Revision of the Recent Alvania scabra (Philippi, 1844) complex (Mollusca, Gastropoda Rissoidae) from the Mediterranean Sea with the description of a new species
Author
Amati, Bruno
Author
Appolloni, Massimo
Author
Giulio, Andrea Di
Author
Scuderi, Danilo
Author
Smriglio, Carlo
Author
Oliverio, Marco
text
Zootaxa
2020
2020-04-28
4767
3
415
458
journal article
22510
10.11646/zootaxa.4767.3.3
559cdb43-c05a-4336-b8b5-c9dde799f2a9
1175-5334
3772979
urn:lsid:zoobank.org:pub:D599C7BA-CFB5-43D2-BF18-C051A2621DBA
Alvania scabra
(
Philippi, 1844
)
(
Figs 1
A–R; 2A–J; 3; 14A–C; 15A–C; 18A–D; Table II)
Rissoa scabra
Philippi, 1844: 126
, pl. 23, fig. 8
Rissoa oranica
Pallary, 1900: 322
, pl. VII, fig. 4
Other references.
Rissoa oranica
;
Pallary, 1920: 50
, fig. 20 and 30.
Alvania oranica
;
van Aartsen, 1982: 5
, 6, 12 unnumbered figs;
Giannuzzi Savelli
et al
., 2002: 109
, figs 446–447;
Perna, 2013: 63
, 2 unnumbered figs, 64, 2 unnumbered figs.
Alvania scabra
;
Bogi
et al.
, 1983: 6
, fig. 11;
van Aartsen
et al
., 1984: 24
, fig. 102 (two figures);
Oliver & Templado, 2009: 61
and 63, figs 17–19 and 26–27;
Gofas
et al.,
2011: 183
, 3 unnumbered figs;
Scaperrotta
et al.,
2012: 53
, 5 unnumbered figs;
Bitlis
& Öztürk, 2017: 404
, fig. 5I, J;
Villari & Scuderi, 2017: 197
, fig. 16–19; Villari, 2018: 940, 941, figs 10–16; 20;
Scaperrotta
et al.,
2019: 143
, pl. IV, fig. H.
Type material.
Rissoa scabra
Philippi
:
Neotype
(MCZR-M-22162/N, Monterosato coll.) (
Figs 1
A–C; 15A–C) here designated (H
1.9 mm
, W
1.15 mm
), type locality: Magnisi (
Italy
).
Rissoa oranica
Pallary
:
Lectotype
(MCZR- M-22059/L) here designated (H
2.25 mm
, W
1.35 mm
) (
Figs 2
A–C) and
41 paralectotypes
(MCZR-M-22059/P, Monterosato coll. ex Pallary coll.) (including one shell of
A. sculptilis
), type locality: Arzew,
Oran
(
Algeria
).
Other material examined.
Morocco
: Al Hoceima, 2 sh (
CS-PM
).
Algeria
:
Oran
, 40 sh (MCZR-M-22161).
Spain
:
Columbretes Islands
,
15 m
depth, 15 sh (
JT
,
JDO
); Portichol, Javea, Alicante,
2 m
depth, 15 sh (
JT
,
JDO
); Cabo de Palos, 1 sh (
BA
); Cala de los Canuelos (Maro),
36°44.5’N
03°47.3’W
, rocks, photophile algae
8–10 m
depth
vii.1999
, 6 sh (
SG
); Los Escullos, San José, Almería,
36°47.8’N
02°03.6’W
, rocks, photophile algae
1–5 m
depth, 12 sh (
SG
); Playa del Embarcadero, Los Escullos, Almería, infralittoral rocks
i.1990
49 sh (
MNHN
), 5 sh (
MNHN
.AN29); Playazo de Rodalquilar, Almería, infralittoral rocks
i.1990
, 1 sh (
MNHN
); Calahonda, Malága,
36°29.4’N
04°41.8’W
, rocks, photophylous algae, low tide, 6 sh (
SG
); Benalmadena-Costa, beached
36°35.3’N
04°31.7’W
3 lv
(
SG
); Getares, Punta Carnero, beached 40 sh (
CS-PM
); 1 sh (
BA
).
Balearic Islands
: Colonian Sant’Jordi (Majorca Is.),
0.50 m
depth,
Caulerpa
sp.,
15 lv
(
CS-PM
), 1 sh (
BA
); Punta de na Gall (
Menorca
Is.),
10 m
depth, 20 sh (
JT
,
JDO
).
France
: Port de St-Jean-Cap-Ferrat, 1 sh. (Gilles Devauchelle coll.).
Corsica
: Cap
Corse
,
600 m
depth, 2 sh (
AP
). Sardinia:
Palau
, Portu Mannu,
1.5 m
depth, 6 sh (
BA
); Carloforte,
7 m
depth
7.viii.1981
, 1 sh (
BA
).
