Ostracoda (Myodocopa) from Anchialine Caves and Ocean Blue Holes
Author
Kornicker, Louis S.
Author
Iliffe, Thomas M.
Author
Harrison-Nelson, Elizabeth
text
Zootaxa
2007
2007-08-31
1565
1
1
151
https://biotaxa.org/Zootaxa/article/view/zootaxa.1565.1.1
journal article
10.11646/zootaxa.1565.1.1
11755334
5095810
A2CDD9CB-CA5E-418B-A471-9EEFDC5CCF16
Danielopolina (H.) palmeri
n.sp.
Figs. 10–13
a–i
Etymology.
Named posthumously in honor of British cave diver Rob Palmer, a pioneering explorer of the blue holes of
the Bahamas
and author of two books (
Palmer 1985
,
1997
) and numerous articles. Rob never returned from a deep dive in the Red Sea in 1997. The
type
locality for this species was first explored by Rob Palmer.
Holotype
.
USNM 1021375
, adult female on two slides and in alcohol.
Type locality.
Sanctuary Blue Hole,
South Andros
Island, Great Bahama Bank, Sta 99-061.
Paratypes
.
Type locality, Sta 99-061:
USNM 1021376
, adult female.
USNM 1021377
, two early instars (probably second instars, length and height without processes (mm): 0.38, 0.27; 0.28, 0.23)
.
Distribution.
Type
locality.
Description of adult female
(
Figs. 10–13
a–i
). Carapace subround in lateral view with fairly straight margin between anterior and anteroventral processes (
Fig. 10
); hinge line straight (
Fig. 11
e
). Short anterior and anteroventral processes with bases just lateral to valve edge; fragile spines on processes mostly broken off on
holotype
(
Fig.11
a
); spines on processes completely broken off by dissecting needle leaving small firm triangular protuberance (
Fig. 11
a
); a similar posterodorsal process in same place on each valve. Bristles present along edges of valve, those along anteroventral edge divided distally (
Fig. 11
e
).
Ornamentation:
Much of surface ornamentation missing on surface of carapace of
holotype
. Approximate location of some reticulations and spines of
holotype
shown in
Fig. 11
a
, and minute subelliptical papillae forming walls of reticulations shown in
Fig. 11
b
; papillae at intersections of reticulate walls generally with small spines; minute spines forming rows near valve edges. Surface ornamentation well preserved on
paratype
(
Fig. 10
): minute papillae forming walls of reticulations, with spines at intersections; spines forming row just within valve edge and along dorsal edge of valve.
Selvage
(
Fig. 11
d,e
): Broad lamellar prolongation with smooth outer edge present along anterior, ventral, and posterior edges of valves.
Infold
(
Fig. 11
e
): Broad infold present along anterior, ventral, and posterior margins of valves.
Central adductor muscle attachments
(
Figs. 10
,
11
a,e
): Comprising about 8 radially arranged attachments.
Carapace size
(mm): USNM 1021375, length without processes 0.53, height without processes 0.47. USNM 1021376, length with anterior and posterodorsal processes 0.61, length without processes 0.49, height with anteroventral and posterodorsal processes 0.45, height without processes 0.42.
First antenna
(
Figs. 11
f
,
12
a–c
): 1st and 2nd segments linear (not forming right angle). 1st segment with 1 dorsal bristle and 1 lateral bristle oriented posteriorly. 2nd segment with 1 dorsal bristle. 3rd and 4th segments fused but place of boundary indicated by slight indentation in ventral margin. 5th segment with long terminal ventral filament. 6th segment bare. 7th segment with 2 long ventral bristles (b-bristle shorter than lateral c-bristle). 8th segment with 3 bristles (d-bristle shorter, f-bristle about one-half length of e-bristle).
Second antenna
(
Fig. 12
d
): Protopod bare. Endopod 3-segmented but with 2nd and 3rd segments fused. 1st segment with dorsal a- and b-bristles. 2nd segment with 2 long terminal bristles and indistinct, minute, distal, lateral spine near dorsal margin. 3rd segment narrow with short terminal bristle. Exopod 8 segmented: 1st segment divided weakly into long proximal and short distal parts; bristles of segments 2–7 long with indistinct natatory hairs; 8th segment with 2 bristles.
