Resurrection of the genus Nectoneanthes Imajima, 1972 (Nereididae: Polychaeta), with redescription of Nectoneanthes oxypoda (Marenzeller, 1879) and description of a new species, comparing them to Neanthes succinea (Leuckart, 1847)
Author
Sato, Masanori
text
Journal of Natural History
2013
J. Nat. Hist.
2013-01-17
47
1 - 2
1
50
http://dx.doi.org/10.1080/00222933.2012.743609
journal article
7055
10.1080/00222933.2012.743609
9d06c328-f898-4a9d-ad07-c59c765bfc83
1464-5262
4631785
8868B0C6-E0A5-42BC-B7F6-9FF4F0960D27
Neanthes succinea
(
Leuckart, 1847
)
(Japanese name: Ashinaga-gokai) (Korean name: Du-jul-bak-i-charm-gaet-ji-reong-i)
(
Figures 3
D–F, 4B, 15–17)
Nereis succinea
Leuckart, 1847: 154–156
, pl. 2, figs. 9, 11.
Nereis (Neanthes) succinea
:
Pettibone, 1963: 165–170
, figs. 44a–e, 45a–d;
Day, 1953: 425
,
1957: 78
,
1967: 321
, figs. 14.9a–e;
Hartmann-Schröder, 1996: 207–209
, fig. 90.
Neanthes succinea
:
Imajima, 1972: 108–110
, figs. 32 a–k;
Nunomura et al., 1975: 89
;
Wilson, 1984: 218–221
, fig. 4 (in part, specimens from
Victoria
in
Australia
);
Wu et al., 1985: 156–159
, fig. 88;
Wilson, 1988: 5–7
(in part);
Yang and Sun, 1988: 37–38
, figs. 7F–I;
Yamanishi, 1988: 9
;
Ben-Eliahu, 1991: 322
;
Ueda et al., 1992: 62
;
Uchida, 1992: 328
;
Kimura et al., 1993: 169
;
Hiraoka, 1994: 257
;
Imajima, 1996: 142
, fig. 114;
Khlebovich, 1996: 103–104
, pl. XIV;
Hong et al., 1997: 885
;
Nishi et al., 1998: 199
;
de León-González and Solís-Weiss, 2000: 556
;
Fujioka and Kimura, 2000: 34
, figs. 2–3a, b;
Hori et al., 2000: 48
;
Uchida, 2000: 282
, fig. 20–4A;
Lee et al., 2003: 192–197
;
Otani et al., 2004: 43
;
Nishi, 2005: 27
;
Iwamatsu et al., 2007: 685
;
Nishi and Tanaka, 2007: 102
, 104, figs. 3I, J;
Seo et al., 2007: 215
;
Yamanishi and Sato, 2007: 189
.
Alitta succinea
:
Bakken and Wilson, 2005: 516–517
(in part).
Type material
Three
syntypes
of
Nereis succinea
, collected from
Helgoland
,
German
North Sea
, sampling date unknown.
One
of them designated as
lectotype
(
ZMH
P-25975) (
Figure 15A
). The others designated as
paralectotype
(
ZMH
P-25976)
.
Other material examined
Atokes.
Japan
:
Intertidal
flats at
Fujimae-higata
(35
◦
07
′
45
′′
N, 136
◦
07
′
02
′′
E),
Nagoya
,
Aichi Prefecture
,
25 April 1997
, coll.
M. Sato
et al., 3 (BW, 3.0 mm;
NSMT
Pol
11415)
.
Concrete
walls covered with sessile organisms including an exotic mytilid bivalve
Xenostrobus securis
at
Tokai-bashi Bridge
(35
◦
07
′
01
′′
N, 136
◦
07
′
38
′′
E),
Nakagawa Canal
,
Nagoya
,
Aichi Prefecture
,
20 May 1997
, coll.
Y. Sakakibara
, 1 (BW,
1.7 mm
; MS);
23 April 1985
, coll.
Y. Sakakibara
, 1 (BW,
1.5 mm
; MS);
10 September 2007
, coll.
Y. Sakakibara
, 1 (BW, 3.0 mm; MS)
.
Minato-shin-bashi
Bridge
(35
◦
07
′
53
′′
N, 136
◦
07
′
28
′′
E),
Horikawa River
,
Nagoya
,
Aichi Prefecture
,
16 August 1989
, coll.
Y. Sakakibara
, 9 (BW,
1.5–2.5 mm
; MS);
20 May 1997
, coll.
Y. Sakakibara
, 10 (BW, 2.0–
3.5 mm
; MS);
15 June 1999
, coll.