Sicily
: Ustica Is.
35 m
depth, 5 sh (
BA
); Salina Is., ‘Grotta dei gamberetti’
35 m
depth, 2002,>300 sh (
BA
),
40–45 m
depth, 6 sh (
CS-PM
); Magnisi, 14 sh (MCZR-M-22162); Messina, 1 sh as
R. mutabilis
(MCZR-M- 22227, Monterosato coll. ex Granata-Grillo coll.); Messina 4 sh (MCZR-M-22227, Monterosato coll. ex Seguenza coll.); Cannizzaro,
43 m
depth, 1 sh (
BA
); Cannizzaro
35 m
depth 2 sh (
BA
),
30 m
depth 10 sh (
BA
); Acitrezza
40 m
depth, 4 sh (
BA
); Ognina beached, 3 sh (
BA
); Siracusa
4–7 m
depth
viii.1982
, 1 sh (
BA
); Marettimo Is.,
25–45 m
depth, 8 sh (
CS-PM
); Marettimo Is., Cattedrale Cave,
37°56’45”N
12°4’42”E
,
28 m
, 150 sh (
BA
,
MO
); Pantelleria Is., Scauri,
13 m
depth
12.vi.1991
, 9 sh (
BA
); Pantelleria Is., Scauri,
15–20 m
depth
2.vii.2006
, 7 sh (
BA
); Pantelleria Is.,
50 m
depth, 18 sh (
CS-PM
); Linosa Is., Balata Piatta,
20 m
depth, 100 sh (
CS-PM
); Linosa Is., Secchitella
40 m
, 1 sh (
CS-PM
); Linosa Is., Secchitella
30 m
depth, 70 sh (
CS-PM
); Linosa Is., Secchitella,
20 m
depth, 30 sh (
CS-PM
); Linosa Is., Punta Calcarello,
36 m
depth, 10 sh (
CS-PM
); Linosa Is., Tre Ceppi,
28 m
depth, 2 sh (
CS-PM
); Lampedusa Is.,
30 m
depth, 1991, 13 sh (
BA
), 1 sh (
MO
); Lampedusa Is., Punta Madonna,
5 m
depth on
Cystoseira sauvageauana
(Hamel, 1939)
,
3 lv
,
11.viii.1990
(
RC
); Lampedusa Is., Scoglio Pignalta,
10 m
depth on
Cystoseira sauvageauana
(Hamel, 1939)
,
7 lv
,
6.viii.1990
(
RC
); Lampedusa Is., Punta Galera,
10 m
depth on
Cystoseira sauvageauana
(Hamel, 1939)
,
164 lv
,
1.viii.1990
(
RC
); Lampedusa Is., Punta Sottile,
10 m
depth on
Halopteris scoparia
(Linnaeus) Sauvageau, 1904
,
9 lv
,
31.vii.1990
(
RC
); Lampedusa Is., Capo Ponente,
10 m
depth on
Halopteris scoparia
(Linnaeus) Sauvageau, 1904
,
3 lv
,
3.viii.1990
(
RC
); Lampedusa Is., Punta Galera,
3 m
depth on
Cystoseira barbatula
Kützing, 1860
,
19 lv
,
1.viii.1990
(
RC
); Lampedusa Is., Isola dei Conigli,
10 m
depth on
Cystoseira sauvageauana
(Hamel, 1939)
; Lampedusa Is.,
7 lv
,
4.viii.1990
(
RC
), Punta Galera,
5 m
depth on
Cystoseira barbatula
Kützing, 1860
,
8 lv
,
1.viii.1990
(
RC
); Lampedusa Is., Punta Galera,
10 m
depth on
Cystoseira sauvageauana
(Hamel, 1939)
,
10 lv
,
1.viii.1990
(
RC
); fossil of Milazzo (Saharian, Pliocene?) 2 sh (
MGUF
, vertical showcase 153, Seguenza G. coll.); fossil of Milazzo (Saharian, Pliocene?) 5 sh as
Alvania mutabilis
Schw.
(
MGUF
vertical showcase 153, Seguenza G. coll.).
Italy
: Giannutri Is.,
45 m
depth 2 sh (
CS-PM
); Zannone Is.,
25 m
depth,
ix.2009
, 100 sh (
MO
); Ventotene Is., Secca di S. Stefano,
70 m
depth, 2015, 29 sh (
CS-PM
); Ponza Is.,
60 m
depth 23 sh (
CS-PM
); Napoli, 3 sh (MCZR-M-22227, Monterosato coll. ex Tiberi coll.); Maratea, Santo Janni Is.,
24 m
depth, 2 sh (
BA
); Le Castella, Isola di Capo Rizzuto,
0.50 m
depth,
Zostera
sp.,
3 lv
(
CS-PM
); Scilla,
42 m
depth 9 sh (
CS-PM
),
43–44 m
depth
vii.2015
, 1 sh (
MO
); Strait of Messina,
1 lv
(
BA
); Otranto, 5 sh (
MO
); Gallipoli, beached, 1 sh (
BA
).