Mandible
(
Fig. 13
a–c
): Coxa endite with proximal and distal sets of teeth separated by space; proximal set comprising 4 broad cusps plus triangular tooth close to distal set of teeth (
Fig. 13
a
); surface between cusps and surfaces just proximal to cusps with slender spines; 1 spinous bristle with base just posterior and another with base just anterior to triangular tooth; distal set of teeth consisting of 2 flat teeth, each with cusps; 1 slen- der bristle with base medial to distal set of teeth. Basis (
Fig. 13
b
): tooth of endite with 5 triangular teeth, each with minute marginal cusp on each side (cusps on anterior 4 teeth better defined); posterior edge of endite spinous, with 2 short distal bristles (distal of these tubular with blunt tip); anterior margin of endite with long ringed bristle near midlength; lateral side of endite with 4 bristles (3 long, 1 short) near midlength and 1 short distal bristle; medial side of endite with 2 proximal bristles and long spines near midlength (spines not shown). Endopod 3 segmented (1st and 2nd segments of left limb fused, but interpreted to be an aberrancy (
Fig. 13
b
); right limb with suture between 1st and 2nd segments (
Fig. 13
c
)): 1st segment with lateral spines; 2nd segment with distal lateral spines, 1 ringed distal ventral bristle, 2 ringed distal medial bristles with bases near ventral margin, and 2 ringed dorsal bristles; 3rd segment with dorsal and medial spines (medial spines not shown), 2 terminal lateral bristles (1 at midwidth about twice length of endopod and with distal marginal spines), 1 at ventral edge almost one-half length of bristle at midwidth and with distal marginal spines (longest spines at midlength), 3 shorter ringed terminal medial bristles, and 1 short ringed subterminal bristle on ventral margin.
FIGURE 10.
Danielopolina palmeri
,
new species
, paratype, USNM 1021376, adult female, complete specimen from right side, length without processes 0.49 mm, with processes 0.61 mm.
Maxilla
(
Fig. 13
d,e
): Endite I with about 10 bristles (3 tubular); endite II with about 6 bristles (2 tubular); endite III with about 5 bristles (1 tubular). Coxa with long spinous dorsal bristle. Basis with 2 ventral bristles (1 spinous bristle near base of endite III, 1 terminal tubular bristle). Endopod 2 segmented: 1st segment with 3 dorsal bristles and 3 distal bristles on or near ventral margin; 2nd segment with stout, straight, unringed, nonarticulated, terminal claw and 4 ringed articulated bristles (1 medial tubular, 3 lateral (longest somewhat clawlike, spinous)).
Fifth limb
(
Fig. 13
d,f–h
): Epipod bristles not counted. Boundary of precoxa and coxa marked by muscle terminating at ventral edge of boundary (
Fig.
13
g
). Precoxa with 6 ventral bristles (1 tubular) and 1 medial bristle set back from ventral margin. Coxa with 6 ventral bristles (2 claw-like bristles, 2 slender tubular bristles, 2 stout bristles with long marginal spines) and 1 long spinous bristle set back from ventral margin (
Fig.
13
g
). Basis with 6 bristles on or near ventral margin and 1 spinous medial bristle set back from ventral margin. Exopod bristle long bare. Endopod 2 segmented: 1st segment with 2 ventral bristles near midlength; 2nd segment with 1 long and 2 short bristles.
FIGURE 11.
Danielopolina palmeri
,
new species
, holotype USNM 1021375, adult female,
a,
complete specimen from left side, length without processes 0.53 mm;
b,
detail of surface pustules from "
a
";
c,
complete specimen showing projecting furca and attached protistans;
d,
ventral edge of specimen showing projecting mandible and furca;
e,
right valve showing adductor and mandibular muscle attachment scars;
f,
body removed from carapace (maxilla, 5th and 6th are right limbs, others are left limbs (nabs)). Scale equals 0.10 mm (
b–f
).
Sixth limb
(
Fig. 13
f,i
): Epipod with plumose bristles forming 3 groups: proximal group with 5 bristles; bristles of second group fragmented during dissection; distal group with 4 or 5 bristles. Precoxa spinous, with 1 spinous ventral bristle. Coxa spinous, with 2 spinous ventral bristles. Basis with 3 spinous bristles (2 ventral and 1 dorsal). Small exopod with 2 unequal spinous bristles. Exopod of left limb medial and close to ventral margin of basis (
Fig. 13
i
); exopod of right limb also medial but close to dorsal margin (
Fig. 13
f
). Endopod 2 segmented: 1st segment with 2 ventral bristles near midlength; 2nd segment with 2 bristles (1 long terminal and 1 short, subterminal, ventral).
