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Interesting Images

A Tale of Two Sisters: The Southerner Pinna rudis Is Getting North after the Regional Extinction of the Congeneric P. nobilis (Mollusca: Bivalvia)

1
DiSTAV (Department of Earth, Environment and Life Sciences), University of Genoa, Corso Europa 26, 16132 Genova, Italy
2
Sub Tribe ASD, Piazzale Kennedy 1, 16129 Genova, Italy
3
NBFC (National Biodiversity Future Center), Piazza Marina 61, 90133 Palermo, Italy
4
Fabio Benelli Filmmaking, Via Oliveto 1/8, 16148 Genova, Italy
5
Genoa Marine Centre, EMI (Department of Integrative Marine Ecology), Stazione Zoologica Anton Dohrn—National Institute of Marine Biology, Ecology and Biotechnology, Villa del Principe, Piazza del Principe 4, 16126 Genova, Italy
6
OLPA (Osservatorio Ligure Pesca e Ambiente) Scrl, Via Malta 2/8, 16121 Genova, Italy
*
Author to whom correspondence should be addressed.
Diversity 2024, 16(2), 120; https://doi.org/10.3390/d16020120
Submission received: 29 January 2024 / Revised: 8 February 2024 / Accepted: 9 February 2024 / Published: 13 February 2024

Abstract

:
In the Mediterranean Sea, the bivalve genus Pinna is represented by two species: the endemic Pinna nobilis and the (sub)tropical Atlantic Pinna rudis. P. rudis is generally less common and mostly restricted to the warmer regions of the western Mediterranean. However, since a mass mortality event, caused by a pathogen infection, has brought P. nobilis to the brink of extinction, records of P. rudis have increased in several Mediterranean regions, where it had not been previously observed. This paper reports on the presence of several P. rudis individuals in the Ligurian Sea, the northernmost reach of this species in the western Mediterranean. P. rudis has become increasingly common between 2021 and 2023, with a total of 28 new records from seven localities along the Ligurian coast. The size of the individuals and their estimated growth rate (3.6 cm·a−1) indicated that a recruitment event most likely took place in summer 2020, when P. nobilis was no longer present in the area. Our observations suggest that the recruitment success of P. rudis increased following the decline of P. nobilis. However, considering the thermophilic nature of P. rudis, in all likelihood, the ongoing water warming is playing a crucial role in the successful establishment of this species in the Ligurian Sea. A full understanding of the recent range expansion of P. rudis in the Mediterranean is far from being achieved, and whether P. rudis will be able to fulfil the ecological role of P. nobilis is difficult to predict. Large scale monitoring remains the only effective way to know about the future of Pinnids in the Mediterranean Sea.