Croatia
: Lastovo Is.,
38 m
depth 1 sh (
BA
); Split,
50 m
depth, 1 sh (
AP
).
Greece
: Kefallonia Is., 1 sh (
BA
).
Turkey
: Aydincik, 34 sh (
BA
).
Distribution.
Checked data indicate a range from the westernmost Mediterranean Sea to southern
Turkey
in the Levant Basin (see Remarks and
Fig. 3
). It is common in shallow waters on hard bottoms with photophylous algae (
Dantart
et al.
1990
;
Giacobbe 2002
;
Gofas
et al.
2011
;
Scaperrotta
et al.
2012
;
Öztürk
et al
. 2014
;
Villari & Scuderi 2017
). Live specimens are present in
0–50 m
depth. Shells from deeper bottoms (e.g. from Cap
Corse
,
France
600 m
depth) probably drifted from shallower habitat (Bonfitto
et al
. 1994a; 1994b;
Smriglio & Mariottini 1996
). Found sympatric with
A. sculptilis
,
A. sororcula
,
A. josefoi
,
A. scuderii
,
A. lucinae
and
A. pizzinii
n. sp.
Description
(data on the
neotype
in parentheses). Shell (
Figs 1
A–R; 2A–J; 14A–C; 15A–C) small for the genus, height 1.41–2.55 (1.9) mm, width 0.92–1.37 (1.15) mm, H/W ratio
1.553
–1.951
(1.652), ovate-conical. Protoconch (
Fig. 15B
) paucispiral with nucleus moderately intorted, of 1.2–1.5 (1.2) whorls, height
0.250
–0.320
(0.275) mm, nucleus diameter (d)
0.090
–0.112
(0.100) mm, first half whorl diameter (Do)
0.200
–0.220
(0.200) mm, maximum diameter (DM)
0.312
–0.350
(0.325) mm; sculpture of a dozen parallel rows of rounded to broadly triangular microtubercles, sometimes fused, and occasional spiral threads in the interspaces (
Fig. 15B
). Protoconch-teleoconch boundary well marked. Teleoconch of 2.6–4.1 (3.2) convex whorls, with suture impressed. Axial sculpture on the last whorl of orthocline 11–20 ribs (16), plus the labial varix, narrower than the interspaces, gradually vanishing at the base. Spiral sculpture finer than axial, of equidistant cords, 7–9 (9) on the last whorl, of which 3–5 (4) above the aperture and 4–5 (5) on the base, 2–4 (3) on the penultimate whorl. Cords II and IV starting immediately after the protoconch-teleoconch boundary; cord III starting as a cordlet after 0.5–2 (0.5) whorl, gradually yet rapidly turning into a cord; cord I appearing at 1.2–2.5 (1.8) whorls (Table II); cord V rarely present (absent), appearing later. Small, rounded tubercles at the intersections, sometimes spinulose, especially on the first whorls; interspaces quadrangular. Microsculpture of growth lines and spiral threads overall (
Fig. 15C
). Umbilical chink absent or barely visible. Aperture pyriform, small, height 0.63–0.95 (0.75) mm, H/Ha ratio
2.312
–2.949
(2.533), peristome continuous, outer varix modest, internally smooth. Colouration translucent yellowish, occasionally whitish, with darker spiral band at the base and quadrangular subsutural brown blotches; periphery and median columellar area whitish. Operculum typical for the genus, thin, corneous, paucispiral with eccentric nucleus. Soft parts (
Figs 18
A–D): semi-transparent whitish background with dark-grey/black areas on head and snout (forming a sort of mask encircling eyes and mouth), opercular area, and on both sides of the body, extending and merging into a median band on the sole of foot. Yellow speckles on snout, merged in short stripes on head behind and in front of eyes, forming lines along cephalic tentacles, on foot, on opercular area and on propodium, and a yellow π figure under the operculum; scattered white speckles on cephalic tentacles; 3–4 metapodial tentacles.
Remarks
(See also Table II and
Figs 1
A–R; 2A–J; 3; 14A–C; 15A–C; 18A–D).
Alvania scabra
is known from most of the Mediterranean Sea (Material examined, and
Fig. 3
), and although major checklists of some countries do not report this species explicitly, it is frequently reported from neighbouring countries. For instance, neither B.D.D. (1884) nor
Giribet & Peñas (1997)
reported it from
France
and Catalunia, respectively; however, it is rare, but present in Mediterranean
France
and at Baleares (see Material examined). It was not reported by
Crocetta
et al
. (2019)
for
Lebanon
, or by
Pallary (1912)
for
Egypt
, but it is known from southern
Turkey
and from
Malta
(
Cachia
et al
. 1996
).