Seventh limb
(
Fig. 12
e
). Elongate with 2 long terminal bristles.
FIGURE 12.
Danielopolina palmeri
,
new species
, holotype USNM 1021375, adult female,
a,
anterior of body showing Bellonci Organ, left first antenna, right maxilla, and upper and lower
lips
(nabs);
b,
right first antenna (mv), and Bellonci Organ and some internal muscles;
c,
left first antenna (lv), and Bellonci Organ;
d,
right second antenna drawn on body, mv (nabs);
e,
left seventh limb, lv;
f,
upper and lower
lips
drawn on body. Scale equals 0.05 mm.
FIGURE 13.
Danielopolina palmeri
,
new species
, holotype USNM 1021375, adult female:
a,
coxa of left mandible, lv;
b,
basis and endopod of left mandible, lv;
c,
endopod of right mandible drawn on body, lv (nabs);
d,
right maxilla, right fifth limb (nabs), and left lower lip drawn on body;
e,
left maxilla (nabs) and endites;
f,
right fifth and sixth limbs drawn attached to body, mv;
g,
left fifth limb, mv;
h,
tip of right fifth limb, lv;
i,
left sixth limb, mv (not all bristles of epipod shown).
Danielopolina exuma
Kornicker & Iliffe, USNM
194419, adult female:
j,
right first antenna showing some internal muscles, lv (nabs). Scale equals 0.05 mm.
Furca
(
Fig. 11
c,d,f
): Each lamella with 2 long articulated anterior claws and 3 short nonarticulated ventral claws; all claws with indistinct spines along posterior margin (spines not shown); claw 1 indistinctly ringed. Stout unpaired process on posterior of body just proximal to furca.
Bellonci Organ
(
Figs. 11
f
,
12
a–c
): Well defined, elongate, with rounded tip.
Lips
(
Fig. 12
a, f
): Anterior face of lip with 2 small processes; tip of upper lip with spines and small process. Lower lip with a triangular process at each side of mouth.
Posterior of body
(
Fig. 11
f
): With 9 or 10 short ridges along posterior edge.
Genitalia
. None observed.
Eggs
(
Fig. 11
f
): With several unextruded eggs.
Gut content
: Gut viewed through body filled with brown unidentified particles.
Protistan:
Carapace with several elongate and round stemmed protistans along posterior margin (
Fig. 11
c
). Similar protistans also present on dorsal margin of 1st segment of left 1st antenna.
Feeding:
Endite I of maxilla anterior and projecting farther medially than endites II and III (
Fig. 13
d
).
Remarks.
The
holotype
is interpreted to be an adult female because of the presence of fairly large unextruded eggs. However, genitalia were not observed, so it could be an A-
1 female
.
Paratype
USNM 1021376 was not dissected in order not to fragment the ornamentation of the carapace. It is slightly smaller than the
holotype
, and no unextruded eggs were visible when the body was viewed through the valve, but the valve somewhat obscured the body. The furca has the same number of the claws as the
holotype
, and the endopod of the second antenna is similar to that of the
holotype
. The specimen is assumed to be an adult female, but it could be an A-
1 female
.
Comparisons.
The ornamentation of the carapace of
D. (H.) palmeri
differs from that of
D. (H.) exuma
and
D. (H.) orghidani
in having spines at most intersections of reticulate walls and, in general, being more spinous. The carapace of
D. (H.) palmeri
differs from that of
D. (H.) bahamensis
and
D. (H.) styx
in having a posterodorsal elongate process on each valve. The seventh segment of the first antenna of
D. (H.) palmeri
is without the a-bristle, which is present on
D. (H.) kakuki
,
D. (H.) styx
,
D. (H.) wilkensi
,
and
D. (H.) bahamensis
.
The first endopod segment of the mandible of
D. (H.) palmeri
is without a dorsal bristle, which is present on
D. (H.) bahamensis
,
D. (H.) orghidani
,
and
D. (H.) kakuki
.
The furca of
D. (H.) palmeri
differs from that of
D. (H.) elizabethae
in having two articulated claws rather than one on each lamella.