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Chemical aspects of mass spawning in corals. I. Sperm-attractant molecules in the eggs of the scleractinian coral Montipora digitata (1994)

Coll, J. C. ; Bowden, B. F. ; Meehan, G. V. ; [et al.]

Springer

Marine biology 118 (1994), S. 177-182

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract This paper provides the first evidence for sperm chemotaxis in the Scleractinia. Montipora digitata Dana, 1845 (Scleractinia: Coelenterata) is a hermaphroditic coral which reproduces bi-annually, releasing egg-sperm bundles during the mass spawning at Magnetic Island (19°10′S; 146°52′E) in late spring-early summer, and autumn each year. The buoyant egg-sperm bundles float to the surface where they break apart, releasing eggs and sperm into the ocean. Fertilisation occurs after ∼30 min. Unfertilized eggs were collected, washed free of sperm, and freeze-dried. The eggs were extracted with dichloromethane, fractionated by chromatography on silica gel, and the fractions assayed for their ability to attract M. digitata sperm. The active fraction was further fractionated by high-performance liquid chromatography, resulting in the isolation of three highly unsaturated fatty alcohols: (1) dodeca-2,4-diynol; (2) tetradec-13-ene-2,4-diynol; (3) (14Z)-heptadeca-14,16-diene-2,4-diynol. Of these three compounds, only Compound 1 attracted sperm of M. digitata. Synthetic Compound 1, produced from simple precursors by known reactions, possessed sperm-attracting activity comparable to the naturally derived attractant. Preliminary experiments suggest that the natural mixture of Compounds 1, 2 and 3 in the ratio 1:4:9 is more effective in attracting sperm from M. digitata than sperm from other Montipora species. Sperm attractants may act to reduce the incidence of hybridisation between different species of Montipora.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00349783

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Effects of diterpenes derived from the soft coral Sinularia flexibilis on the eggs, sperm and embryos of the scleractinian corals Montipora digitata and Acropora tenuis (1995)

Aceret, T. L. ; Sammarco, P. W. ; Coll, J. C.

Springer

Marine biology 122 (1995), S. 317-323

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Sinularia flexibilis Quoy and Gaimard, 1833 is a dominant soft coral on many Indo-Pacific coral reefs, and has been found to release toxic compounds (diterpenes), which cause tissue necrosis and death in nearby scleractinian corals. This study investigates how S. flexibilis-derived diterpenes inhibit the development of Acropora tenuis Dana, 1846 and Montipora digitata Dana, 1846 eggs and larvae in vitro. Collection and experimental sites at Magnetic (146°49'E; 19°8'S) and Orpheus (146°28'E; 18°32'S) Islands, Queensland, Australia, were utilized during the spawning seasons of 1989–1992. Freshly spawned coral eggs were placed in solutions of three different terpenes, flexibilide, dihydroflexibilide and sinulariolide, at 5 and 10 ppm, before, during, and after fertilisation. The majority of eggs which were fertilised in the presence of the diterpenes lost their cellular integrity and burst just a few hours after treatment. Terpenes were not toxic to unfertilised eggs, nor to 24 h-old embryos, although sperm ceased swimming activity after 1 h of treatment. The terpenes were not fatal to the sperm because fertilisation still occurred in their presence. The ability of the soft coral-derived diterpenes to inhibit cell division suggests that they may have potential applications in cancer chemotherapy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00348945

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Chemical consequences of relocation of the soft coral Lobophytum compactum and its placement in contact with the red alga Plocamium hamatum (1995)

Leone, P. A. ; Bowden, B. F. ; Carroll, A. R. ; [et al.]

