A New Species of Cryptopontius (Crustacea: Copepoda: Siphonostomatoida) from Easter Island
Author
JOHNSSON, RODRIGO
Author
ROCHA, CARLOS E. F.
Author
BOYKO, CHRISTOPHER B.
text
American Museum Novitates
2002
2002-06-21
3370
1
1
8
http://www.bioone.org/perlserv/?request=get-abstract&doi=10.1206%2F0003-0082(2002)370%3C0001%3AANSOCC%3E2.0.CO%3B2
journal article
5841
10.1206/0003-0082(2002)370<0001:ANSOCC>2.0.CO;2
0df45d6f-0665-4855-9778-91d6bf437b68
0003-0082
4712268
Cryptopontius tanacredii
,
new species
Figures 1–4
MATERIAL EXAMINED: ex
Pocillopora damicornis
, offshore from
Ahu Tepeu
,
Easter Island
(Rapa Nui),
15.1 m
,
29 August 1999
, coll.
H. Tonnemacher
:
1 female
,
holotype
(
AMNH 18380
)
,
1 male
,
allotype
(
AMNH 18381
)
;
ex
P. damicornis
, from
Motu Iti
islet, off the southwest coast of
Easter Island
(Rapa Nui),
47.88 m
,
28 August 1999
, coll.
H. Tonnemacher
:
1 female
,
paratype
(
MNRJ 15429
)
.
DESCRIPTION OF
HOLOTYPE
FEMALE (figs. 1– 3c): Body length (excluding caudal setae)
1167 µm
, greatest body width
667 µm
; thus body 1.75 times longer than wide. Body shape cyclopiform (fig. 1a), with sensilla covering prosome; cephalosome and pedigerous somites 2 to 4 not imbricated, with epimera moderately pointed. Ratio of length to width of prosome 1.3:1, ratio of length of prosome to urosome 2.6:1. Pedigerous somite 3 with posterior margin showing denticles (fig. 1b).
Urosome (fig. 1c) fivesegmented. Genital double somite 127 X
221 µm
, ratio of length to width 0.6:1, rounded medially, armed with one plumose and one smooth seta near genital aperture. Three abdominal somites, all wider than long (66 X
139 µm
, 48 X
125µm
, 64 X
105 µm
), ratio of length to width 0.5, 0.4, and 0.6:1, respectively. All somites showing sensilla. Caudal rami elongated, 57 X
43 µm
, 1.3 times longer than wide, with row of hairs on inner margin and armed with six setae. Seta I absent. Length of setae II–VII, 52, 127, 350, 525, 189, and
70 µm
, respectively. Setae III– VI plumose, setae II and VII smooth.
Antennule (fig. 1d)
357 µm
long (not including setae), and ninesegmented. Length of segments 1–9 measured along their posterior margin:
64 µm
(
60 µm
along anterior margin), 26, 69, 31, 16, 31, 27, 36, and
57 µm
, respectively. Segmental homologies and se tation as follows, romans numerals indicate the original segments followed by the number of setae in Arabic numbers, according to
Huys and Boxshall (1991)
: I–1; II–2; III–VIII–11; IX–XIII–8; XIV–2; XV–XVI–2; XVII– XVIII–2; XIX–XX–2; XXI–XXVIII–9+ae. All setae smooth. Aesthetasc (ae) on segment XXI
100 µm
long.
Antenna (fig. 1e)
172 µm
long (including distal seta), with basis
55 µm
long. Endopod twosegmented; first segment
24 µm
long, unarmed; second segment
42 µm
long with one smooth proximal seta, one smooth subdistal seta, and two plumose distal setae (51 and
62 µm
long), none of them modified into a claw.
Oral cone (fig. 1a) produced into long, siphonlike distal portion,
447 µm
long, 0.4 times the body length. Mandible (fig. 1f) comprising a distally toothed stylet, palp absent. Maxillule (fig. 2a) bilobed, inner lobe
127 µm
, almost twice as long as outer lobe, armed with long plumose seta and short hirsute seta. Outer lobe
67 µm
long, armed with two pinnate setae.