Cecalupo
et al
. (2008)
did not report it from the Gulf of
Gabès
but
Fekih & Gougerot (1974)
did report it from the Gulf of
Tunis
.
A. scabra
is strikingly variable in size, proportions and thickness of the shell, and in sculpture, with some degree of variation even within populations (
Figs 1
I–N), and with almost all intermediates. The size of the protoconch microtubercles is variable. Rare specimens have stronger teleoconch spirals than the axials (
Fig. 1N
). In some specimens the tubercles are very small or absent (
Fig. 1N
), or so large that they tend to nearly fuse vertically into a rib (
Fig. 1M
). Colouration varies in the intensity of the background from whitish to yellowish, or yellow, and in the size and shape of the brown blotches, from dark quadrangular subsutural (
Figs 1F, G
), to pairs of smaller ones (
Figs 1Q, R
). Monochrome white (
Fig. 2I
), orange and brownish specimens are occasionally found (
Figs 1L
,
2H
), as also are shells with short and fine dashed stripes on the base over the spirals or more rarely banded with two darker brown bands (
Fig. 1H
). The few observations on live animals revealed also some variation; specimens from
Sicily
(S. Giovanni Li Cuti, Catania,
4 m
depth:
Figs 18A, B
) showed four metapodial tentacles, and darker and more intense black staining on the animal, with the lateral black stripes continuing almost uninterrupted on the foot-sole. The animal sketched by Serge Gofas (Malaga) from Southern Spain (Los Escullos,
Cabo
de Palos, H.
2.35 mm
, AN29. MNHN:
Figs 18C, D
) showed three metapodial tentacles, lighter black staining on the animal, with the lateral black stripes reaching the foot-sole but not merging into continuous band.
This is the type species of
Alvaniella
Sacco, 1895
ex Monterosato ms, currently regarded as a synonym of
Alvania
Risso, 1826
. The type material of
Rissoa scabra
Philippi, 1844
is lost, having not been found in the Philippi collections either at MNHNS (
Santiago de Chile
) (Oscar Alfredo Galvez Herrera,
Santiago de Chile
, pers. comm. 2017) or at MNH (Berlin) (Christine Zorn, Berlin, pers. comm. 2017). The report of two
syntypes
(MNHNS 178) of
A. scabra
(
Coan & Kabat 2017
)
was recently refuted by the curator (Oscar Alfredo Galvez Herrera,
Santiago de Chile
, pers. comm. 2018). These two non-typical specimens, belonging to the Philippi collection, are very worn and lack the protoconch. They are certainly not referable to
A. scabra
; the original label is lost and they most probably belong to the extra-Mediterranean fauna. Given the complexity of the present complex, and to stabilize the use of the name, we have selected a
neotype
, conforming to the original description, from Magnisi, Sicily (Monterosato coll. MCZR-M-22162/N) (
Figs 1
A–C; 15A–C).
Alvania oranica
(
Pallary, 1900
)
has either been considered a valid species (e.g.
Pallary 1900
;
Giannuzzi Savelli
et al.
2002
;
Tabanelli
et al.
2011
), or as a synonym of
A. scabra
(
Philippi, 1844
)
(e.g. Amati 1985; CLEMAM 2015; WoRMS 2019), or finally as a synonym of
A. sculptilis
(
Monterosato, 1877
)
(e.g.
Tringali 2001
;
Gofas
et al
. 2011
).
Pallary (1900)
stated that his
A. oranica
differs from
A. scabra
by the smaller size (H
2 mm
), the stouter profile (not so evident in the original drawing), the last whorl larger and the different sculpture. However, the original description and figure of
Alvania oranica
(
Pallary, 1900: 322
, pl. VII, fig. 4) are not concordant with the
syntypes
found in the Monterosato collection (MCZR), which in turn show a remarkable morphological variation (
Figs 2
A–J). The label, written by Pallary, reads: “
Alv. oranica
types—La figure qui a été donneé dans les Coquilles Marins d’Oran est fort mauvaise et ne permet nullement la reconnaissance de l’espéce. J’ai donnerai une photographie dans ma 2° editions. Pour M. de Monterosato” [
Alv. oranica
types—The figure provided in the Coquilles Marins d’Oran is bad and does not allow the recognition of the species. I shall provide a photograph in my second edition. For Mr. de Monterosato]. Subsequently,
Pallary (1920: 50
, figs 20, 30) pictured two specimens of
A. oranica
from Tétouan and
Tangier
,
Morocco
, that are more concordant with the types at MCZR. The shell in his fig. 30 (
Fig. 2G
) is somehow different, possibly being a mere Atlantic variety (
Pallary 1920
) or a distinct, still unidentified species. Since there have been difficulties in the past in identifying this species, and the type series available (there is no material at MNHN, Virginie Heros pers. comm.
