2019
DOI: 10.1111/are.14425
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Effects of temperature on early development of the New Zealand geoduckPanopea zelandica(Quoy & Gaimard, 1835)

Abstract: The New Zealand geoduck Panopea zelandica (Quoy & Gaimard, 1835) is a large, infaunal, sessile clam inhabiting subtidal areas around New Zealand. Geoduck population densities in New Zealand are estimated to be relatively low with patchy distributions, based on washed up shells on local beaches (Gribben, Helson, & Millar, 2004) and in situ accounts of other populations in Patterson Inlet, Stewart Island and throughout Golden Bay, Tasman (Breen, Gabriel, & Tyson, 1991;Powell, 1979). Ecological studies on known… Show more

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Cited by 4 publications
(2 citation statements)
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“…Survival, which included embryos, trochophores, and Dveligers, was measured by counting the individuals that were visible, regardless of developmental stage and abnormalities, in each TCD well for each feeding ratio and salinity treatment. Different early development stages were identified by descriptions provided by Le et al [19] and by Sharma et al [15]. Survival percentages were calculated using the following formula: The D-veliger stage was chosen as an endpoint as it is a transition from a nonfeeding phase to a feeding larval state.…”
Section: Embryomentioning
confidence: 99%
See 1 more Smart Citation
“…Survival, which included embryos, trochophores, and Dveligers, was measured by counting the individuals that were visible, regardless of developmental stage and abnormalities, in each TCD well for each feeding ratio and salinity treatment. Different early development stages were identified by descriptions provided by Le et al [19] and by Sharma et al [15]. Survival percentages were calculated using the following formula: The D-veliger stage was chosen as an endpoint as it is a transition from a nonfeeding phase to a feeding larval state.…”
Section: Embryomentioning
confidence: 99%
“…During development, embryos are more sensitive to environmental stressors compared to the juvenile and adult stages, especially with regard to salinity and temperature [13,14]. Indeed, even minor deviations from optimal temperature ranges have been known to cause reduced developmental rates and increased abnormalities of embryos and larvae of P. zelandica [15]. As for salinity, pacific geoduck (P. japonica) embryos were shown to have a low salinity tolerance with both embryos and larvae unable to survive at salinities below 26 ppt [16].…”
Section: Introductionmentioning
confidence: 99%