Acrossota amboinensis ( Burchardt, 1902 ) Burchardt, 1902
publication ID |
https://doi.org/ 10.5281/zenodo.200377 |
DOI |
https://doi.org/10.5281/zenodo.6249863 |
persistent identifier |
https://treatment.plazi.org/id/03F48A48-FF92-5D40-FF2D-FF72D98835E3 |
treatment provided by |
Plazi |
scientific name |
Acrossota amboinensis ( Burchardt, 1902 ) |
status |
comb. nov. |
Acrossota amboinensis ( Burchardt, 1902) View in CoL n. comb. ( Figs 1–4 View FIGURE 1 View FIGURE 2 View FIGURE 3 View FIGURE 4 , 8 View FIGURE 8 )
Clavularia amboinensis Burchardt, 1902: 657 –658, pl. 56, fig. 1; Kuekenthal 1906: 11 (in a list of species proposed to be transferred to Anthelia View in CoL ); Molander 1921: 3 –5 (included in a list of, and key to, species of Anthelia View in CoL ); Thomson & Dean 1931: 20 (comments that it is a species of Anthelia View in CoL ); Utinomi 1951: 195 (comments that it is a species of Anthelia View in CoL ).
? Acrossota liposclera Bourne, 1914: 261 View in CoL –272, pl. 22; Thomson & Dean 1931: 20 (comments that it is the same as Clavularia amboinensis ); Utinomi 1951: 195 (agreeing with Thomson & Dean).
Unidentified Stoloniferan Number Two: Sprung & Delbeek 1997: 173–174; Sprung 1999: 150.
Material examined: Holotype: Musée Zoologique, Strasbourg, #158, Ambon, Indonesia.
Other material: NTM C13618, Indonesia, May 1997, purchased from a dealer by Julian Sprung; NTM C13626, same data except October, 1999; NTM C15379, Indonesia, September 2002, purchased from a dealer by Daniel Knop; NTM C15380, same data except November 2002; NTM C15381, Kapikan, Semporna Islands, 04°38.843' N, 118°49.813' E, depth 10–20 m, F. Dipper, 28 March 2000; NTM C15506, Indonesia, August 2003, purchased from a dealer by Daniel Knop.
Description: Holotype. The colony described by Burchardt is shown in Figures 1–2 View FIGURE 1 View FIGURE 2 . Virtually all of the polyps are on one valve of an oyster, situated on one side of the base of a syntype colony of Nephthea amboinensis . There is also much sponge and some bryozoan material on the shell. The two clusters of polyps that Burchardt thought were two colonies are joined by a few flat stolons that pass under a clump of sponge and the folded edge of the Nephthea colony. Very little of the network of stolons is visible without prising away the overgrowing sponge. The few main strands that are visible are about 0.8 mm wide, and these may be crosslinked by short, much narrower, strands. Wider portions, where the stolons are expanded into wider mats, can be uncovered, but their extent is unknown. Burchardt said that “Eine Hornscheide” was missing, but the stolons and the polyps are covered with a thin cuticle. It is not easy to detect on the polyps, but on some broken ones it can be seen to be peeling off as a very thin transparent sheet.
The polyps in the small cluster ( Fig. 2 View FIGURE 2 B) are mostly 2.5–5.0 mm tall, wider at the oral end, and mostly c. 0.9–1.6 mm in diameter. Those in the larger cluster ( Fig. 2 View FIGURE 2 A) that are not surrounded by sponge are longer, at least up to 9 mm. Polyps that are growing through the sponge can be even longer; one measured 14.25 mm long and 1.37 mm diameter at the oral end. The protective cuticle on the lower part of these polyps where they pass though the sponge is much thicker than elsewhere and easily seen. It is yellowish brown against the yellowish white of the upper part of the polyps.