Springer

Marine biology 122 (1995), S. 675-679

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Seven colonies of Lobophytum compactum Tixier-Durivault, 1956, which produce isolobophytolide as the major secondary metabolite, were selected from a fringing reef in the Pelorus Channel, Palm Island Group (18°34′S; 146°29′E), North Queensland, Australia. In September 1991, they were sectioned to afford two portions which were relocated to a grid, and a significant part of the parent colony which was left in place. The aim of the experiment was to determine the effect of relocation and contact with a toxic alga on the secondary metabolite content of a soft coral. A significant increase in the concentration of isolobophytolide was observed for all relocated colonies (n=14, p=0.001) compared to the non-relocated control colonies. This decreased after 2 mo, and was not significantly different from that of the non-relocated control colonies (n=14, p=0.881). After 1 mo, Plocamium hamatum J. Agardh plants were placed in direct contact with 50% of the relocated colonies. All soft-coral colonies in contact with the alga (n=7), showed tissue necrosis on the parts in direct contact with the alga after a further 2 wk. Tissues of the relocated control colonies (n=7), and those portions of treated colonies which were not in direct contact with the alga, were not affected. The parts of the colonies in contact with the alga showed a significant decrease in lipid content over time (n=7, p=0.001) and also a decrease in the concentration of the diterpene isolobophytolide (n=7, p=0.001). The effects of P. hamatum on the soft coral were essentially restricted to contract necrosis; chemical variations in the affected tissue were the outcomes of this necrosis. These results indicate that stress due to relocation is a more important factor in the variation of isolobophytolide levels in the soft coral L. compactum than is contact with the alga P. hamatum.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00350689

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Chemical aspects of mass spawning in corals. II. (-)-Epi-thunbergol, the sperm attractant in the eggs of the soft coral Lobophytum crassum (Cnidaria: Octocorallia) (1995)

Coll, J. C. ; Leone, P. A. ; Bowden, B. F. ; [et al.]

Springer

Marine biology 123 (1995), S. 137-143

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The eggs of Lobophytum crassum Von Marenzeller, 1886, collected at Magnetic Island (19°10′S; 146°52′E) in October or November between 1983 and 1993, contained significant amounts (6% dry weight) of (-)-epi-thunbergol, in addition to other terpenoid metabolites also present in the parent colony. (-)-Epi-thunbergol was not present in the tissues of the releasing colony. Using fluorocarbon droplets impregnated with the chemotactic molecules and a videomicroscopic technique for the direct observation of sperm under the influence of attractant molecules, we showed that (-)-epi-thunbergol, whether isolated from L. crassum or from a gorgonian octocoral (Briareum sp.), significantly attracts sperm from L. crassum colonies. Attraction could be detected using direct observation at concentrations as low as 3.25 μg ml-1. This is the first evidence for sperm chemotaxis in the Alcyonacea. Eggs from L compactum, a common alcyonacean coral at Orpheus Island (18°36′S; 146°29′E) contained (-)-thunbergol as the egg-specific compound. L. compactum was not found at Magnetic Island. (-)-Thunbergol from L. compactum and (+)-thunbergol from a Douglas fir tree both showed levels of attraction similar to (-)-epi-thunbergol against L. crassum sperm. Although L. crassum sperm were apparently neither stereo- nor enantio-specific in their selectivity for chemotactic molecules, (-)-epi-thunbergol was identified as the natural sperm attractant in the eggs of L. crassum.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00350332

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Transformation of soft coral (Coelenterata: Octocorallia) terpenes by Ovula ovum (Mollusca: Prosobranchia) (1983)

Coll, J. C. ; Tapiolas, D. M. ; Bowden, B. F. ; [et al.]

Springer

Marine biology 74 (1983), S. 35-40

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The faecal pellets from specimens of the prosobranch mollusc Ovula ovum found feeding on the soft coral Sarcophyton sp. at Eclipse Island, Palm Island Group (18°46′S; 146°33′E) in November 1980 were analysed. The only terpene present in the faeces, 7,8-deoxysarcophytoxide, differed from the major constituent of the soft coral, sarcophytoxide, suggesting that the latter had been transformed into the former within the cowrie. This transformation is not trivial, and could not be produced simply by acid catalysis. Subsequent analysis of tissues dissected from different regions of O. ovum indicates that the transformation is probably effected by enzymes in the digestive diverticula stomach region of the prosobranch. The transformed compound is significantly less toxic to the mosquito fish Gambusia affinis Baird and Girard than the ingested compound.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00394272

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Chemically mediated interactions between the red algaPlocamium hamatum (Rhodophyta) and the octocoralSinularia cruciata (Alcyonacea) (1991)

Nys, R. ; Coll, J. C. ; Price, I. R.

