Are vertical distribution patterns of scleractinian corals maintained by pre- or post-settlement processes? A case study of three contrasting species

Mundy, CN; Babcock, Russell C.

doi:10.3354/meps198109

Cited by 65 publications

(44 citation statements)

References 26 publications

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“…Resale or republication not permitted without written consent of the publisher coral planulae are primitive larvae with limited mobility and no specialized organs (Harrison & Wallace 1990) has led to the assumption that their dispersal and survival is a predominantly passive, stochastic process (Scheltema 1986, Garrison 1999, Mundy & Babcock 2000. However, recent studies have shown that coral planulae move both actively and passively during dispersal and exhibit complex larval behavior during settlement (Babcock & Mundy 1996, Raimondi & Morse 2000, Stake & Sammarco 2003.…”

Section: Introductionmentioning

confidence: 99%

“…When considering larval behavior, one should be aware that life-history elements (i.e. growth, behavior and maintenance) are not independent, since energetic resources of invertebrate larvae are limited (Richmond 1987, Pechenik 1990, 1999, Hoegh-Guldberg & Emlet 1997, Bertram & Strathmann 1998, Pechenik et al 1998, Mundy & Babcock 2000. Differential allocation of resources among various life-history elements in response to variable environmental conditions provides the opportunity to optimize survival for an individual without means to replenish spent resources (Pechinek 1990).…”

Section: Introductionmentioning

confidence: 99%

“…Variations in salinity due to large-scale hydrodynamic processes or rainfall are likely to be a potential natural stressor during this life-phase, as members of the lower invertebrate groups, including the cnidarians, are not capable of osmoregulation (HoeghGuldberg & Smith 1989). Salinity affects the biology of many marine organisms (Lyster 1965, Mann et al 1991, Metaxas & Young 1998, Simpson & Hurlbert 1998, Garrison 1999 and most corals have a narrow salinity tolerance (Muthiga & Szmant 1987, Porter et al 1999, Mundy & Babcock 2000. Although salinity stress does occur, it is unlikely that it creates altered environmental conditions for prolonged periods of time, since hydrodynamic processes constantly mix large bodies of seawater.…”

Section: Introductionmentioning

confidence: 99%

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Pelagic conditions affect larval behavior, survival, and settlement patterns in the Caribbean coral Montastraea faveolata

Vermeij¹,

Fogarty²,

Miller³

2006

Mar. Ecol. Prog. Ser.

105

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Pelagic conditions affect larval behavior, survival, and settlement patterns in the Caribbean coral Montastraea faveolata

Vermeij¹,

Fogarty²,

Miller³

2006

Mar. Ecol. Prog. Ser.

105

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“…The location of adult conspecifics may be particularly important because larvae may choose to settle in areas where adults are abundant i.e. aggregative settlement (Mundy and Babcock 2000, Carlon 2002, Vermeij 2005.…”

Section: Introductionmentioning

confidence: 99%

Recruitment hotspots: consistent spatial patterns in the relative abundance of coral recruits at One Tree Island, Australia

Eagle¹,

Baird

Jones

et al. 2012

Galaxea, Journal of Coral Reef Studies

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On coral reefs, sites that receive consistently high levels of recruitment relevant to other sites ("re cruitment hotspots") may be crucial to the persistence of populations. However, few studies of coral recruitment have the necessary replication in space and time required to detect recruitment hotspots. The aim of this study was to detect recruitment hotspots at One Tree Reef (southern Great Barrier Reef) and to explore associations between hotspots, hydrodynamics, adult abundance and reef benthos. Recruitment hotspots were detected on the reef slope and in the lagoon. Almost all hotspots were located on the leeward side of the reef, however, there was little congruence among hotspots for different families of coral recruits. Recruitment hotspots in some taxa in some habitats were correlated with water flow or adult abun dance. A clear recruitment hotspot for two families (Pocilloporidae and Poritidae) in the lagoon had medium levels of water flow (-4 cm s −1 ), but there was no re lationship with water flow on the slope. In experimental aquaria, Acropora nasuta settlement was six to 10 times greater under low (2.1 cm s −1 ) compared to medium water flow (4.6 cm s −1 ). Abundance of pocilloporid and poritid, but not acroporid, recruits at each site was often correlated with adult cover indicating either aggregative settlement or limited dispersal. Recruitment hotspots are likely to be both sources and sinks for some taxa, and therefore identifying and protecting hotspots should be a high priority in marine reserve design.

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“…Mortality during the first few months after settlement is generally very high in benthic marine invertebrates, including corals (Gosselin and Qian 1997;Mundy and Babcock 2000;Wilson and Harrison 2005). To date, however, there is little information for Acropora corals regarding the stage in the life history during which a difference in mortality between shallowand deep-habitat species can be observed.…”

Section: Introductionmentioning

confidence: 99%

Role of post-settlement mortality in the establishment of Acropora reef slope zonation in Ishigaki Island, Japan

Suzuki

Hayashibara

Toyohara

2009

Galaxea, Journal of Coral Reef Studies

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The relative contributions of larval recruitment and post-settlement mortality to the establishment of the zonation of Acropora communities, a dominant group in reef corals, remain unknown. Our field research revealed that the relative abundances of juveniles between two morphological categories of acroporid corals were different on shallow and deep slopes: tabular species dominated in shallow waters (1.5-2.5 m), whereas arbo rescent species dominated in deep waters (5.5-11 m). These abundances were consistent with the distributional patterns of the adults, suggesting that the zonation structure is formed during the initial life stages of settlement and early postsettlement periods. To determine to what extent Acropora zonation is determined by depth-related differ ences in initial mortality among species, a transplant ex periment using artificially settled corals (10 days after settlement) of four dominant species (the shallow-domi nants Acropora digitifera and A. selago and the deep-dominants A. muricata and A. tenuis) was performed at four depths (1.5, 2.5, 5.5, and 11 m). Survivorship of all four species was lower at 5.5 m than the other depths and that the survival rate of A. muricata was much higher than that of other species at all depths. However, there was no speciesspecific survival related to adaptation to a par ticular habitat (i.e., depth), implying that Acropora spats do not possess species-specific tolerance for the envi ronmental stresses of their own particular habitat, at least during the first 6 months after settlement. Post-settlement survival rate during this period is therefore not a major factor in forming the vertical zonation pattern of these Acropora species in subtropical reefs around Japan.

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Are vertical distribution patterns of scleractinian corals maintained by pre- or post-settlement processes? A case study of three contrasting species

Cited by 65 publications

References 26 publications

Pelagic conditions affect larval behavior, survival, and settlement patterns in the Caribbean coral Montastraea faveolata

Pelagic conditions affect larval behavior, survival, and settlement patterns in the Caribbean coral Montastraea faveolata

Recruitment hotspots: consistent spatial patterns in the relative abundance of coral recruits at One Tree Island, Australia

Role of post-settlement mortality in the establishment of Acropora reef slope zonation in Ishigaki Island, Japan

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