The polyps are moderately translucent and the mesenterial insertions can be seen through the walls of many of them. Quite a number of polyps have the distal ends missing, perhaps as a consequence of Burchardt’s research. Of those that remain, all but a few have no tentacles visible. Burchardt’s account indicates that some polyps had the tentacles fully unfolded when he examined the specimen, but in the material now, where tentacles are visible, they protrude only by very small amounts ( Fig. 1 View FIGURE 1 B); there are no signs of pinnules. Through the body wall of many polyps, the withdrawn tentacles appear as an opaque cylinder or a cluster of opaque fingers in the distal part of the body ( Fig. 1 View FIGURE 1 B). Dissection confirmed Burchardt’s observation that the tentacles withdraw by invagination. They protrude into the gastric cavity of the polyp between the pharynx and the body wall.
There are no sclerites in any part of the colony.
NTM C13618. The specimen is shown in Figure 3 View FIGURE 3 . It consists of a dense cluster of polyps attached to a piece of coral rock. Narrow colonial stolons can be seen at the margins of the polyp cluster. They are flattened, c. 0.3–0.9 mm wide, and anastomose with, or cross, other stolons. The stolons disappear beneath the dense mass of polyps, where they may join to form broad membranous expansions. The fact that some stolons cross other stolons without anastomosing may indicate that there is more than one colony here. Stolons and polyp bodies are covered by a thin cuticle.
The polyps are greyish yellow; a couple with the tips of the tentacles exposed are mostly opaque. Some are more inflated and the mesenterial insertions and withdrawn tentacles can be seen within. These tentacles lie outside the pharynx and are invaginated. Polyp sizes vary from juveniles, 0.9 mm tall and 1.4 mm in diameter, to the largest c. 7.5 mm tall and 2.4 mm in diameter.
There are a number of tubular, sinuous, stolonic outgrowths that rise free from the substratum, and have a very wrinkled cuticle. The outgrowths appear to be the vegetative parts of the colony that were involved in increasing colony size. They are up to 9 mm in length and they end in a polyp of reduced dimensions. Several similarlooking structures occur on the type specimen of Clavularia amboinensis — up to c. 7 mm long — but they stand erect and may not be analogous.
Several polyps had had the head and tentacles removed while the colony was still alive and expanded. They are up to 4.4 mm long and 0.2–0.3 mm broad. A polyp head and closeup of the tentacles are shown in Figure 3 View FIGURE 3 B–C. A living colony is shown in Figure 8 View FIGURE 8 B.
NTM C13626. The lot consists of three parts — a cluster of polyps on a small fragment of coral rock, a large number of polyps on a larger piece of coral rock ( Fig. 4 View FIGURE 4 A), and an unattached section of stolons and polyps ( Fig. 4 View FIGURE 4 B).
Many of the polyps in the unattached specimen have the smooth, highly contracted tentacles everted and there are several vegetative stolonal outgrowths ( Fig. 4 View FIGURE 4 B, arrowed), some of which have small swellings where autozooid polyps were developing. Stolons and polyp bodies have a thin covering of cuticle.
There are no stolons on the larger piece of coral rock, and all of the polyps arise from a broad basal membrane. The polyps are quite long, up to c. 10 mm long and 1.1–1.8 mm in diameter, and many have c. 1.5 mm of everted tentacles exposed. There is a cuticle covering the membrane and the polyp bodies, particularly noticeable on the transversely wrinkled proximal third of each polyp.
The third rock fragment has slightly more than 20 polyps on it that arise from a spreading membranous base. Many of the polyps have smooth tentacles protruding from the oral end.
The dissected polyp shown in Figure 4 View FIGURE 4 C, taken from the large rock, reveals the contortions involved in the process of retraction. Whole, or portions of, invaginated tentacles are free in the gastric cavity. They lie mostly alongside the pharynx, which has been pulled down by the muscles in those parts of the mesenteries proximal to it. The cylindrical region distal to the pharynx and the invaginated tentacles is that part of the body wall, now turned inside out, that was previously outside of and adjacent to the pharynx in the expanded polyp. This region is attached to the pharynx by mesenteries that must undergo considerable stretching during the invagination process. Some of these mesenteries, torn during the dissection, are labelled at the right of the figure. Those parts of the mesenteries remaining attached to the invaginated body wall pass down between the invaginated tentacles, along the length of the pharynx and down to the base of the colony. When the invaginated, upper body wall cylinder was opened, portions of three tentacles that had not completely invaginated were lying longitudinally within. At the proximal end of the cylinder, the peristome lay like a domed membrane across the top of the pharynx. If the invaginated parts of the tentacles are magnified they can be seen to be covered in a thick layer of zooxanthellae — presumably that which was previously inside the expanded tentacle prior to polyp retraction. The oral aspect of a polyp with the tentacles preserved in the process of invagination or evagination is shown in Figure 3 View FIGURE 3 D. Clefts can be seen in the tip of each tentacle stub.
