 UMR 9190 MARBEC., Université de Montpellier, Montpellier, France 3 Laboratorio de Fisiología y Genética Marina (FIGEMA), Centro Avanzado de Estudios en Zonas Áridas (CEAZA), Universidad Católica del Norte, Coquimbo, Chile Corresponding author: [email protected] Handling Editor: Serge GOFAS Received: 1 May 2020; Accepted: 8 September 2020; Published online: 7 October 2020 Abstract The gametogenic cycle of the false-limpet Siphonaria pectinata from the Bizerte channel (Northern Tunisia) was studied through histological characterization of the hermaphroditic gonad during a 1-year study period (May 2015 - May 2016). Spawning intensity in the field as well as the gonadic index were calculated monthly. Both female and male gametes were observed simul- taneously within acini of adult individuals and continuously throughout the year. Oogenesis started in the mid-autumn (October), with gonads characterized mainly by proliferation of female cells. After that, oocytes progressively increased in number and vol- ume until summer, when the evacuation stage frequency was the highest. From summer to autumn, some acini were empty from their oocyctes while some others had already begun the proliferation stage, suggesting the lack of a resting phase. Spermatogenesis was also a continuous process throughout the year, with spermatozoa being mainly observed in late spring (March). These findings suggested that environmental conditions are suitable for the establishment of S. pectinata, first mentioned in 1998 on the Tunisian coast and even suggest that it could continue spreading eastward in the Mediterranean Basin. Keywords: Siphonariid; reproduction; alien species; invasion success; Tunisia. Introduction Mediterranean, settling in Greece and Croatia (Nicolay, 1980; Despalatović et al., 2009). In these last two loca- Siphonariids are grazing herbivore heterobranch gas- tions, the species has been accidentally introduced by tropods that feed on macroscopic and microscopic algae shipping traffic (Giribet & Kawauchi, 2015). Its presence such as diatoms. Siphonaria pectinata (Linnaeus, 1758) in Northern Tunisia was first mentioned in 1998 at low in particular, grows on the hard substrata of the upper and densities in Tabarka (western coasts) (Antit et al., 2008), midlittoral zones (Ocaña & Fa, 2003). The species has and it reached Kelibia (eastern coasts) in 2012 where been long considered to be present on both the Eastern and this non-indigenous species finds its natural easternmost Western Atlantic coasts, in the latter ranging from Flori- distribution limit following an intra-Mediterranean cli- da to the Texas-Mexican border (Voss, 1959). However, mate-driven expansion (Boukhicha et al., 2014). recent investigations have proven genetic disconnection Siphonaria pectinata, as other Siphonariids, are her- between these two Atlantic coasts (Giribet & Kawauchi maphrodites with internal fertilization and lay eggs in 2015), and the western Atlantic populations are treated gelatinous masses well adhered to the substratum (Pal as a different species, S. naufragum Stearns, 1872. In the & Hodgson 2005; Slama et al., 2018). The gametogenic Eastern Atlantic, S. pectinata is present from Portugal to cycle of S. pectinata remains undescribed. Given that the Cameroon (Giribet & Kawauchi 2015), but has also es- reproductive behaviour of marine molluscs is related to tablished populations in the Western Mediterranean basin environmental factors such as temperature, food avail- (Southern Iberian Peninsula) (Ocaña & Emson, 1999), ability and day length (Hirano & Inaba, 1980), there is a Central Mediterranean (from Algeria to Northern Tuni- special interest in studying its reproduction in Tunisia: the sia) (Boukhicha et al., 2014) and has reached the Eastern environmental conditions of their new distribution limit Medit. Mar. Sci., 21/3, 2020, 599-607 599 http://epublishing.ekt.gr | e-Publisher: EKT | Downloaded at 21/05/2021 12:15:27 | could potentially be more stressful and have an impact on and rainfall were provided by the National Institute of their reproductive (and invasive) success. Thus, informa- Meteorology of Tunisia. At the same time, fecundity of tion regarding reproduction is valuable data in order to S. pectinata was estimated by counting individuals and determine the structure and dynamics of their recently in- egg-ribbons contained in 10 quadrats (1 m2 each) placed troduced populations. However, the only works address- at 20 m intervals and at the same shore level. Spawning ing S. pectinata in Tunisia are reduced to descriptions of intensity (SI) was calculated by dividing the number of the biological and ecological aspects of the species in egg masses by the number of individuals as in Ocaña & the area, reports of their geographical expansion range Emson (1999). and description of spawning under laboratory conditions Collected animals were then transferred to the labo- (Boukhicha et al., 2014; Slama et al., 2018). Therefore, ratory. This was done without immerging the specimens the present study aimed to histologically characterize the in water in a cool atmosphere (containers at 9-11°C) and morphology of the hermaphroditic gonad of S. pectinata in a maximum time of 10 minutes to minimize stress. and describe both oogenesis and spermatogenesis. Such Once in the laboratory, individuals were measured (shell data will be very useful in understanding the biology of length, Fig. 1a) using a digital Vernier caliper (0.01 mm) this newcomer mollusc to the Tunisian coast and assess- and soft parts (Fig. 2B) and gonads (Fig. 1c) were imme- ing its invasive potential. diately removed and weighed with a precision balance to the nearest 0.001g. Gonad index (GI) was calculated using the formula: GI = (wet gonad weight/soft part wet Methods weight) x 100. Thereafter, gonads were fixed in a form- aldehyde solution (4%) for 24 h and then dehydrated in The sampling site was a 200-meter long rock-filled increasing concentrations of ethanol until reaching 96%. mole with Northeast orientation located in Zarzouna Tissues were then embedded in paraffin wax, and 5 µm- disctrict (37°16’06N 9°52’42E), on the mouth of Bizerte thick sections were cut using a Leica microtome. These channel. Tidal range varied between 0.1 to 0.9 m. Sub- were later stained with hematoxylin and eosin. Sections stratum slope was sub horizontal (about 5% inclination) were examined under light microscope and photographed with low wave exposure action (sheltered area) and high with a digital camera (Samsung MV800, China). anthropogenic pressure (shipping traffic, urban agglomer- Five different sections of each gonad were randomly ations). At this location, thirty adults of S. pectinata (10- selected and classified independently according to gonad 27 mm in shell length) were randomly collected monthly development stage The developmental stage was deter- by hand at low tide from May

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