The first record of Cyproidea liodactyla (Crustacea: Amphipoda: Cyproideidae) from Korean waters
Author
Jung, Tae Won
Author
Soh, Ho-Young
Author
Yoon, Seong Myeong
text
Journal of Species Research
2016
2016-10-31
5
3
272
278
http://dx.doi.org/10.12651/jsr.2016.5.3.272
journal article
10.12651/JSR.2016.5.3.272
2713-8615
13142244
Cyproidea liodactyla
Hirayama, 1978
üḇêŔqăNjẹ
(
ṳAE
) (
Figs. 14
)
Cyproidea liodactyla
Hirayama, 1978: 245
, figs. 13;
Hirayama, 1983: 124
;
Barnard and Karaman, 1991: 259
;
Ishimaru, 1994: 53
; Ariyama, 2016: 303, figs. 26.
Fig. 1.
Cyproidea liodactyla
Hirayama, 1978
, male, habitus, lateral view.
Material examined.
5 specimens
; cat No. NIBRIV0000 332004;
Udo Island
,
Jejudo
,
Korea
,
33°29′12″N
126° 57′17″E
, average depth
33 m
; coll. H.
Y. Soh
.
Male.
Body (
Fig. 1
): about 3.0 mm long; pereonites 37 more swollen; coxae 12 vestigial and hidden by coxa 3, coxae 34 extremely broaden and occupying lower half of lateral surface.
Head (
Figs. 1
,
2A
): compact, slightly shorter than pereonites 12 combined; rostrum indistinct; anterior cephalic lobe weak, apex convexly oblique posteroventrally; eyes large, ovoid.
Antennae 1 (
Fig. 2A
): with stout peduncular articles 12; peduncular article 1 short; peduncular article 2 with developedkeel anterodistally bearing acute apex; peduncular article 3 slightly shorter than peduncular article 1; accessory flagellum vestigial; flagellum 6-articulate, distal 3 articles with aesthetascs.
Antenna 2 (
Fig. 2A
): slender, longer than antenna 1; with peduncular articles
35 in
length ratio of 1.0: 2.4: 2.2; flagellum short, 3-articulate.
Left mandible (
Fig. 2B
): with 8dentate incisor and 4 dentate lacinia mobilis; accessory setal row composed of 12 slender setae; molar process conical, not triturative; palp slender, 3articulate and their length ratio of 1.0: 1.4: 1.0, distal article with 1 long seta apically.
Maxilla 1 (
Fig. 2C
): inner plate small, subovoid, with 4 minute setae apically; outer plate with 1 seta and 2 stout spines on medial margin distally, lined with 8 stout spines on obliquely truncated apex; palp stout, biarticulate, article 1 short, article 2 with 6 serrations bearing 1 minute seta on medial margin distally, apex beyond distal spines on outer plate and with 1 simple and 1 pair of dentate spines.
Maxilla 2 (
Fig. 2D
): inner plate broaden, with 5 submarginal and 3 facial setae, apex slightly oblique with weak protrusion bearing 1 spine; outer plate longer than inner plate, lined with 14 submarginal setae on distal half of lateral margin, with 1 pair of setae on medial margin distally, apex with 2 stout spines and 1 weak protrusion.
Maxilliped (
Fig. 2E
): inner plate subrectangular, with acute protrusion and 1 submarginal spine mediodistally; outer plate covered with minute setae and with 1 row of 4 long setae on lateral surface, medial margin serrated distally and with 1 submarginal low of 5 setae proximally, apex reaching distal 2/3 of article 1 of palp with 1 weakly plumose spine and 1 subapical seta; palp elongate, article 1 with minute setae along lateral margin and with 3 elongate submarginal setae on medial margin distally, article 2 with 4 pairs of elongate setae on medial margin, article 3 without setae and with small protrusion bearing 1 elongate seta on lateral margin distally, medial margin slightly dilated and with 1 pair of setae distally, with 1 dentate spine at distal corner, article 4 falcate, slightly shorter than article 3, with minute setae along medial margin.