Y. Sakakibara
, 11 (BW,
0.6–3.5 mm
; MS);
11 September 2007
, coll.
Y. Sakakibara
, 10 (BW,
0.9–3.5 mm
; MS)
.
Intertidal
flats at
Dotoku-bashi Bridge
(35
◦
07
′
48.46
′′
N, 136
◦
07
′
55.43
′′
E),
Yamazaki-gawa River
,
Nagoya
,
Aichi Prefecture
, 1987, coll.
Y. Sakakibara
, 9 (BW, 1.7–4.0 mm; MS);
20 May 1997
, coll.
Y. Sakakibara
, 9 (BW,
1.9–2.5 mm
; MS);
15 June 1999
, coll.
Y. Sakakibara
, 7 (BW,
1.5–2.5 mm
; MS);
10 September 2007
, coll.
Y. Sakakibara
, 6 (BW, 1.5–3.0 mm; MS);
13 March 2010
, coll.
R
.
Nishizawa
, 18 (BW,
1.2–3.5 mm
; MS)
.
Intertidal
flats in
Tenpaku-gawa River
(35
◦
07
′
09
′′
N, 136
◦
07
′
33
′′
E),
Nagoya
,
Aichi Prefecture
,
2 January 2010
, coll.
R
.
Nishizawa
, 1 (BW, 3.0 mm,
ZMH
P-26033)
.
Narumi-bashi Bridge
,
Ougi-gawa River
,
Nagoya
,
Aichi Prefecture
,
25 September 2007
, coll.
Y. Sakakibara
, 1 (BW,
2.7 mm
; MS)
.
Intertidal
flats in
Shinano-gawa River
(35
◦
07
′
22
′′
N, 136
◦
07
′
31
′′
E),
Tokai
,
Aichi Prefecture
,
22 September 2010
, coll.
R
.
Nishizawa
, 2 (BW,
2.5 mm
;
NSMT
Pol
11416)
.
Honjo area
(processing area for reclamation),
Lake Nakaumi
,
Shimane Prefecture
,
25 April 2007
, coll.
K. Toda
, 10 (BW,
0.7–2.5 mm
; 35
◦
07
′
56.1
′′
N, 133
◦
07
′
27
′′
E;
NSMT
Pol
11418), 2 (BW,
2.3–3.1 mm
; 35
◦
07
′
11.1
′′
N, 133
◦
07
′
57
′′
E;
NSMT
Pol
11417), 3 (BW,
2.5–2.8 mm
; 35
◦
07
′
16.8
′′
N, 133
◦
07
′
41.8
′′
E;
ZMH
P-26032)
.
Intertidal
flats at the inner part of
Dokai Bay
(33
◦
07
′
30
′′
–53
′
20
′′
N, 130
◦
07
′
–47
′′
E),
Kitakyushu
,
Fukuoka Prefecture
,
13 September 2011
, coll.
N. Ueda
, 11 (BW,
0.5–2.7 mm
; MS)
.
Korea
:
Sta.
1 (35
◦
07
′
59
′′
N, 128
◦
07
′
07
′′
E,
12 m
deep),
Masan Bay
,
February 2004
, coll.
J.-W. Choi
, 23 (BW, 1.1–3.0 mm;
KIOST
)
;
April 2004
, coll.
J.-W. Choi
, 3 (BW,
1.5–1.8 mm
;
KIOST
)
.
Germany
:
Sta.
1 (
11 m
deep),
Banter See
,
Wilhelmshaven
,
North Sea
,
17 February 1977
, coll.
J. Dörjes
, 1 (BW,
1.6 mm
;
SMF 5414
/
5)
.
Wilhelmshaven
,
North Sea
,
15 May 2008
, coll.
R
.
Bastrop
, 6 (BW, 0.8– 3.0 mm; MS)
.
Jadebusen
(
8–13 m
deep),
North Sea
,
22 May 1995
, coll.
M. Türkay
, 2 (BW, 1.0–
2.3 mm
;
SMF 8051
/
1, 8052
/
1)
.
Romania
:
Sta.
71 (intertidal),
Mamaja
,
Black Sea
,
12 August 1999
, coll.
V
.
Surugiu
, 1 (BW, 2.0 mm;
SMF
12659
/
1)
.
USA
(
Atlantic
coast):
Sta.
11–3,
Little Sippewisset Marsh
,
Buzzards Bay, MA
, 1975, coll.
J. Dörjes
, 5 (
SMF
10987)
.