3.ix.2019
) includes at least one specimen of a different species, there is the need for a
lectotype
designation. To stabilize the name usage, we have selected as
lectotype
the shell, among the
syntypes
, best corresponding to the original description (
Figs 2
A–C), also in consideration of Pallary’s subsequent remarks on the label.
The following
nomina nuda
probably refer to this species:
Alvania mutabilis
Brusina, 1866: 27
ex Schwartz
ms (
nomen nudum
), from Molat and Zadar (Dalmatia);
Rissoa mutabilis
Weinkauff, 1868: 311
ex Schwartz
ms (
nomen nudum
), from
Algeria
;
Rissoa mutabilis
Monterosato, 1872: 36
ex Schwartz
ms (
nomen nudum
), from Palermo, Ognina, Pantelleria and
Algeria
;
Rissoa
(
Alvania
)
mutabilis
Seguenza G., 1874: 4 ex Schwartz
ms (
nomen nudum
);
Rissoa mutabilis
Aradas & Benoit, 1874: 201 ex Schwartz
ms (
nomen nudum
), from?Sicily;
Rissoa etnea
Monterosato, 1884: 59
ex Aradas
ms (
nomen nudum
), from Catania, Sicily;
Alvania mutabilis
Carus, 1893: 329
ex Schwartz
ms (as synonym of the
A. scabra
) (
nomen nudum),
from several localities for
A. scabra
;
Alvania sericea
Parenzan, 1970: 78
ex Monterosato
ms (as synonym of the
A. scabra
) (
nomen nudum
).
Rissoa mutabilis
Weinkauff, 1868
ex Schwartz
ms has been regarded as either available and a synonym of
A. scabra
(
Bogi, Coppini & Margelli 1983
; WoRMS 2019), or a
nomen nudum
(
van Aartsen 1982
; Moolenbeek & H.J.
Hoenselaar 1998
). Actually,
Weinkauff (1868)
only reported, without any description, the record by
Brusina (1866)
from Dalmatia, which is also a
nomen nudum
, and his own findings in
Algeria
. Subsequently, this binomen was not made available by other authors (e.g.
Monterosato 1872
; G.
Seguenza 1874
; Aradas & Benoit;
Carus 1893
; all ex Schwartz ms), nor is our intention to make them available in this work. Specimens (see ‘Other material examined’) in the Monterosato collection (ex Granata-Grillo coll. MCZR-M-22227: labelled “
Ris. mutabilis Schw.
ms. (Alv.)”, subsequently corrected into “
R. scabra Ph.
”) (
Fig. 1D, E
) and in the G. Seguenza collection (MGUF, vertical showcase 153: labelled “
Rissoa mutabilis Schw.
”), are in fact
A. scabra
.
Rissoa schwartzii
Aradas & Benoit, 1874
was introduced for
A. scabra sensu
Jeffreys (1856)
;
Jeffreys & Capellini (1860)
;
Tapparone Canefri (1869)
non
Philippi, 1844
. It is probably a synonym of
R. lanciae
Calcara
, 1845
(see B.D.D. 1884: 289;
Monterosato 1884: 59
;
Priolo 1953: 72
), and not of
R. scabra
Philippi
as suggested by
Monterosato (1878: 85
;
1884: 59
), but is anyway preoccupied by
Rissoa schwartzi
Hörnes, 1856
(currently
Alvania schwartzi
) (
Hörnes 1856: 573
, pl. 48, fig. 18;
Kowalke & Harzhauser 2004: 121
, 122, fig. 7D). No specimens under this name were found in the Aradas collection at MCSNM, although
Priolo (1953)
mentioned finding some among the material studied therein.
Tabanelli
et al
. (2011)
used the names
Alvania
cf.
scabra
(
Philippi, 1844
)
and
Alvania
cf.
oranica
(
Pallary, 1900
)
for Pliocene specimens that evidently may be referred to another species,
Rissoa
(
Alvaniella
)
pagodulina
Sacco, 1895
sensu
Chirli & Linse (2011)
.
Alvania
cf.
scabra sensu
Tabanelli
et al
. (2011)
differs from
A. scabra
(
Philippi, 1844
)
by the protruding spiral cord III, that gives a keeled appearance to the whorls (particularly the last one), never so marked in
A. scabra
(but similar to what is obsereved in
A. lucinae
and
A. leopardiana
Brunetti & Vecchi, 2012
), and for the presence of denticles on the inner side of the outer lip, never observed in
A. scabra
(despite their erroneous record in the original description by Philippi).
