Small-scale variability in the dispersion of the sea urchin Heliocidaris erythrogramma among boulders

Smoothey, Amy F.; Chapman, M. G.

doi:10.3354/meps340089

Cited by 21 publications

(25 citation statements)

References 50 publications

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“…For example, in the first approach, recruit abundances are correlated with habitat characteristics (e.g., urchin recruits were correlated with characteristics of intertidal boulders; Smoothey and Chapman 2007), while in the second, settlers are provided with a choice of different habitat types in a controlled experiment (Botero and Atema 1982). Commonly, individuals are monitored through time following settlement to relate subsequent performance to habitat selection.…”

Section: Introductionmentioning

confidence: 99%

Habitat selection, facilitation, and biotic settlement cues affect distribution and performance of coral recruits in French Polynesia

2010

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Habitat selection can determine the distribution and performance of individuals if the precision with which sites are chosen corresponds with exposure to risks or resources. Contrastingly, facilitation can allow persistence of individuals arriving by chance and potentially maladapted to local abiotic conditions. For marine organisms, selection of a permanent attachment site at the end of their larval stage or the presence of a facilitator can be a critical determinant of recruitment success. In coral reef ecosystems, it is well known that settling planula larvae of reef-building corals use coarse environmental cues (i.e., light) for habitat selection. Although laboratory studies suggest that larvae can also use precise biotic cues produced by crustose coralline algae (CCA) to select attachment sites, the ecological consequences of biotic cues for corals are poorly understood in situ. In a field experiment exploring the relative importance of biotic cues and variability in habitat quality to recruitment of hard corals, pocilloporid and acroporid corals recruited more frequently to one species of CCA, Titanoderma prototypum, and significantly less so to other species of CCA; these results are consistent with laboratory assays from other studies. The provision of the biotic cue accurately predicted coral recruitment rates across habitats of varying quality. At the scale of CCA, corals attached to the “preferred” CCA experienced increased survivorship while recruits attached elsewhere had lower colony growth and survivorship. For reef-building corals, the behavioral selection of habitat using chemical cues both reduces the risk of incidental mortality and indicates the presence of a facilitator.

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Section: Introductionmentioning

confidence: 99%

Habitat selection, facilitation, and biotic settlement cues affect distribution and performance of coral recruits in French Polynesia

2010

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“…A second conclusion is that some life‐history trait of H. bajulus other than the evolution of large egg size and potentially high risk or cost of polyspermy (which it shares in common with H. erythrogramma and their common ancestor) must account for the significantly lower rate of nonsynonymous bindin nucleotide substitution that evolved secondarily in H. bajulus . That specific life‐history difference is not known, but a plausible candidate difference is the very high spatial density of adult H. erythrogramma (Wright et al 2005; Smoothey and Chapman 2007) relative to both H. bajulus and H . tuberculata (Cole et al 1992), leading to sperm competition and sexual conflict (Denny and Shibata 1989; Levitan and Young 1995; Lauzon‐Guay and Scheibling 2007), and relatively high rates of nonsynonymous bindin substitutions at a few sites in H .…”

Section: Discussionmentioning

confidence: 99%

“…Heliocidaris bajulus (Dartnall 1972) is endemic to the eastern shores of Tasmania, where its total known geographic range is <500 km (Dartnall 1972; Rowe and Gates 1995). There are no quantitative analyses of H. bajulus distribution and abundance, but qualitative surveys by one of us (R. Emlet) at several intertidal sites suggest that adults live under rocks at relatively low densities (<1 m −2 ) similar to H. tuberculata (Cole et al 1992), but much lower than adult H. erythrogramma densities (about 10 m −2 , up to 100 m −2 in dense feeding aggregations; Wright et al 2005; Smoothey and Chapman 2007). Males are broadcast spawners with typical‐sized testes like other Heliocidaris species.…”

Section: Methodsmentioning

confidence: 99%

Low Rates of Bindin Codon Evolution in Lecithotrophic Heliocidaris Sea Urchins

2012

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“…Smoothey and Chapman (2007) showed that, like these Ischnochiton species, this urchin is aggregated on certain boulders and there appears to be some effect of conspecifics contributing to this pattern. The urchin Heliocidaris erythrogramma also inhabits boulder fields in NSW.…”

Section: Genetics Of Groups Of Ischnochiton Under Bouldersmentioning

confidence: 94%

Spatial and genetic investigation of aggregation inIschnochiton(Polyplacophora; Neoloricata; Ischnochitonina; Ischnochitonidae; Ischnochitoninae) species with different larval development

Palmer

2011

Austral Ecology

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Many species are aggregated at some spatial scale but for some species, due to habitat or behaviour, aggregation can be difficult to assess quantitatively. Here, aggregation of chiton species (Polyplacophora; Neoloricata; Ischnochitonina; Ischnochitonidae; Ischnochitoninae; Ischnochiton) living under boulders in intertidal boulder fields was investigated at several relatively small spatial scales. Closely related species were found to be aggregated at the level of individual boulders, but evidence for grouping at the larger scale of patches of boulders varied.When organisms are mobile, dispersal can have an important influence on spatial patterns. Some organisms, such as marine invertebrates, have a highly dispersive larval phase that can influence spatial patterns of adults, particularly where the adult is sessile or relatively sedentary. Aggregation was compared in two species to test whether different modes of larval development influence spatial pattern.There was some evidence that species with a planktonic larva were even more aggregated than expected, in contrast to predictions based on this mode of development. Both types of larval development (planktonic and non-planktonic) produce larvae with short development times in these species, so one possible explanation for the grouping habit of these chitons is that they do not disperse, at all, from their natal boulder. The complexity of the boulder field habitat and the cryptic behaviour of these chitons may also contribute to a lack of dispersal. A simple application of a genetic method indicated, however, that philopatry at this scale is unlikely.

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Small-scale variability in the dispersion of the sea urchin Heliocidaris erythrogramma among boulders

Cited by 21 publications

References 50 publications

Habitat selection, facilitation, and biotic settlement cues affect distribution and performance of coral recruits in French Polynesia

Habitat selection, facilitation, and biotic settlement cues affect distribution and performance of coral recruits in French Polynesia

Low Rates of Bindin Codon Evolution in Lecithotrophic Heliocidaris Sea Urchins

Spatial and genetic investigation of aggregation inIschnochiton(Polyplacophora; Neoloricata; Ischnochitonina; Ischnochitonidae; Ischnochitoninae) species with different larval development

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