Springer

Marine biology 108 (1991), S. 315-320

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Interactions between the red algaPlocamium hamatum J. Agardh (Rhodophyta) and other benthic organisms including the alcyonacean soft coralSinularia cruciata (Tixier-Durivault) were investigated on an inshore fringing reef environment in whichP. hamatum was the dominant large fleshy alga. Field observations of sessile reef organisms including octocorals and sponges living in close proximity toP. hamatum revealed that varying degrees of tissue necrosis were suffered by the invertebrates when in physical contact with the alga. In order to establish whether the chemical constituents of the alga, especially chloromertensene, played a role in this necrosis, manipulative field experiments were carried out in the Pelorus Channel, Palm Island group (18°34′S; 146°29′E), North Queensland, Australia, in November and December 1988. The first experiment involved the relocation of healthy plants and soft corals into contact and non-contact situations on a mesh grid. In all cases of contact betweenP. hamatum andS. cruciata, the soft coral suffered tissue necrosis (n=6,p=0.0022). The second experiment had the same design, but involved the use of artificial “plants” both uncoated and coated with natural levels of chloromertensene, in contact withS. cruciata. In all cases of contact with coated treatments, necrosis was observed inS. cruciata (n=4,p=0.025). In cases where uncoated artificial fronds were placed in contact with soft corals,S. cruciata showed minor abrasion effects, but no appreciable necrosis. Coated treatments were not fouled by epiphytes during the experiment and were not consumed by predators. Uncoated treatments were rapidly reduced in size by predation and any remaining material was biofouled. These experiments thus demonstrated that the deleterious effects observed in soft corals in the field were caused by contact with the algaP. hamatum, that these effects were indeed chemically mediated by chloromertensene, and that physical contact without chemical intervention caused no such deleterious effects. This is the first experimental evidence which conclusively demonstrates allelopathy between an alga and other marine organisms and identifies the compound responsible for the observed allelopathic effects.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01344346

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Movement in soft corals: An interaction between Nephthea brassica (Coelenterata: Octocorallia) and Acropora hyacinthus (Coelenterata: Scleractinia) (1982)

Barre, S. ; Coll, J. C.

Springer

Marine biology 72 (1982), S. 119-124

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract An interaction between the alcyonarian octocoral Nephthea brassica Kukenthal, 1904 and the scleractinian Acropora hyacinthus Dana was photographed and the assemblage collected at Rib Reef (18°15′S; 146°45′E), Central Region of the Great Barrier Reef, in September 1980. The interaction, which did not involve allelopathy, was characterised by extensive deposition of undifferentiated aragonite by the scleractinian in the vicinity of the soft coral, which moved across the surface of the acroporid. The basal attachment region of the nephtheid showed structural features which permitted movement. The net effect of this interaction was a series of divided trails across the surface of the acroporid plate evidencing the movement through growth and asexual division of the parent colony. These trails were susceptible to secondary colonisation by epifauna and algae which may reduce the fitness of the acroporid. This movement appears to afford N. brassica a distinct advantage in competing for space with acroporid corals.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00396912

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Competitive strategies of soft corals (Coelenterata: Octocorallia): Allelopathic effects on selected scleractinian corals (1983)

Sammarco, P. W. ; Coll, J. C. ; Barre, S. ; [et al.]

Springer

Coral reefs 1 (1983), S. 173-178

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ISSN: 1432-0975

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Geosciences

Notes: Summary A striking retardation of grwoth was observed in the scleractinian coralPavona cactus (Coelenterata: Scleractinia) growing in the vicinity of the soft coralSinularia flexibilis (Coelenterata: Alcyonacea). More extensive field observations of naturally occurring interactions between soft corals and scleractinian corals suggested that members of the former group can be the more effective competitors for space on hard substrate. To test this hypothesis, colonies of three soft corals,Lobophytum pauciflorum, Sinularia pavida, andXenia sp. aff.danae, were relocated next to stands of two hard corals,Pavona cactus andPorites andrewsi (=Porites cylindrica), and compared with undisturbed control areas. In areas where soft corals and scleractinian corals were in direct contact, significantly high levels of local mortality in the latter occurred in three of the six interaction pairs. One soft coral,L. pauciflorum, also caused extensive and significant mortality inPorites andrewsi in a non-contact situation. The scleractinian corals had no effect on the soft corals considered here. These results indicate that soft corals can effectively compete for space against hard corals. Furthermore, it is inferred that toxic exudates from the soft coral might be responsible for causing localized mortality in hard corals, since extensive mortality occurred in certain cases in the absence of contact. Competitive abilities of soft corals in interactions with hard corals varied in a species-specific manner. Susceptibility of hard corals to competitive mechanisms utilized by soft corals, particularly allelopathic ones, likewise varied species-specifically. It is commonly believed that the adaptive value of toxic compounds in soft corals stems from their effectiveness as a chemical defence mechanism in predator-prey interactions. This study has demonstrated their further role as allelopathic agents in interspecific competitive interactions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00571194

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Algal overgrowth of alcyonacean soft corals (1987)

Coll, J. C. ; Price, I. R. ; König, G. M. ; [et al.]