Ponder (1985)
used the name
Alvania scabra
(
Philippi, 1844
)
for specimens from Madeira, probably corresponding to
Alvania canariensis
(
d’Orbigny, 1840
)
(see also
van Aartsen & van der Linden 1986
;
Moolenbeek & Hoenselaar 1989
).
Bitlis
Bakir & Öztürk (2016: 446, 448, pl. 2, fig. 20) figured as
A. scabra
a subadult specimen of
A. clarae
Nofroni & Pizzini, 1991
, recognizable by its cylindrical outline, the lack of the first subsutural cord producing more stepped whorls, the opisthocline axials (
vs
orthocline or sligthly prosocline in
A. scabra
), the tubercles at the intersections more spinose and directed toward the apex, the 3 spiral cords above the aperture
vs
4 in
A. scabra
, and the 6 spirals on the base
vs
5 in
A. scabra
.
Rissoa alleryana
Monterosato, 1872
was introduced as a synonym of
A. scabra
, and is thus not available (
Giannuzzi-Savelli & Piani 1990
;
ICZN 1999
: Art. 11.6
)
.
TABLE II.
Measurements of teleoconch and protoconch of
Alvania scabra
in mm, with range, mean and standard deviation. 1 = lectotype of
A. oranica
; 2 = neotype of
A. scabra
; 3, 15 = Cannizzaro 30 m depth; 4 = Cabo de Palos, 5 = Kefalonia Is.; 6, 7, 8 = Pantelleria Is.; 9 = Gallipoli; 10, 11 = Acitrezza 40 m depth; 12 = Cannizzaro 35 m depth; 13 = Pantelleria Is.; 14 = Ognina.
| Teleoconch |
1
|
2
|
3
|
4
|
5
|
6
|
7
|
8
|
9
|
| Height |
2.25 |
1.9 |
2.07 |
2.42 |
1.47 |
2.13 |
2.03 |
2.23 |
2.07 |
| Width |
1.35 |
1.15 |
1.1 |
1.37 |
0.92 |
1.18 |
1.22 |
1.23 |
1.27 |
| Aperture height |
0.9 |
0.75 |
0.8 |
0.95 |
0.63 |
0.82 |
0.78 |
0.77 |
0.83 |
| Height/Width ratio |
1.666 |
1.652 |
1.882 |
1.766 |
1.598 |
1.805 |
1.664 |
1.813 |
1.630 |
| Height/aperture height |
2.500 |
2.533 |
2.587 |
2.547 |
2.333 |
2.597 |
2.949 |
2.897 |
2.494 |
| N° of whorls |
3.6 |
3.2 |
3.5 |
3.8 |
2.6 |
3.6 |
3.6 |
3.9 |
3.5 |
| N° axial ribs on last whorls + varix |
12+v |
16+v |
15+v |
11+v |
16+v |
14+v |
12+v |
16+v |
17+v |
| N° spiral cords on last whorls (above aperture) |
8 (4) |
9(4) |
8(4) |
8(4) |
7(3) |
8(4) |
8(4) |
8(4) |
9(4) |
| N° spiral cords on last whorls on the base |
4 |
5 |
4 |
4 |
4 |
4 |
4 |
4 |
5 |
| Start I |
2 |
1.8 |
1.8 |
1.2 |
No |
2.4 |
1.4 |
1.5 |
2 |
| Start III |
1.2 |
0.5 |
1.6 |
1.2 |
0.5 |
1.2 |
0.9 |
1.5 |
0.5 |
| Start V |
No |
No |
No |
No |
No |
No |
No |
No |
No |
| Protoconch |
1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
9 |
| height |
0.25 |
0.275 |
0.275 |
0.30 |
0.28 |
0.31 |
0.287 |
0.31 |
0.29 |
| Diameter of nucleus |
0.11 |
0.10 |
0.112 |
0.12 |
0.10 |
0.10 |
0.10 |
0.11 |
0.09 |
| Diameter of first half whorl |
0.20 |
0.20 |
0.212 |
0.20 |
020 |
0.20 |
0.20 |
0.22 |
0.20 |
| Maximum diameter |
0.35 |
0.325 |
0.337 |
0.325 |
0.325 |
0.337 |
0.337 |
0.337 |
0.325 |
| N° of whorls |
1.2 |
1.2 |
1.5 |
1.5 |
1.3 |
1.4 |
1.35 |
1.35 |
1.3 |
......continued on the next page
TABLE II. (Continued)
| Teleoconch |
10
|
11
|
12
|
13
|
14
|
15
|