USA
(
Pacific
coast):
Eld Inlet
at
Olympia
(47
◦
07
′
48
′′
N, 122
◦
07
′
21
′′
W), WA,
27 October 2009
and
2 November 2009
, coll.
H. Tosuji
and
T
.
Furota
, 17 (BW,
2.1–3.7 mm
;
NSMT
Pol
11421; MS)
.
Epitokes collected from sediment samples.
Japan
:
Honjo area
(processing area for reclamation, 35
◦
07
′
56.1
′′
N, 133
◦
07
′
27
′′
E),
Lake Nakaumi
,
Shimane Prefecture
,
25 April 2007
, coll.
K. Toda
,
1 male
(BW,
2.5 mm
;
NSMT
Pol
11419);
Honjo area
(35
◦
07
′
22.8
′′
N, 133
◦
07
′
44.8
′′
E),
10 December 2007
, coll.
K. Toda
,
4 males
(BW, 1.6–2.0 mm; MS)
.
Intertidal
flats at the inner part of
Dokai Bay
(33
◦
07
′
30
′′
–53
′
20
′′
N, 130
◦
07
′
–47
′′
E),
Kitakyushu
,
Fukuoka Prefecture
,
13 September 2011
, coll.
N. Ueda
,
1 male
(BW,
1.5 mm
; MS)
.
Germany
:
Wilhelmshaven
,
North Sea
,
15 May 2008
, coll.
R
.
Bastrop
,
1 male
(BW, 2.0 mm; MS)
.
Insel
Poel
(54
◦
07
′
27
′′
N, 11
◦
07
′
07
′′
E),
Wismar Bay
,
Baltic Sea
,
26 June 2008
, coll.
M. Sato
,
1 male
(BW,
2.5 mm
;
NSMT
Pol
11420)
.
Sta.
15b,
Langeoog
,
North Sea
,
10 August 1987
, coll.
J. Dörjes
,
1 male
(BW,
1.9 mm
;
SMF 8049
/
1)
.
Diagnosis
Body length up to
190 mm
, with 170 chaetigers.
Two pairs of eyes almost equal in size, arranged trapezoidally; anterior pair reniform; posterior pair round (subdermal eyes unclear in some epitokous specimens).
Peristomium with four pairs of tentacular cirri of unequal length; posterior dorsal tentacular cirri longest, reaching back to chaetigers 4 to 15.
Paragnath numbers as follows, group I: 1–6, II: around 20 on each side in two or three arched rows, III:
20–60 in
three or four transverse rows, IV: around 25 on each side in two or three arched rows, V: 0–6, VI: around 10 on each side in circular cluster, VII–VIII: two or three rows of paragnaths, extending to lateral surface, not reaching group VI (
Figure 15
B–E).
Parapodia of first two chaetigers sub-biramous, all following parapodia biramous. Sub-biramous parapodia with thin notoacicula and thick neuroacicula (
Figure 16
A–C).
Notopodia consisting of dorsal cirrus, dorsal ligule, prechaetal lobe and ventral ligule in biramous parapodia. Notopodial prechaetal lobe two-thirds to one-half in length to notopodial ventral ligule in anterior parapodia (
Figure 16D
), reduced gradually in middle parapodia (
Figure 16E
), lacking in posterior parapodia (
Figure 16F, G
). Notopodial dorsal ligule markedly elongated, broadened, flattened to leaf-like, with dorsal cirrus in terminal position in posterior parapodia (
Figure 16F, G
).
Neuropodia consisting of inferior lobe, postchaetal lobe, ventral ligule and ventral cirrus. Neuropodial inferior and postchaetal lobes conical with tapering tip in anterior parapodia (postchaetal lobe slightly larger than inferior lobe); inferior lobe reduced with round tip in posterior parapodia. Neuropodial postchaetal lobe prominent even in posterior parapodia (
Figure 16F, G
). Neuropodial ventral ligule similar in length to postchaetal lobe.
Notochaetae all homogomph spinigers (
Figure 4B
). Upper neurochaetae consisting of heterogomph falcigers at superior
/
anterior position, and homogomph spinigers at inferior
/
posterior position. Lower neurochaetae consisting of heterogomph spinigers at superior
/
posterior position, and heterogomph falcigers at inferior
/
anterior position.
Epitokous modification of parapodia in middle body of sexually mature specimens, appearing from chaetigers
14–16 in
males, from chaetigers
14–19 in
females. Neuropodial postchaetal lobe developing into large round flat lamella with single tiny protrusion on lateral edge, without digitate protrusion on inner side of lower edge in males (
Figure 16H
); neuropodial postchaetal lobe developing into small round lamella in females.
Eggs about
140 µm
in diameter.
