2011
DOI: 10.1016/j.seares.2011.04.009
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Modelling growth variability in longline mussel farms as a function of stocking density and farm design

Abstract: The simulations demonstrate spatial growth patterns at longlines under environmental settings and farm configurations where flow reduction and seston depletion have significant impacts on individual mussel growth. Longline spacing has a strong impact on the spatial distribution of individual growth, and the spacing is characterised by a threshold value. Below the threshold growth reduction and spatial growth variability increase rapidly as a consequence of reduced water flow and seston supply rate, but increas… Show more

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Cited by 64 publications
(46 citation statements)
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“…1). High levels of flow reduction and feedback effects on food depletion (increased) and mussel growth (decreased) have been observed and predicted for mussel longline and raft farms (reviewed by Rosland et al 2011). Persistent farm-induced flow reduction may also have undesirable effects in an IMTA situation if the presence of intensive culture structures reduced current flow to adjacent fish netpens to levels below the threshold (2 cm s −1 for more than 40 min) needed to maintain adequate oxygen in net-pens (> 6 mg O 2 l −1 ; Page et al 2005).…”
Section: Waste Particle Capture Efficiencymentioning
confidence: 99%
“…1). High levels of flow reduction and feedback effects on food depletion (increased) and mussel growth (decreased) have been observed and predicted for mussel longline and raft farms (reviewed by Rosland et al 2011). Persistent farm-induced flow reduction may also have undesirable effects in an IMTA situation if the presence of intensive culture structures reduced current flow to adjacent fish netpens to levels below the threshold (2 cm s −1 for more than 40 min) needed to maintain adequate oxygen in net-pens (> 6 mg O 2 l −1 ; Page et al 2005).…”
Section: Waste Particle Capture Efficiencymentioning
confidence: 99%
“…DEB models have been successfully applied to several shellfish species including Mytilus edulis (e.g. Handå et al, 2011;Filgueira et al, 2011;Maar et al, 2009;Rosland et al, 2009Rosland et al, , 2011Saraiva et al, 2011a;Thomas et al, 2011;van der Veer et al, 2006), Crassostrea gigas (e.g. Alunno-Bruscia et al, 2011;Barillé et al, 2011;Bernard et al, 2011;Bourlès et al, 2009;Emmery et al, 2011), and other species.…”
Section: Introductionmentioning
confidence: 99%
“…In this respect, particle depletion and bivalve performance measurements are highly complementary. The former indicator provides information on changes in pelagic food supplies that likely control the latter (see Rosland et al 2011). Monitoring bivalve condition is a way to assess how the physiological status of the bivalve is affected by food limitation.…”
Section: Bivalve Performance Indicatorsmentioning
confidence: 99%