Maxilla (fig. 2b) with syncoxa
286 µm
long and curved slender claw
295 µm
long, with pinnate extremity and showing small spine and tooth subdistally. Maxilliped (fig. 2c) fivesegmented, comprising syncoxa
80 µm
long, armed with small seta on inner margin, basis
250 µm
long with small seta subproximally on outer margin, and tooth subdistally on inner margin. Endopod threesegmented, 33, 61, and
48 µm
long, respectively. First endopodal segment with two setae distally; second segment with single seta; and third segment bearing curved,
106 µm
long claw and seta.
Swimming legs 1–3 (P1–P3; figs. 2d, e, 3a) biramous, all with threesegmented rami, P4 (fig. 3b) with threesegmented exopod and without endopod. Leg 2 with distal element plumose proximally and spinulated distally. Armature formula of legs 1–4 shown in table 1.
Fifth leg (fig. 3c) with long smooth seta near insertion of small, free segment armed with three smooth setae, two distal and third on outer margin.
DESCRIPTION OF
ALLOTYPE
MALE (figs. 3d, 4): Body similar to female, but much smaller (fig. 3d). Length (excluding caudal setae)
935 µm
long, greatest body width
555 µm
, 1.7 times longer than wide. Prosome covered with sensilla. Ratio of length to width of prosome 1.7:1. Ratio of length of prosome to urosome 3.2:1. Cephalosome and pedigerous somites 2–4 not imbricated, with epimera slightly pointed. Urosome (fig. 4a) fivesegmented. Genital somite 61 X
167 µm
, ratio of length to width 0.4:1, rounded anterolaterally, with three plumose setae posteriorly. Three abdominal somites, all wider than long, 43 X 130, 35 X 120, 59 X
117 µm
, ratio of length to width 0.3, 0.3, and 0.5:1, respectively. Caudal rami 39 X
54 µm
, wider than long, with row of hairs on inner margin and armed with six setae. Seta I absent. Length of setae II–VII, 50, 80, 252, 417, 65, and
47 µm
, respectively. Setae II and VII smooth, remaining setae plumose.
Fig. 1.
Cryptopontius tanacredii
,
new species
, holotype female (AMNH 18380):
(a)
habitus, dorsal,
(b)
distal margin of pedigerous somite 3,
(c)
urosome, ventral,
(d)
antennule,
(e)
antenna,
(f)
distal part of mandible. Scale bars: 200 µm (a); 100 µm (b, c); 50 µm (d–f).
Fig. 2.
Cryptopontius tanacredii
,
new species
, holotype female (AMNH 18380):
(a)
maxillule,
(b)
maxilla,
(c)
maxilliped,
(d)
leg 1,
(e)
leg 2. Scale bar: 50 µm.
Fig. 3.
Cryptopontius tanacredii
,
new species
, holotype female (a–c) (AMNH 18380), allotype male (d) (AMNH 18381):
(a)
leg 3,
(b)
leg 4,
(c)
fifth pedigerous somite showing leg 5, ventral,
(d)
habitus, dorsal. Scale bars: 50 µm (a–c); 100 µm (d).
Fig. 4.
Cryptopontius tanacredii
,
new species
, allotype male (AMNH 18381):
(a)
genital doublesomite and abdomen, ventral,
(b)
antennule,
(c)
maxilla,
(d)
maxilliped,
(e)
leg 5. Scale bar: 50 µm.
Antennule (fig. 4b)
256 µm
long (not including setae), and eightsegmented. Length
of segments 1–8 measured along their posterior margin
62 µm
(
61 µm
along anterior margin), 54, 23, 12, 21, 17, 21, and
46 µm
, respectively. Segmental homologies and setation as follows: I1; IIVIII14; IXXIII 6+spine; XIV1+spine; XVXVI2; XVII XVIII2; XIXXX2; XXIXXVIII10+ae. All setae smooth, aesthetasc on segment XXI
TABLE 1
Cryptopontius tanacredii
,
new species
, Armature Formula of Legs 1–4
| Coxa |
Basis |
Exopod |
Endopod |
| Leg 1 |
01 |
11 |
I1; I1; III,2,3 |
01; 02; 1,2,3 |
| Leg 2 |
01 |
10 |
I1; I1; III,I,5 |
01; 02; 1,1 + I,3 |
| Leg 3 |
01 |
10 |
I1; I1; III,I,5 |
01; 02; 1,1 + I,3 |
| Leg 4 |
01 |
10 |
I1; I1; III,I,5 |
— |
78 µm
long. Maxilla (fig. 4c) with long syncoxa,
180 µm
long, with small tooth proximally on inner margin, curved claw
221 µm
long, toothed distally and showing two small setae subdistally.