Description of
lectotype
and
paralectotype
Lectotype
, incomplete atokous individual about
50 mm
BL, 2.0 mm BW, with 67 chaetigers, with proboscis everted (
Figure 15A
); body swollen and decolorized. One of
paralectotypes
, incomplete atokous individual about
80 mm
BL, 3.0 mm BW, with 69 chaetigers, with proboscis everted.
Peristomium slightly longer than subsequent chaetigers, with four pairs of tentacular cirri of unequal length; posterior dorsal tentacular cirri longest, reaching back to chaetigers
4 in
both
lectotype
and
paralectotype
.
Proboscis with pair of brown jaws, each with seven or eight teeth (
Figure 15B, C
). Brown paragnaths with usually pointed tip present on both maxillary and oral rings. Paragnath numbers of
lectotype
and
paralectotype
(in parentheses) as follows, group I: 3 (1); II: 16 (13) on both sides, total 32 (26); III: 35 (16); IV: 26 (19) on right and 29 (18) on left, total 55 (37); V: 0 (0); VI: 9 (6) on both sides, total 18 (12); VII–VIII: 51 (43), arranged in two or three rows (distal single transverse row of large paragnaths and proximal single or two irregular rows of large and small paragnaths,
Figure 15C
).
Thin notoacicula present in chaetigers 1 and 2, decolorized from long-term preservation (
Figure 16A, B
).
Posterior gut of
paralectotype
filled with mud or sand particles.
Reproduction
Epitokous mature males and females swarm at the surface, soon after sunset from March to early October in the Woods Hole region (
Pettibone 1963
). The smallest epitokous male was
1.5 mm
BW and
16 mm
BL in the present study.
Habitat
This species is notably euryhaline, and found in various habitats, e.g. sandy or muddy bottoms, under stones, among masses of sessile organisms such as oysters, barnacles,
Figure 15. Atokes of
Neanthes succinea
.
(A–C) Lectotype (ZMH P-25975), with everted proboscis: (A) dorsal view of the whole body; (B) dorsal view of anterior end; (C) ventral view of anterior end. (D, E) Non-type (NSMT-Pol 11415) collected from Nagoya, Japan, anterior end with everted proboscis: (D) dorsal view; (E) ventral view. Seven groups of paragnaths in different areas on proboscis are shown as I to VII–VIII. Scale bars, 5 mm in A; 1 mm in B–E.
Figure 16. Parapodia of
Neanthes succinea
.
(A, B) Lectotype (ZMH P-25975), left parapodium 1: (A) anterior view; (B) enlargement of (A). (C–G) Non-type atoke (NSMT-Pol 11415) collected from Nagoya, Japan: (C) anterior view of right parapodium 2; (D) anterior view of right parapodium 16; (E) anterior view of right parapodium 24; (F) posterior view of left parapodium 66; (G) anterior view of right parapodium 100. (H) Non-type epitokous male (NSMT-Pol 11420) collected from Insel Poel, Germany, posterior view of left parapodium 30. Abbreviations same as for those in Figures 11 and 13. Arrow indicates an epitokous development of an ovoid lobe above the dorsal cirrus. Scale bars, 0.1 mm in A, B; 0.5 mm in C–H.
mussels and sponges in intertidal or subtidal areas (up to
50 m
deep) in or around estuaries (
Pettibone 1963
; the present study).
Geographical distribution
Atlantic coasts of Europe (north to western Baltic Sea and North Sea, south to
Spain
, Mediterranean Sea, Black Sea, Sea of Azov), western and southern Africa, North America (north to Gulf of St Lawrence, south to
Mexico
), West Indies (
Puerto Rico
), Central America (
Panama
) and South America (
Venezuela
,
Brazil
,
Uruguay
,
Argentine
); Pacific coasts of North America (north to Washington, south to
Mexico
), Central America (
El Salvador
,
Panama
), eastern Asia (Far East
Russia
, Bohai Wan in
China
,
Korea
,
Japan
,
Figure 17
), and southern
Australia
(
Victoria
,
Figure 17
). Based on
Pettibone (1963)
,
Wilson (1984)
,
Wu et al. (1985)
,
Khlebovich (1996)
,
Ieno and Bastida (1998)
,
de León-González and Solís-Weiss (2000)
,
Braga et al. (2011)
and the present study.