Min–max
|
Mean
|
Std
|
| Height |
2.3 |
1.85 |
2.13 |
2.4 |
2.05 |
1.97 |
1.47–2.42 |
2.08 |
0.24 |
| Width |
1.27 |
1.15 |
1.25 |
1.23 |
1.32 |
1.17 |
0.92–1.37 |
1.21 |
0.11 |
| Aperture height |
0.83 |
0.80 |
0.83 |
0.83 |
0.83 |
0.77 |
0.63–0.95 |
0.81 |
0.07 |
| Height/Width ratio |
1.811 |
1.609 |
1.704 |
1.951 |
1.553 |
1.684 |
1.553–1.951 |
1.719 |
0.114 |
| Height/aperture height |
2.771 |
2.312 |
2.566 |
2.891 |
2.470 |
2.558 |
2.312–2.949 |
2.600 |
0.168 |
| N° of whorls |
3.8 |
3 |
3.3 |
4.1 |
3.2 |
3.3 |
2.6–4.1 |
3.5 |
0.4 |
| N° axial ribs on last whorls + varix |
15+v |
20+v |
16+v |
14+v |
16+v |
14+v |
11–20+v |
14.9 |
2.3 |
| N° spiral cords on last whorls (above aperture) |
9(5) |
9(4) |
8(4) |
8(4) |
8(4) |
8(4) |
7–9(3–5) |
8.2 (4) |
0.6 (0.4) |
| N° spiral cords on last whorls on the base |
4 |
5 |
4 |
4 |
4 |
4 |
4-5 |
4.2 |
0.4 |
| Start I |
2 |
1.5 |
1.25 |
2.5 |
1.5 |
1.2 |
No/1.2–2.5 |
| Start III |
1.9 |
0.5 |
1.2 |
2 |
1 |
1 |
0.5–2 |
| Start V |
3.6 |
No |
No |
No |
No |
No |
No–3.6 |
| Protoconch |
10 |
11 |
12 |
13 |
14 |
15 |
Min–max
|
Mean
|
Std
|
| height |
0.27 |
0.28 |
0.32 |
0.30 |
0.30 |
0.28 |
0.25–0.32 |
0.288 |
0.018 |
| Diameter of nucleus |
0.11 |
0.112 |
0.112 |
0.10 |
0.10 |
0.112 |
0.09–0.112 |
0.106 |
0.008 |
| Diameter of first half whorl |
0.212 |
0.212 |
0.212 |
0.20 |
0.20 |
0.21 |
0.20–0.22 |
0.205 |
0.007 |
| Maximum diameter |
0.325 |
0.35 |
0.35 |
0.325 |
0.35 |
0.312 |
0.312–0.350 |
0.334 |
0.012 |
| N° of whorls |
1.35 |
1.35 |
1.3 |
1.5 |
1.4 |
1.3 |
1.2–1.5 |
1.35 |
0.10 |
FIGURE 1.
Alvania scabra
(
Philippi, 1844
)
.
A–C.
Magnisi (Sicily), neotype, height 1.9 mm, with original label (Monterosato coll. MCZR-M-22162/N).
D, E.
Messina (Sicily) height 1.9 mm, with original labels (Monterosato coll. ex Granata-Grillo coll. MCZR-M-22227).
F, G.
Pantelleria Is. (Sicily), height 2.1 mm (BA);
H.
Punta de na Gall (Menorca, Baleares, Spain), 10 m depth, height 1.6 mm (JT and JDO).
I–N.
Salina Is. (Sicily), height 1.75 mm (I), 2.15 mm (J), 2.1 mm (K), 1.85 mm (L), 1.8 mm (M), 1.9 mm (N) (BA).
O, P.
Los Escullos, Cabo de Gata (Spain) height 2.35 mm (AN29. MNHN).
Q, R.
Cabo de Palos (Spain), height 2.4 mm (BA).
FIGURE 2.
Alvania scabra
(
Philippi, 1844
)
.
A–C.
Rissoa oranica
Pallary, 1900
, lectotype from Arzew, Oran (Algeria), height 2.25 mm, with original label (Monterosato coll. ex Pallary coll. MCZR-M-22059/L).
D.
Rissoa oranica
Pallary, 1900
, paralectotype from Arzew, Oran (Algeria), height 2.4 mm (Monterosato coll. ex Pallary coll. MCZR-M-22059/P).
E.
paralectotype, same locality, height 2.2 mm (Monterosato coll. ex Pallary coll. MCZR-M-22059/P).
F.
Rissoa oranica
Pallary, 1900
, original drawing by (
Pallary, 1900: 322
, pl. VII, fig. 4).
G.
Rissoa oranica
Pallary, 1900
, drawing by (
Pallary, 1920: 50
, fig. 20).
H.
paralectotype, same locality, height 2 mm (Monterosato coll. ex Pallary coll. MCZR-M-22059/P).