Maxilliped (fig. 4d) fivesegmented, with syncoxa
50 µm
long, armed with smooth seta. Basis
160 µm
long, with small seta medially and subdistal tooth on inner margin. Endopod threesegmented, 36, 43, and
33 µm
long, respectively. First segment armed with two setae distally, second segment with one seta and third segment with one seta and claw curved distally,
71 µm
long.
Leg 5 (fig. 4e) with free segment armed with three plumose setae. All other appendages as in the female.
ETYMOLOGY: The specific name ‘‘
tanacredii
’’ honors Dr. John T. Tanacredi of the
U.S.
National Park Service, Gateway National Recreation Area, whose efforts made the Invertebrate Survey of Easter Island possible.
DISCUSSION: The 21 species of
Cryptopontius
can be divided into three groups according to the number of segments on the antennules (8, 9, or 10).
Cryptopontius tanacredii
,
n. sp.
, belongs to the group having ninesegmented antennules, which also includes
C. brevicaudatus
(
Brady, 1899
)
;
C. brevifurcatus
(
Giesbrecht, 1895
)
;
C. graciloides
Ummerkutty, 1962
;
C. gracilis
Wilson, 1932
;
C. longipes
Nicholls, 1944
; a new species from
Madeira
,
Portugal
(fide Johnsson, in press);
C. orientalis
Ummerkutty, 1962
;
C. paracapitalis
Eiselt, 1961
(new name for
C. latus
Nicholls, 1944
, non
C. latus
(
Brady, 1910
)
; erroneously credited to Nicholls by
Eiselt, 1961
);
C. proximus
Nicholls, 1944
, and
C. tenuis
(
Giesbrecht, 1895
)
.
Among these 11 species,
C. longipes
is the only one with eight elements on the third exopodal segment of P4 (
Nicholls, 1944
), while the other 10 species, including
C. tanacredii
,
n. sp.
, all have nine elements.
Cryptopontius tanacredii
,
n. sp.
, has its second endopodal segment of P1 with two setae, as is also true of
C. brevifurcatus
,
C. paracapitalis
,
C. graciloides
, the new species from
Madeira
, and
C. brevicaudatus
. The remaining four species (
C. proximus
,
C. gracilis
,
C. tenuis
, and
C. orientalis
), have only one seta on the second endopodal segment of P1 (
Giesbrecht, 1899
;
Wilson, 1932
;
Nicholls, 1944
;
Ummerkutty, 1962
).
Of the six species cited above as having the second endopodal segment of P1 with two setae,
Cryptopontius brevifurcatus
is the only one with three setae on the outer maxillule lobe (
Giesbrecht, 1899
); all other species have two setae on the outer lobe.
Cryptopontius paracapitalis
has one seta on the inner maxillule lobe (
Nicholls, 1944
);
C. brevicaudatus
has three setae (
Eiselt, 1961
); and
C. tanacredii
,
n. sp.
,
C. graciloides
, and the new species from
Madeira
have two setae each (
Ummerkutty, 1962
; Johnsson, in press).
Cryptopontius graciloides
has the free segment of leg 5 reduced to a group of setules, the maxilliped with two endopodal segments, the antennal exopod with one seta, and the second endopodal segment with two setae.
Cryptopontius tanacredii
,
n. sp.
, differs in having the free segment of P5 present with three setae, a threesegmented endopod of the maxilliped, an antennal exopod with two setae and the second endopodal segment bearing three setae distally. The new
Cryptopontius
species from
Madeira
has only two setae distally on the second endopodal segment of the antenna, one of them modified into a claw; this is not present in
C. tanacredii
. Additionally, the antennule of the new species from
Madeira
has the proximal pattern of I, IIVII, VIII, while in
C. tanacredii
it is I, II, III–VIII.