Figure 17. Distribution of
Neanthes succinea
in eastern Asia and Australia. Based on
Imajima (1972
,
1996
),
Nunomura et al. (1975)
,
Wilson (1984)
,
Wu et al. (1985)
,
Yamanishi (1988)
,
Ueda et al. (1992)
,
Kimura et al. (1993)
,
Hiraoka (1994)
,
Khlebovich (1996)
,
Hong et al. (1997)
,
Nishi et al. (1998)
,
Fujioka and Kimura (2000)
,
Hori et al. (2000)
,
Lee et al. (2003)
,
Otani et al. (2004)
,
Nishi (2005)
,
Iwamatsu et al. (2007)
,
Seo et al. (2007)
,
Yamanishi and Sato (2007)
, and the present study. The locations of large cities and big projects of coastal development are also shown.
Remarks
The
syntype
specimens were preserved in an old glass vial in
ZMH
. Because the original label attached to the outer surface of the vial was damaged, we could read nothing of its inscription (
K. Philipps-Bussau
, personal communication). However, another new label written with a typewriter is attached to the outer surface of the vial, with a description “474
Nereis succinea, (Original-Exp.)
,
Helgoland
”. The same description (474
Nereis succinea, Org. Expl.
,
Helgoland
) was found in the old catalog “Polychaeten Katalog, Sammlung Ehlers” for the polychaete collection in
ZMH
. “Org. Expl” was judged as “Original Exemplar” in German. “
Helgoland
” is exactly one of the sampling sites (
Helgoland
and
Cuxhaven
) shown in the original description (
Leuckart 1847
).
Therefore, I
decided the specimens were the
syntypes
.
The diagnosis of this species was amended by adding the present findings to what was previously known about this species (
Leuckart 1847
;
Pettibone 1963
;
Imajima 1972
;
Wilson 1984
;
Wu et al. 1985
;
Hartmann-Schröder 1996
;
Khlebovich 1996
;
Bakken and Wilson 2005
). Most characteristics of specimens examined in the present study agreed well with the previous description of this species. An important characteristic, i.e. the presence of notoaciculae on chaetigers 1 and 2, which has been recognized in a few genera in
Nereididae (
Bakken and Wilson 2005
)
, was newly recorded for this species by the present study. The other morphological characteristics were adequately drawn in
Leuckart (1847)
,
Pettibone (1963)
,
Imajima (1972
,
1996
),
Wu et al. (1985)
,
Wilson (1984)
,
Hartmann-Schröder (1996)
and
Khlebovich (1996)
.
Neanthes succinea
was transferred to the genus
Alitta
by
Bakken and Wilson (2005)
based on a phylogenetic analysis using a character set of 52 informative characters. But, this character set included a serious mistake that notoaciculae are absent from chaetigers 1 and
2 in
Neanthes succinea
(
Bakken and Wilson 2005
: Appendix 3, p. 545). Here, therefore, the combination
Neanthes succinea
is resurrected, reversing its placement in
Alitta
.
Neanthes succinea
is similar to both the three
Alitta
species (
Khlebovich 1996
) and the two
Nectoneanthes
species (present study) in terms of the presence of an expanded notopodial dorsal ligule in atokes, but different from the
Nectoneanthes
species in several characteristics (see remarks in description of
Nectoneanthes oxypoda
), and different from the
Alitta
species in terms of the presence of notoaciculae on chaetigers 1 and 2; the
Alitta
species lack notoaciculae from chaetigers 1 and 2 (
Bakken and Wilson 2005
; my unpublished data on Danish specimens of
Alitta virens
or
Alitta grandis
, and Japanese specimens of
Alitta brandti
).
Paragnath
numbers on proboscis of the
lectotype
were comparable to those of nontype atokes (
n =
4, MS) newly collected from
Wilhelmshaven
,
German
North Sea
(the vicinity of type locality) in 2008 (group I: 2–3; II: 19–26 on each side, total 40–52;
III
: 32–41; IV: 24–27 on each side, total 49–53;
V
: 1–4;
VI
: 8–10 on each side, total 16–18). Paragnath numbers of the
paralectotype
were, however, unusually small, probably caused by loss or invisibility of some paragnaths during long-term preservation
.
Description of female epitokous metamorphosis (development of small round lamella) of the neuropodial postchaetal lobe depended on
Pettibone (1963)
, because no epitokous female was observed in the present study. However,
Wilson (1984)
described the female neuropodial postchaetal lobe divided along the line of the neuroacicula into unequal discoid lobes, the dorsal lobe being the larger.
The Australian records of
Wilson (1984)
seem to include both
Neanthes succinea
and
Nectoneanthes oxypoda
; only specimens collected from
Victoria
(Hobson’s Bay) could be judged as
Neanthes succinea
based on drawings of the parapodia and paragnath numbers of group III.