The large fan-shell genus Pinna is represented by two species in the Mediterranean Sea: the endemic P. nobilis Linnaeus 1758 [1], and the (sub)tropical Atlantic P. rudis Linnaeus 1758 [2]. P. rudis is recognised as the sister taxon of P. nobilis [3], and hybrids nobilis × rudis are also known [4]. Notwithstanding its broader geographical range, in the Mediterranean Sea P. rudis is less common than P. nobilis, being mainly restricted to the warmest south-western regions of the basin [5]. It has never been reported in the northern and cooler Ligurian Sea [6,7].
Outside the Mediterranean, where P. nobilis does not occur, P. rudis can live indifferently on sandy, rocky and muddy substrata [8]. In the Mediterranean, the two species have different habitat preferences: P. nobilis inhabits sandy bottoms and seagrass meadows [9], P. rudis rocky bottoms [10], which may indicate the outcome of interspecific competition [11]. Occasionally, the two species have been seen to coexist, resulting in mixed populations normally dominated by P. nobilis [10].
P. rudis has received less attention than its endemic sister species: the few studies available describe its Mediterranean populations as stable despite being characterised by low densities [10]. However, as its more iconic sister [12,13], P. rudis has been listed in Annex II of the Bern Convention as strictly protected species and in the Barcelona Convention as threatened or endangered marine species [14].
Since 2016, P. nobilis populations have suffered increased mortality due to a pathogen infection, which has brought the species to the brink of extinction [15,16]. In the Ligurian Sea, where the species was widespread until at least 2015 [17], an appalling dearth of living individuals has been observed since 2018 [18]; at present, P. nobilis has completely disappeared from the area, as well as elsewhere [16]. Listed as critically endangered in the IUCN Red List, the species has been the subject of international conservation projects in recent years [19,20]. The search for survivors is requiring a large sampling effort, partly supported by citizen science. In this context, an unusual number of P. rudis individuals, apparently unaffected by pathogens [21], has been recorded in various, newly discovered locations across the Mediterranean, indicating that the species is expanding its range northward and eastward [22,23,24,25].
Occurrence data in the Ligurian Sea were gathered through citizen science or in the framework of other monitoring activities that were not specifically designed to provide information on P. rudis but rather to verify the presence of surviving individuals of P. nobilis. Species identification was performed on a morphological basis, using traits easily distinguishable in the field (Table 1). The first record of P. rudis in the Ligurian Sea dates back to 2021, when a single individual was spotted in the Portofino Marine Protected Area (MPA). In the following two years, further 27 new records have been obtained from seven localities along the Ligurian coast (Figure 1). P. rudis became increasingly common in 2022 and 2023, when 12 and 15 individuals were spotted, respectively (Table 2).
Since the data were primarily retrieved from citizen observations, which were often incomplete, information on size and depth was sometimes missing: in particular, only 17 records included size (maximum shell width). Most individuals were found on rocky bottoms or stones (Figure 2), except for two records where they occurred in meadows of Posidonia oceanica (Linnaeus) Delile 1813. Photographic evidence proved that P. rudis replaced P. nobilis at shallow depths on the beachrock of Borgio Verezzi (Figure 3).
The average size of P. rudis individuals found in the Ligurian Sea was 9.1 ± 0.7 cm in 2022 and 12.7 ± 1.1 cm in 2023 (maximum shell width), thus suggesting an average growth rate of 3.6 cm·a−1 and a 28% increase in size (Figure 4a). Such a growth rate is slightly smaller than the 4–10 cm·a−1 observed in SW Spain [30] and distinctly greater than the 1.1 cm·a−1 seen in Corsica [23]. By comparison, the growth rate of P. nobilis is 3.5–10 cm·a−1 [31,32,33,34,35]. Shell growth in P. nobilis can be highly variable between populations [31], and even within the same population it can change with depth [36]. Temperature, hydrodynamics and the availability of food can also have a great influence on the growth rate of P. nobilis [35]. In both species, juveniles grow faster than adults [30,34].
Only one individual was found dead in Genoa, with its empty shell still standing in a physiological position (Table 2), suggesting a low mortality rate for the species in the Ligurian Sea. The 28 record sites have been classified according to the hydrodynamic characteristics of the area in: exposed (N = 18), semi-exposed (N = 4), and sheltered (N = 6) (Table 2). A depth distribution, variable according to exposure, was observed: the more the site was exposed the deeper P. rudis occurred. At exposed sites, the average depth where P. rudis has been observed was 16.1 m, at semi-exposed sites 10.3 m and in sheltered sites 5.7 m (Figure 4b). In 2023, the individuals for which size data were available (N = 10) seemed to show a depth-related size segregation, with larger individuals at greater depths (Figure 4c); a similar trend had already been observed for P. nobilis in southern Spain [36].
Citizen science has been instrumental in surveying a wider geographic area and integrating scientific data on the distribution of P. rudis. Although untrained observers may provide inaccurate data, citizen observation proved a valuable tool. Species misidentification has been avoided as many of the individuals were photographed, allowing for proper identification through morphological traits: the occurrence of large and protuberant scales in P. rudis, in particular, proved the most reliable feature (Table 1). Hybrids are known to exhibit morphological characteristics intermediate between the two Mediterranean Pinna species; these, however, have never been observed in the Ligurian Sea. In case of doubt, molecular methods would be required for their correct identification [37]. There is a third species of Pinnidae in the Mediterranean Sea, Atrina fragilis (Pennant, 1777) [38], which may also be confounded with P. nobilis [19]. However, A. fragilis is rare [38] and typically lives deeper, chiefly in the circalittoral zone [39].
Our observations suggest that the establishment of P. rudis in the Ligurian Sea has followed the decline of P. nobilis. The size of P. rudis individuals and their estimated growth rate are comparable to those reported in the literature [23,30], and indicate that most likely a major recruitment event took place in summer 2020, when P. nobilis was no longer present in the area [18]. Although P. rudis has a preference for cryptic habitats, which makes it difficult to detect, the obvious increase in the number of records in the Ligurian Sea suggests that it is unlikely that the species was previously present but undocumented.
As a superior competitor, it is reasonable to assume that the presence of P. nobilis was limiting P. rudis to some extent. The reasons may be competition for food, which is one of the main factors limiting growth in bivalves [30], and capture of larvae by the filtration activity of P. nobilis itself [10].
Undoubtedly, water warming played a crucial role in the successful establishment of P. rudis in the Ligurian Sea, considering the thermophilic nature of this species [5]. Since the mid-1980s, the Ligurian Sea has undergone a warming phase resulting in an increase of 1.7 °C in the yearly average temperature [40]. Several warm-water species, which were previously absent or only occasionally found in this relatively cool sea, have now successfully colonised it [41].
A full understanding of the recent range expansion of P. rudis in the Mediterranean is far from being achieved: it may have been favoured by the decline of its sister species, sea water warming, or both; increased incidence of a parasite and conferral of a competitive advantage to one of a pair of overlapping species are just two among the multifarious effects that temperature has on marine organisms [42]. Our observations at Borgio Verezzi (Figure 3) provide suggestive evidence that competition with P. nobilis may have been a limiting factor for P. rudis in the past.
P. rudis populations will probably be on the rise in the years to come. However, relict populations of P. nobilis have survived in sanctuary areas across the Mediterranean, mainly coastal lagoons characterised by unique and extreme physicochemical conditions [43]. Resistant individuals will eventually guarantee the recovery of P. nobilis in the framework of current conservation projects. Whether P. rudis will be able to fulfil the ecological role of P. nobilis is difficult to predict. Large scale and regular monitoring [44] remains the only effective way to know about the future of Pinnids in the Mediterranean Sea.

