The Acanthaster phenomenon /

Moran, Peter

doi:10.5962/bhl.title.60630

Cited by 168 publications

(213 citation statements)

References 69 publications

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“…Asteroids are commonly found at high densities and can have a great impact on their environment (Paine 1969, Sloan 1980. For example, the large asteroid Acanthaster planci is often found in dense aggregations and can increase in density to populations of sufficient magnitude to earn the appellation 'outbreaks' (see Potts 1981, Moran 1986 for reviews). The devastating effect this species can, and does, have on coral communities throughout the tropical Indo-Pacific region has resulted in a continuing controversy concerning the processes that regulate the abundance of A. planci (see Potts 1981, Moran 1986.…”

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confidence: 99%

Contrasting ecological implications of food limitation in sea urchins and herbivorous gastropods

Andrew¹

1989

Mar. Ecol. Prog. Ser.

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Populations of sea urchins often fluctuate greatly in density. The density of sea urchins is usually inversely correlated with the abundance of macrolagae. It is argued that fluctuations in density are a predictable consequence of the unique morphology and physiology of sea urchins. An extraordinary ability to accomodate food Limitation through variations in growth rate means that surv~vorship and food abundance are largely decoupled. These features of sea urchins differ from those of the herbivorous gastropods. The ecological implications of these differences are discussed. A different perspective is required for the interpretation of the population dynamics of sea urchins.

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confidence: 99%

Contrasting ecological implications of food limitation in sea urchins and herbivorous gastropods

Andrew¹

1989

Mar. Ecol. Prog. Ser.

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“…It is well documented that oil and gas platforms function well as artificial reefs by providing habitat for a variety of species that are otherwise associated only with coral reefs, since many of these species are habitat-limited (Moran, 1986;Parrish, 1987;Sale, 1991). This is further emphasized by the fact that over 70% of all recreational angler trips in the Exclusive Economic Zone in Louisiana are destined for one or more of these structures (Reggio, 1987).…”

Section: Platforms As Reef Habitatmentioning

confidence: 98%

Use of Oil and Gas Platforms as Habitat in Louisiana's Artificial Reef Program

Kasprzak

1998

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“…Nevertheless, the pedicellariae of A. planci may still have a limited protective role against small predators. Several species have been observed to feed on juvenile and adult A. planci, including the giant triton shell Charonia tritonis, the white-spotted pufferfish Arothron hispidus, 2 species of triggerfish Balistoides viridescens and Pseudobalistes flavimarginatus, 2 species of shrimp Hymenocera picta and Neaxius glyptocerus and the fire worm Pherecardia striata (reviewed by Moran 1986). Some predators may be smaller than A. planci and be able to move between the venomous spines without being affected by them.…”

Section: Discussionmentioning

confidence: 99%

Pedicellariae of the crown-of-thorns sea star Acanthaster planci are not an effective defence against fouling

Guenther¹,

Heimann²,

Nys³

2007

Mar. Ecol. Prog. Ser.

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This study focused on the speculative role of the pedicellariae of the sea star Acanthaster planci in fouling control, because quantitative measurements showed that this species is free of any macro-fouling organisms. The morphology and distribution of its pedicellariae were measured to determine if larvae or propagules of fouling organisms could settle between pedicellariae without being in their physical range. The elementary and straight pedicellariae of A. planci had a mean length of 0.7 mm and were spaced at a mean distance of 2.6 mm. The total number of pedicellariae was proportional to the estimated surface area of A. planci. To determine how pedicellariae respond to tactile stimulation, pedicellariae were stimulated by touching either inner, outer or basal sites of pedicellariae with a hypodermic needle. Pedicellariae closed rapidly on touch and closed for significantly longer when touched on their inner sites (8.9 s) than outer (6.7 s) and basal (7.9 s) sites. Settling larvae were simulated by dropping silica beads (size: 50.2, 181.5, 255.7 and 510.7 µm; density: 2.5 g ml -1) and zirconium/silica beads (size: 191.2 and 507.6 µm; density: 3.7 g ml -1) over the pedicellariae. The percentage of responding pedicellariae increased proportionally with increasing size of the silica beads. The percentage also increased when zirconium/silica beads of similar size but higher density were used, demonstrating that the mass, not size, of the beads was the main driving factor for the closure of pedicellariae. Pedicellariae were also stimulated by placing larvae of the bryozoan Bugula neritina (250 µm) and fragments of the alga Chrysocystis fragilis (150 to 1000 µm) over the pedicellariae. However, the response of the pedicellariae to the larvae of B. neritina was consistently low and none of the pedicellariae responded to the fragments of C. fragilis. These results demonstrated that for A. planci, the pedicellariae offer little or no defence against fouling.

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The Acanthaster phenomenon /

Cited by 168 publications

References 69 publications

Contrasting ecological implications of food limitation in sea urchins and herbivorous gastropods

Contrasting ecological implications of food limitation in sea urchins and herbivorous gastropods

Use of Oil and Gas Platforms as Habitat in Louisiana's Artificial Reef Program

Pedicellariae of the crown-of-thorns sea star Acanthaster planci are not an effective defence against fouling

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