I.
paralectotype, same locality, height 1.825 mm (Monterosato coll. ex Pallary coll. MCZR-M-22059/P).
J.
paralectotype, same locality, height 1.625 mm (Monterosato coll. ex Pallary coll. MCZR-M-22059/P).
Some species of
Alvania
are characterized, in adult specimens with a well-formed labial varix, by the consistent presence of denticles or lirae on the inner side of the outer lip, for example
Alvania discors
(Allan, 1818)
,
Alvania cancellata
(da Costa, 1778)
,
Alvania cimicoides
(Forbes, 1844)
and
Alvania subcrenulata
(B.D.D., 1884). Others are characterised by their inconsistent presence/absence, for example
Alvania mamillata
Risso, 1826
,
Alvania dictyophora
(
Philippi, 1844
)
,
Alvania hallgassi
Amati & Oliverio, 1985
and
Alvania desabatae
Amati & Smriglio, 2016
. In over 1500 specimens of
A. scabra
examined we have never observed any such feature (see also
Gofas
et al.
2011
), similarly to what happens in
Alvania datchaensis
Amati & Oliverio, 1987
,
Alvania lactea
(Michaud, 1830)
and
Alvania punctura
(Montagu, 1803)
. It therefore seems unlikely that
Philippi (1844)
observed grooves in the
type
material: “Labrum extus incrassatum, intus sulcatum est.”. Most likely Philippi was deceived by the transparency of the shell that often allows seeing the external spirals.
A. scabra
and
A. sculptilis
are very similar, share a good deal of morphological variation and often can be very hard to separate in syntopic samples. The great majority (95%) of shells of
A. sculptilis
lack spiral cord I, which is always present in
A. scabra
(there is a single, probably anomalous shell lacking it from Kefallonia Is.). Additionally, in
A. scabra
the axial and spiral sculpture are very often of the same strength, whereas in
A. sculptilis
the spiral sculpture is usually predominant over the axial (cf.
Figs 4A, B, E
). Finally, in a sample of 41 shells of
A. sculptilis
, 13 (32%) showed the spiral cords II, III and IV starting immediately after the protoconch-teleoconch boundary, and 28 (68%) the cords II and IV, whereas
A. scabra
always has cords II and IV starting immediately after the protoconch-teleoconch boundary. Under these circumstances, we keep the two taxa separate, following
Tringali (2001)
, but urge genetic analysis on sympatric samples from the Western Mediterranean to test this hypothesis.
A. scabra
differs from
A. sororcula
by the tubercles at the intersections (rounded nodulose, rarely slightly spinose in
A. scabra
vs
smaller in
A. sororcula
, particularly those on spiral cord I); the outer lip (thickened to very thickened in
A. scabra
vs
sligthly thickened in
A. sororcula
); the last whorl (proportionally larger in
A. sororcula
); the axials on the last whorl (
11–20 in
A. scabra
vs
25–29 in
A. sororcula
); the subsutural blotches (orthocline in
A. scabra
vs
slightly prosocline in
A. sororcula
).
Villari & Scuderi (2017: 198)
also noted that “the external soft body parts are similar, but in
A. sororcula
the colour pattern is constantly less shiny, with only grayish bands, which are almost black in
A. scabra
”.
A. scabra
differs from
A. lucinae
by the tubercles at the intersections (rounded nodulose, rarely slightly spinose in
A. scabra
vs
spinose or almost spinose in
A. lucinae
), and the spiral cords (all the same strength in
A. scabra
vs
cord III more protruding in
A. lucinae
).
A. scabra
differs from
A. josefoi
by the appearance of the teleoconch spiral cords (cord I at 1.2–2.5 whorls (mean 1.72), cord III at 0.5–2 (mean 1.2) whorls in
A. scabra
vs
cord I at 1–1.5 (mean 1.2) whorls, cord III at 0.5–0.8 (mean 0.54) whorls in
A. josefoi
). The spiral microsculpture of the teleoconch also differs (spaced threadlets, more closely set only those on the spiral cords in
A. scabra
vs
numerous, dense and fine threadlets in
A. josefoi
), as does the colouration (translucent whitish-yellowish, with a broad brown band on the base, and quadrangular subsutural blotches in
A. scabra
vs
monochrome white, with the typical brown subsutural blotch before the varix in
A. josefoi
).
A. scabra
differs from
A. scuderii
by the shell colouration (translucent yellowish-whitish, with darker spiral band at the base and quadrangular subsutural brown blotches in
A. scabra
vs
brownish background with dark-brown spirals in
A. scuderii
), and by the colouration of the soft parts (white with black blotches in
A. scabra
vs
whitish in
A. scuderii
). See under
A. pizzinii
n. sp.
for differences with
A. scabra
.