Gnathopod 1 (
Fig. 2F, G
): subchelate; basis stout, somewhat curved, slightly shorter than carpus and propodus combined, anterior lobation indistinct, lined with minute setae on anterior margin, with 3 setae on posterior margin; ischium short, with small anterior lobe, convex posteriorly, lined with minute setae on distal 2/3 of posterior margin; merus slightly longer than ischium, with developedprotrusion distally; carpus subtrapezoidal, convergence proximally and gradually widening distally, anterior margin without setae, distal 1/3 of posterior margin lined with minute setae, posterodistal corner weakly produced with 5 elongate setae; propodus 0.7 times as long as basis, with 1 minute seta at anterodistal corner, posterior margin and palm gradually widening and convex, lined with serrations; dactylus elongate and slender, with 8 serrations on inner margin proximally, slightly lurched apically.
Gnathopod 2 (
Fig. 3A, B
): carpochelate; basis stout, subtrapezoidal, gradually widening distally in width, lined with 8 minute setae on proximal half of anterior margin, posterior margin straighten, lined with 17 minute setae, posterodistal corner weakly produced with 1 minute seta; ischium rectangular, anterior lobe weak, posterodistal process developed and lined with setae anteriorly, with 3 elongate setae on apex; merus longer than ischium, with developedprocess at anterodistal corner medially, posterior margin slightly convex with minute setae distally, weak posterodistal protrusion with setae; carpus stout, anterior margin short and without setae, posterior margin and carpal process as long as basis, posterodistal carpal process stout, developed, slightly curved and fitting well to proximal 3/4 of posterior margin of propodus, with stout setae medially; propodus 0.7 times as long as basis, with 1 seta at anterodistal corner, posterior margin and palm gradually widening and convex, lined with serrations; dactylus elongate and slender, shorter than that of gnathopod 1, with 8 serrations on inner margin proximally, apex overlapping carpal process.
Fig. 2.
Cyproidea liodactyla
Hirayama, 1978
, male. A. head and antennae 12. B. left mandible. C. maxilla 1. D. maxilla 2. E. maxilliped. F. gnathopod 1. G. dactylus of gnathopod 1, enlarged.
Pereopod 3 (
Fig. 3C
): slender; coxa largely broadened, subtriangular, anterior and ventral margins convex; posterior margin slightly concave and fitting to anterior margin of coxa 4; basis rectolinear, shorter than coxa, lined with minute setae on anterior margin; with 5 setae on posterior margin centrally; ischium with small anterior lobe; merus less than half length of basis, anterior margin slightly sinuous, anterodistal corner weakly produced and with 1 seta subdistally; carpus slender and linear, 0.9 times as long as merus; propodus also linear, with 4 small spines on posterior margin; dactylus falcate, elongate, 0.4 times as long as propodus.
Pereopod 4 (
Fig. 3D
): coxa also broadened massively, covering basis and ischium, posterior margin expanded backward, narrowly excavate proximally and receiving coxa of pereopod 5; basis rectolinear, with 4 minute setae on anterior margin and 5 minute setae on posterior margin; other articles of pereopod 4 similar to those of pereopod 3.
Pereopod 5 (
Fig. 3E
): coxa unilobate, produced anteriorly but apex round, ventral margins smooth, posterior margin expanded backward and acute; basis rectolinear, with several setae along anterior and posterior margins; ischium elongate, with weak posterior lobe; merus 0.5 times as long as basis, anterodistal corner with 1 minute seta, posterior margin slightly sinuous, posterodistal corner weakly produced with 1 seta subdistally; carpus slender and linear, 0.9 times as long as merus; propodus also linear, lined with 3 small spines on anterior margin; dactylus falcate, elongate, 0.5 times as long as propodus.
Pereopod 6 (
Fig. 4A
): coxa unilobate, sublozenge, smaller than coxa 5; basis rectolinear, with several setae along anterior margin; ischium elongate, with weak posterior lobe; merus 0.5 times as long as basis, anterodistal corner with 1 minute seta, posterior margin slightly sinuous, posterodistal corner weakly produced and with 1 spine subdistally; carpus slender and linear, as long as merus; with 1 small spine on anterior margin; propodus also linear, lined with 4 small spines on anterior margin; dactylus falcate, elongate, 0.5 times as long as propodus.
Pereopod 7 (
Fig. 4B
): coxa unilobate, smaller than coxa 6; basis rectolinear, with several setae along anteri or and posterior margins; merus and carpus shorter than those of pereopod 6; propodus lined with 3 small spines on anterior margin.
Pleon and urosome (
Fig. 4F
): pleonal epimera 12 with acutely produced posterodistal corners and that of epimeron 2 larger, epimeron 3 smooth posteroventrally; urosomite 1 longer than pleonite 1, urosomite 2 short, urosomite 3 with dorsal keel produced backwardly.