Author Contributions

Conceptualization, A.O. and C.N.B.; methodology, C.N.B. and C.M.; validation, A.O., M.C. and M.P.F.; formal analysis, C.N.B., C.M. and A.O.; investigation, A.O., I.M., S.A., F.B., A.A., C.N.B., M.B. and A.M.; resources, F.B., A.M. and C.M.; data curation, A.O., C.N.B., S.A., A.A., M.B. and I.M.; writing—original draft preparation, A.O. and C.N.B.; writing—review and editing, A.O., C.N.B., C.M., M.M., M.C. and M.P.F.; visualization, A.O., C.N.B. and C.M.; supervision, A.O. and M.M.; project administration, A.O.; funding acquisition, M.M. All authors have read and agreed to the published version of the manuscript.

Funding

This research was funded by the National Recovery and Resilience Plan (NRRP), Mission 4 Component 2 Investment 1.4—Call for tender No. 3138 of 16 December 2021, rectified by Decree n. 3175 of 18 December 2021 of the Italian Ministry of University and Research funded by the European Union—Next Generation EU; Award Number: Project code CN 00000033, Concession Decree No. 1034 of 17 June 2022 adopted by the Italian Ministry of University and Research, CUP D33C22000960007, Project title “National Biodiversity Future Center—NBFC”. A.O. benefits from a research grant by the European Union LIFE PINNA project (LIFE 20 NAT/IT/00112).

Institutional Review Board Statement

This study did not require ethical approval.

