Recruitment constraints in Singapore's fluted giant clam (Tridacna squamosa) population—A dispersal model approach

Neo, Mei Lin; Erftemeijer, P.L.A.; Beek, J.K.L. van; Maren, D.S. van; Teo, Serena L-M.; Todd, Peter A.

doi:10.1371/journal.pone.0058819

Cited by 32 publications

(21 citation statements)

References 62 publications

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“…Regional and global scale studies in other marine systems have been presented recently (Treml et al 2008, Kool et al 2011, Neo et al 2013, Paris et al 2013, Hellweger et al 2014, Simpson et al 2014, Wood et al 2014. Wood et al (2014), for example, used a Lagrangian global dispersal model (the Connectivity Modelling System; Paris et al 2013) for a generic broadcast spawning coral, and compared the outcome with connectivity estimates derived from available genetic studies (global potential connectivity matrix).…”

Section: Resultsmentioning

confidence: 99%

Modelling mangrove propagule dispersal trajectories using high‐resolution estimates of ocean surface winds and currents

Stocken

Menemenlis

2017

Biotropica

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Mangrove forests are systems that provide ecosystem services and rely on floating propagules of which the dispersal trajectories are determined by ocean currents and winds. Quantitating connectivity of mangrove patches is an important conservation concern. Current estimates of connectivity, however, fail to integrate the link between ocean currents at different spatial scales and dispersal trajectories. Here, we use high-resolution estimates of ocean currents and surface winds from meteorological and oceanographic analyses, in conjunction with experimental data on propagule traits (e.g., density, size, and shape) and dispersal vector properties (e.g., strength and direction of water and wind currents). We incorporate these data in a dispersal model to illustrate the potential effect of wind on dispersal trajectories of hydrochorous propagules from different mangrove species. We focus on the Western Indian Ocean, including the Mozambique Channel, which has received much attention because of its reported oceanic complexity, to illustrate the effect of oceanic features such as eddy currents and tides. In spite of the complex pattern of ocean surface currents and winds, some propagules are able to cross the Mozambique Channel. Eddy currents and tides may delay arrival at a suitable site. Experimentally demonstrated differences in wind sensitivity among propagule types were shown to affect the probability of departure and the shape of dispersal trajectories. The model could be used to reconstruct current fluxes of mangrove propagules that may help explain past and current distributions of mangrove forests and assess the potential for natural expansion of these forests.Abstract in Dutch is available with online material.

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Section: Resultsmentioning

confidence: 99%

Modelling mangrove propagule dispersal trajectories using high‐resolution estimates of ocean surface winds and currents

Stocken

Menemenlis

2017

Biotropica

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“…In this study, the low density of adult giant clams (i.e. relatively small abundances and sparsely distributed) around Okinawa‐jima Island could affect reproduction in two ways: (a) individuals are unlikely to reproduce if there are no mature clams to trigger the cascade of synchronous broadcast spawning; and (b) it lowers the probability of gametes meeting for fertilization (Neo et al, ). These populations likely experience component Allee effects, where the individual's reproductive success has a positive density‐dependence at low relative population density (Stephens & Sutherland, ).…”

Section: Resultsmentioning

confidence: 97%

Status of giant clam resources around Okinawa‐jima Island, Ryukyu Archipelago, Japan

Neo

Lim

Yang

et al. 2019

Aquatic Conservation

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1. Giant clams provide and support valuable functions to coral reefs, as well as represent a sustainable resource for traditional fisheries throughout the Indo-Pacific region. The Ryukyu Archipelago (southern Japan) is known to be the northern latitudinal limits of giant clam distribution, but there is only limited information in the literature regarding species diversity, status, and distribution in this region.2. In this study, we report findings from a rapid survey in 2016, the first of its kind for the Ryukyu Islands, to determine species distribution and abundance of giant clams (tridacnines) around Okinawa-jima Island. 3. Results indicate the presence of four species with an overall density of 5.03 per 100 m 2 , from most to least abundant: Tridacna crocea, Tridacna maxima, Tridacna squamosa, and Tridacna noae. The previously reported species Tridacna gigas and Hippopus hippopus were both absent from the surveys. The densities and distributions of tridacnines varied among species and sites, which are likely attributable to efforts in replenishing and protecting stocks of selected species. 4. The most abundant species, T. crocea, is an important fishery species in Okinawa, and has been widely cultured and restocked to augment depleted populations. In comparison, restocking efforts for less popular species, such as T. squamosa, have been limited, and their current sizes and numbers suggest recruitment constraints. 5. Given the importance of the giant clam fishery in this region and the current declines of various species (except T. crocea), further regulations should focus on the protection of larger and mature clams that function as broodstock necessary to maintain spawning and natural recruitment.

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“…Neo et al (2009) also observed reduced effects of CCA on settlement for older T. squamosa larvae and this probably reflects a change in settlement requirements (such as seeking protectionproviding habitats). Larval settlement behaviour (gregarious and/or associative) is usually incorporated into biophysical models to 'mimic' settlement (e.g., Bolle et al, 2009;Neo et al, 2013;Tay et al, 2012) to realistically direct larvae to appropriate habitats within time-limited dispersal (i.e., PLD). However, accurate knowledge regarding species-specific behaviour is often absent and hence assumptions are frequently drawn from other taxa.…”

Section: Settlement Competency Influences Habitat Selection and Recrumentioning

confidence: 99%

“…Field observations of larval dispersal are inherently difficult, hence biophysical models (in either two or three dimensions) are increasingly being used to visualise and quantify larval transport and population connectivity (Cowen and Sponaugle, 2009;Levin, 2006;Metaxas and Saunders, 2009). Researchers have also inferred "source" and "sink" sites from their models (e.g., Lipcius et al, 2008;Neo et al, 2013;Tay et al, 2012), where sources may become optimal restocking areas and sinks targeted for conservation (Pulliam, 1988). Understanding source-sink dynamics in restocking and restoration of marine populations can also assist in preventing or mitigating potential anthropogenic impacts such as near-shore development (Lipcius et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

“…While the physical parameters largely determine the hydrodynamic transport functions (Huret et al, 2010;van Maren and Gerritsen, 2012), including biological data is also important (as reviewed by Metaxas and Saunders, 2009). Critical factors such as planktonic larval duration (PLD: Shanks, 2009;Gilbert et al, 2010;Wolanski and Kingsford, 2014), timing of gamete or larval release (Edwards et al, 2007;Reitzel et al, 2004), swimming speeds Dekshenieks et al, 1996), diel vertical migration Edwards et al, 2007), mortality rates (Neo et al, 2013), and behaviour Neo et al, 2013) have been included into previous modelling studies for sessile marine invertebrates and fish. Duration of larval cycle, mortality rates, and larval behaviour, in particular, are known to significantly affect the success of larval dispersal, settlement and recruitment (Metaxas and Saunders, 2009).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Larval ecology of the fluted giant clam, Tridacna squamosa, and its potential effects on dispersal models

Neo

Vicentuan

Teo

et al. 2015

Journal of Experimental Marine Biology and Ecology

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Recruitment constraints in Singapore's fluted giant clam (Tridacna squamosa) population—A dispersal model approach

Cited by 32 publications

References 62 publications

Modelling mangrove propagule dispersal trajectories using high‐resolution estimates of ocean surface winds and currents

Modelling mangrove propagule dispersal trajectories using high‐resolution estimates of ocean surface winds and currents

Status of giant clam resources around Okinawa‐jima Island, Ryukyu Archipelago, Japan

Larval ecology of the fluted giant clam, Tridacna squamosa, and its potential effects on dispersal models

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