Pleopod 1 (
Fig. 4C
): peduncle subquadrate, gradually diminished distally in width, with 1 pair of retinaculae mediodistally; rami longer than peduncle, inner ramus 10articulate and outer ramus 11articulate, all articles with plumose setae distally.
Pleopod 2 (
Fig. 4D
): inner ramus 11articulate and outer ramus 12articulate.
Pleopod 3 (
Fig. 4E
): shortest; peduncle quadrate; inner ramus 10articulate and outer ramus 12articulate.
Uropod 1 (
Fig. 4G
): elongate; peduncle slender, longer than rami, pectinate on distal half of dorsomedial margin; rami lanceolate, ramus equal each other, pectinate on dorsal margins.
Uropod 2 (
Fig. 4H
): similar but shorter than uropod 1.
Uropod 3 (
Fig. 4I
): shortest; peduncle 0.6 times as long as that of uropod 2; rami lanceolate, inner ramus longer than outer ramus.
Telson (
Fig. 4J
): entire, ovate oblongly, shorter than peduncle of uropod 3.
Female.
Similar to males.
Remarks.
In the original description of the species,
Hirayama (1978)
mentioned that
Cyproidea liodactyla
is very similar to
C. serratipalma
Schellenberg, 1938
, the
type
species of the genus
Cyproidea
Haswell, 1879
. However,
C. liodactyla
can be discriminated readily by the following characteristic features: anterior margin of peduncle 2 on antenna 1 has developedkeel bearing acute distal end, palp of maxilla 1 is elongate and has 3 distal spines, inner plate of maxilla 2 is broader than outer, posterodistal process of ischium on gnathopod 1 is largely develop ed and carpal process is reaching distal end of propodus on gnathopod 2. The Korean specimens of cyproideids examined in this study also showed the above features and they were readily assigned as
C. liodactyla
. However, the following minor differences are found between Korean materials and the original description by
Hirayama (1978)
: 1) antenna 1, peduncular article 1 is as long as peduncular article
2 in
the original description (vs. peduncular article 1 is shorter than peduncular article
2 in
Korean specimens); 2) antenna 1, peduncular article 2 has two pointed processes distally in the original description (vs. only one process in revision of Ariyama (2016) and our Korean specimens); 3) antenna 1, flagel
Fig. 3.
Cyproidea liodactyla
Hirayama, 1978
, male. A. gnathopod 2. B. dactylus of gnathopod 2, enlarged. C. pereopod 3. D. pereopod 4. E. pereopod 5.
October 2016
JUNG
ET
AL.
CYPROIDEA LIODACTYLA
FROM
KOREA
277
A H I
mm 0.1
B
0.1 mm
C D E
mm mm 0.1 0.1
G
mm mm 0.2
0.1 mm
0.2 mm
0.2
J
mm 0.2
F
0.2 mm
Fig. 4.
Cyproidea liodactyla
Hirayama, 1978
, male. A. pereopod 6. B. pereopod 7. C. pleopod 1. D. pleopod 2. E. pleopod 3. F. pleon and urosome, lateral view. G. uropod 1. H. uropod 2. I. uropod 3. J. telson.
lum is 4articulate in the original description (vs. 6articulate in Korean specimens); 4) left mandible, accessory setal row is composed of 6 setae in the original description (vs. composed of 12 setae in Korean specimens); 5) mandibular palp, article 2 has two or three setae in the original description (vs. 16 setae in Korean specimens); 6) pleonal epimeron 2 is not produced posteroventrally in the original description (vs. acutely produced in the revision of Ariyama (2016) and our Korean specimens); and 7) telson is more swollen laterodistally in the original description (
Hirayama, 1978
; Ariyama, 2016).
The Korean specimens are very similar to
C. robusta
Ren, 2006
reported from
Hainan Province
,
China
. However, they showed some differences from the latter and more close to
C. liodactyla
in that they have serrations of palp on maxilla 1, longer article 2 of palp on mandible, and mediodistal stout spine at article 3 of palp on maxilliped. However, they share several common features of the original description of
Cyproidea liodactyla
Hirayama, 1978
. Therefore, we are confident in the va lidity of
Cyproidea liodactyla
in Korean waters, but the relationship between
C. liodactyla
and
C. robusta
is in need of further study.