Data Availability Statement

All data are presented in the present publication (see Table 1).

Acknowledgments

Part of the work has been carried out under the aegis of the European Union LIFE PINNA project (LIFE 20 NAT/IT/00112). The Dinghy Snipe Club (Genoa) provided logistic and field assistance for some of the surveys. Thanks are also due to Giorgio Barsotti, Claudio De Angelis and Giuseppe Galletta (GDA, Genoa), Marco Beghi, Federica Deriu, Giacomo Gennaro, Julian Ivaldi and Stefano Pavone (Genoa), and Giovanni Radicella (Santa Margherita Ligure) for providing images and/or additional information on Pinna rudis in the Ligurian Sea.

Conflicts of Interest

The authors declare no conflicts of interest.

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Figure 1. Pinna rudis record sites within the study area.
Figure 1. Pinna rudis record sites within the study area.
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Figure 2. Pinna rudis in Bergeggi MPA (a) (Photo credits: J. Ivaldi), Genoa (b) (Photo credits: A. Oprandi), and Portofino MPA (c) (Photo credits: G. Galletta) (d) (Photo credits: G. Radicella) (e) (Photo credits: G. Barsotti).
Figure 2. Pinna rudis in Bergeggi MPA (a) (Photo credits: J. Ivaldi), Genoa (b) (Photo credits: A. Oprandi), and Portofino MPA (c) (Photo credits: G. Galletta) (d) (Photo credits: G. Radicella) (e) (Photo credits: G. Barsotti).
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Figure 3. Pinna nobilis on the Borgio Verezzi beachrock in 2017 (a,b) replaced by P. rudis in 2023 (c,d) (Photo credits: A. Molinari).
Figure 3. Pinna nobilis on the Borgio Verezzi beachrock in 2017 (a,b) replaced by P. rudis in 2023 (c,d) (Photo credits: A. Molinari).
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Figure 4. Pinna rudis in the Ligurian Sea: mean (±SE) shell size (maximum width) in 2022 and 2023 (a); preferred depth of occurrence according to exposure (b); relationship between shell size (maximum width) and depth in 2023 (c).
Figure 4. Pinna rudis in the Ligurian Sea: mean (±SE) shell size (maximum width) in 2022 and 2023 (a); preferred depth of occurrence according to exposure (b); relationship between shell size (maximum width) and depth in 2023 (c).
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Table 1. Morphological traits used to distinguish the two Mediterranean species of Pinna in the field, according to various sources [19,23,26,27,28,29].
Table 1. Morphological traits used to distinguish the two Mediterranean species of Pinna in the field, according to various sources [19,23,26,27,28,29].
TraitP. nobilisP. rudis
ShellCuneiform, posterior margin round, arched Triangular, posterior margin slightly squared
ValvesThin, asymmetrical (angulated on one side)Thick, rather symmetrical
Outer surface reliefAround 20 small radiating ribsWell-marked 5–10 radial ribs
Shell ornamentsNumerous small spines in the shape of guttersSeveral large, widely spaced, grooved and protuberant scales
Shell colourHorny brownFawn brown to reddish brown
Shell epibiontsNumerous large species with high coverSmall encrusting species on and among scales
Shell openingLinearWavy to flattened sinusoid
Mantle rim colourPale pinkIridescent white
Table 2. List of Pinna rudis records in the Ligurian Sea in the years 2021–2023.
Table 2. List of Pinna rudis records in the Ligurian Sea in the years 2021–2023.
DateSiteDepth (m)Width (cm)HabitatObserver
July 2021Portofino MPA16n.a.Rock; semi-exposedClaudio De Angelis
March 2022Portofino MPA1611.5Rock; exposedAlice Oprandi
June 2022Portofino MPA12n.a.Rock; exposedStefano Aicardi
June 2022Portofino MPA7n.a.Seagrass meadow; semi-exposedAlice Oprandi
June 2022Portofino MPA10n.a.Stones; semi-exposedMarco Bertolino
July 2022Portofino MPA1810Rock; exposedClaudio De Angelis
July 2022Portofino MPA15n.a.Rock; exposedClaudio De Angelis
August 2022Bergeggi MPAn.a.7Rock; exposedJulian Ivaldi
August 2022Portofino MPA15.610Rock; exposedClaudio De Angelis
August 2022Nolin.a.7Stones; shelteredJulian Ivaldi
August 2022Genoa4n.a.Rock; shelteredCarlo Nike Bianchi
September 2022Portofino MPA16.58Rock; exposedCarlo Nike Bianchi
October 2022Genoa710Rock; sheltered. (Empty shell)Carlo Nike Bianchi
February 2023Genoa79Rock; shelteredAlice Oprandi
April 2023Portofino MPAn.a.12Rock; exposedStefano Aicardi
June 2023Genoa1012Rock; shelteredMarco Beghi
August 2023Portofino MPA2520Rock; exposedClaudio De Angelis
August 2023Portofino MPA18.5n.a.Rock; exposedClaudio De Angelis
August 2023Portofino MPA2415Rock; exposedCarlo Nike Bianchi
August 2023Sori4n.a.Rock; shelteredMarco Bertolino
September 2023Portofino MPA1616Rock; exposedGiorgio Barsotti
September 2023Bergeggi MPA1214Rock; exposedGiacomo Gennaro
September 2023Bergeggi MPA811Seagrass meadow; semi-exposedGiacomo Gennaro
September 2023Bergeggi MPA710Rock; exposedGiacomo Gennaro
September 2023Cogoleto10n.a.Rock, stones; exposedFederica Deriu
September 2023Bergeggi MPA20n.a.Rock, stones; semi-exposedStefano Pavone
September 2023Bergeggi MPAn.a.n.a.Rock, stones; exposedStefano Pavone
October 2023Borgio Verezzi210Beachrock, stones; shelteredAndrea Molinari
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MDPI and ACS Style