NTM C15379. This lot consists of two small clumps of fine gravel held together by a gelatinous substance. These support few polyps but many vegetative stolonic outgrowths with very little internal structure visible. The samples are portions of a colony initially obtained from a dealer in aquarium animals. The colony had been kept in an aquarium for some time, and its morphology is likely to have been affected by this.
NTM C15380. This lot consists of two small fragments of coral and coralline algae. There are 13 polyps on the largest fragment, and only one on the smallest piece. The largest piece has a number of anastomosed, narrow, flattened stolons supporting the polyps. Smooth tentacles protrude from a number of the polyps and can be seen within the gastric cavities of others. Polyps and stolons are of the same size range as the specimens described above. The live parent colony is shown in Figure 8 View FIGURE 8 A. The tentacles are clearly of a simple, pinnuleless construction. This material was also from a colony obtained from a marine animal dealer, but it had spent very little time in captivity.
NTM C15381. This specimen consists of a piece of thin coral rock, about 47 x 43 mm in size, supporting a large number of polyps almost all of which have the tentacles withdrawn. Unusually, this specimen has polyps typical of both Acrossota amboinensis and the new taxon described below. The retracted polyps of the two different species look more or less identical, but those polyps with portions of the tentacles visible reveal that there are two forms present. Upon cursory examination it can appear that the two different forms are actually united on the same basal stolons, but careful tracing of the intermixed stolons proves this is not the case.
NTM C15506. There are over 40 polyps making up this specimen, all closely arising from a more or less complete basal membrane encrusting a neartriangular coralline tile about 2 cm 2 in area. Most polyps are about 4 mm tall and 2.3 in diameter, one has the tentacles extended, and one is inflated to a height of 7 mm and a width of 3 mm. The cuticle covering the polyps and membrane is quite conspicuous in many places owing to its dark greenishbrown colouring, which result from a fine covering of marine turf.
Remarks: The main morphological characteristics used to distinguish between species within similar stolonate genera are sclerite position, arrangement, and architecture, and the number of pinnules on the tentacles. The fact there are no sclerites or pinnules in Acrossota presents an interesting challenge to the taxonomist. The material described above, extra to the holotype, serves to confirm the validity of the existence of a pinnuleless genus of soft coral, but we are unable to establish with certainty whether they are conspecific with each other or whether they represent the same species as A. amboinensis .
An identical situation pertains to Acrossota liposclera . The polyps of Bourne’s specimen are described as being about 5 mm tall and 1.75–2.00 mm in diameter, connected by flat stolons, and all covered in a thin cuticle. The tentacles are invaginable and without pinnules, and there are no sclerites ( liposclera ). “From place to place a branch of the main stolon or a stolonar outgrowth of one of the zooids projects for some distance from the support as a long, free, thinwalled tube, near the end of which a zooid is developed ...” ( Bourne 1914: 263). “(2) The portion of the body of the zooid immediately below the tentacles. This portion is invaginated in retracted specimens ...” (ibid.: 267). Bourne’s specimen from the D’Entrecasteaux Islands of the eastern end of Papua New Guinea, could possibly be the same species as all or any of the above specimens.
NTM |
Northern Territory Museum of Arts and Sciences |
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
Kingdom |
|
Phylum |
|
Class |
|
Order |
|
Family |
|
Genus |
Acrossota amboinensis ( Burchardt, 1902 )
Alderslade, Philip & S, Catherine 2007 |
Acrossota liposclera
Utinomi 1951: 195 |
Thomson 1931: 20 |
Bourne 1914: 261 |
Clavularia amboinensis
Utinomi 1951: 195 |
Thomson 1931: 20 |
Molander 1921: 3 |
Kuekenthal 1906: 11 |
Burchardt 1902: 657 |