Springer

Marine biology 96 (1987), S. 129-135

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Colonies of the soft coral Lobophytum pauciflorum (Ehrenberg, 1834) (Coelenterata: Octocorallia: Alcyonacea: Alcyoniidae), some of which were heavily overgrown by the algae Ceranium flaccidum (Kuetzing) Ardissone and Enteromorpha sp., and other minor epizoites, were collected at Taylor Reef (17°50′S; 146°35′E) in the Great Barrier Reef. Overgrown colonies contained the diterpene 2-epi-sarcophytoxide as the major secondary metabolite, while conspecific colonies with clean polyparies contained two diterpenes in approximately equal amounts: 14-hydroxycembra-1,3,7,11-tetraene and 15-hydroxycembra-1,3,7,11-tetraene. By contrast, twenty conspecific pairs of overgrown and clean colonies of other alcyoniid soft corals collected from Pelorus Channel, Palm Island Group (18°34′S; 146°29′E), showed no chemical differences within in the pairs. Cultures of a common species of Ceramium [C. codii (Richards) Mazoyer] were incubated with different concentrations of nine soft-coral-derived diterpenes and significant algal growth inhibition was observed in many cases. It appears that terpenoids from soft coral may contribute to the lack of epizoic organisms on soft-coral polyparies.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00394846

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Defensive strategies of soft corals (Coelenterata: Octocorallia) of the Great Barrier Reef (1987)

Sammarco, P. W. ; Barre, S. ; Coll, J. C.

Springer

Oecologia 74 (1987), S. 93-101

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ISSN: 1432-1939

Keywords: Toxicity ; Morphology ; Defense strategy ; Octocorallia ; Soft corals

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The relationship between ichthyotoxicity and predation-related defensive functional morphology was examined in alcyonacean soft corals of the central and northern regions of the Great Barrier Reef (GBR), Australia. Approximately 170 specimens were assessed encompassing a number of genera within three families: 1) the Alcyoniidae (Lobophytum, Sarcophytum, Sinularia, Cladiella, Parerythropodium, and Alcyonium); 2) Neptheidae (Lemnalia, Paralemnalia, Capnella, Lithophyton, Nephthea, Dendronephthya, Scleronephthya, and Stereonephthya), and 3) Xeniidae (Anthelia, Efflatounaria, Cespitularia, Heteroxenia, and Xenia). Ichthyotoxicity data were derived from earlier studies which used Gambusia affinis Baird and Girard (Vertebrata, Pisces) as a test organism. These data were compared to morphological data collected from specimens in the field and laboratory. Three sets of statistical analyses were performed, each considering a progressively narrower group of taxa. The first included 68 specimens and considered 16 morphological characters in each, falling into the general categories of gross colony form, colony texture, presence of mucus, colony color, polyp retractility, and sclerite morphology and distribution. These were tested for independence against ichthyotoxicity data. The second set of analyses involved a more restricted morphological data set derived from 28 species of Sinularia in combination with 28 species within the Nephtheidae, comparing them to their respective toxicity ranks. The third analysis considered the previous two taxonomic groups separately in relation to their toxicity levels. The attempt to consider many morphological characters in a taxonomically diverse collection did not reveal any general association in the Alcyonacea between defensive morphology and toxicity, and those associations which did emerge were clearly erroneous. The second analysis, considering only Sinularia spp. and nephtheids, demonstrated a negative association between ichthyotoxicity and the morphological characters of a) polypary armament, b) microarmament of the individual polyp, and c) strong mineralization of the coenenchyme. The third analysis revealed that the negative association found between toxicity and the first two characters was derived entirely from the nephtheids while the association detected between toxicity and the third character was restricted to Sinularia. It is concluded that a relationship between toxicity and morphology can be demonstrated, but it is heavily dependent upon which specific morphological characters are being considered and at what level of taxonomic resolution the analysis is being performed. An approach utilizing many characters over many taxa is unlikely to yield significant, reliable, or meaningful results.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00377351

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