Oprandi, A.; Aicardi, S.; Azzola, A.; Benelli, F.; Bertolino, M.; Bianchi, C.N.; Chiantore, M.; Ferranti, M.P.; Mancini, I.; Molinari, A.; et al. A Tale of Two Sisters: The Southerner Pinna rudis Is Getting North after the Regional Extinction of the Congeneric P. nobilis (Mollusca: Bivalvia). Diversity 2024, 16, 120. https://doi.org/10.3390/d16020120

AMA Style

Oprandi A, Aicardi S, Azzola A, Benelli F, Bertolino M, Bianchi CN, Chiantore M, Ferranti MP, Mancini I, Molinari A, et al. A Tale of Two Sisters: The Southerner Pinna rudis Is Getting North after the Regional Extinction of the Congeneric P. nobilis (Mollusca: Bivalvia). Diversity. 2024; 16(2):120. https://doi.org/10.3390/d16020120

Chicago/Turabian Style

Oprandi, Alice, Stefano Aicardi, Annalisa Azzola, Fabio Benelli, Marco Bertolino, Carlo Nike Bianchi, Mariachiara Chiantore, Maria Paola Ferranti, Ilaria Mancini, Andrea Molinari, and et al. 2024. "A Tale of Two Sisters: The Southerner Pinna rudis Is Getting North after the Regional Extinction of the Congeneric P. nobilis (Mollusca: Bivalvia)" Diversity 16, no. 2: 120. https://doi.org/10.3390/d16020120

APA Style

Oprandi, A., Aicardi, S., Azzola, A., Benelli, F., Bertolino, M., Bianchi, C. N., Chiantore, M., Ferranti, M. P., Mancini, I., Molinari, A., Morri, C., & Montefalcone, M. (2024). A Tale of Two Sisters: The Southerner Pinna rudis Is Getting North after the Regional Extinction of the Congeneric P. nobilis (Mollusca: Bivalvia). Diversity, 16(2), 120. https://doi.org/10.3390/d16020120

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