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Journal articles on the topic 'Saccostrea glomerata'

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Published: 4 June 2021
Last updated: 31 January 2023

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1

Raftos, D. A., A. R. Melwani, P. A. Haynes, S. Muralidharan, G. F. Birch, V. Amaral, E. L. Thompson, and D. A. Taylor. "Correction: The biology of environmental stress: molecular biomarkers in Sydney rock oysters (Saccostrea glomerata)." Environmental Science: Processes & Impacts 18, no. 10 (2016): 1359. http://dx.doi.org/10.1039/c6em90036d.

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2

Gibbs, M., E. Scanes, L. Parker, M. Byrne, W. O’Connor, P. Virtue, and P. Ross. "Larval energetics of the Sydney rock oyster Saccostrea glomerata and Pacific oyster Magallana gigas." Marine Ecology Progress Series 656 (December 10, 2020): 51–64. http://dx.doi.org/10.3354/meps13538.

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Larvae are a critical dispersal stage of marine invertebrates, and their survival depends on nutrition and energetics. This study compared the size, survival, metabolic rate and egg and larval lipid class profiles of larvae of the endemic Sydney rock oyster Saccostrea glomerata and the invasive Pacific oyster Magallana gigas through a period of starvation for 5 and 9 d after fertilisation. Starved larvae grew without food until 5 d of age, at which point they stopped developing, but resumed growth when fed. Egg lipids profiles comprised 78.1 and 74.5% triacylglycerol for M. gigas and S. glomerata respectively. When fed, larvae of M. gigas were significantly larger in size and had faster growth and similar survival compared to S. glomerata. When starved, larvae of M. gigas and S. glomerata grew at similar rates, and there was a trend for lower survival of M. gigas. Larval endogenous lipid reserves were deleted in the first 24 h. Larvae of M. gigas had more total lipids and comparatively more diacylglycerols, monoacylglycerols, phospholipids and cholesterol, whereas S. glomerata had more diacylglycerols and produced sterol esters. Starvation altered the patterns of lipid assimilation, and metabolic rates of larvae of M. gigas and S. glomerata differed over time. When starved, S. glomerata larvae had greater capacity to cope with starvation compared to M. gigas, perhaps due to an evolutionary history in oligotrophic estuaries. As the climate rapidly changes in this global climate-change hotspot, S. glomerata is likely to be negatively affected.
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3

Aladaileh, Saleem, Sham V. Nair, Debra Birch, and David A. Raftos. "Sydney rock oyster (Saccostrea glomerata) hemocytes: Morphology and function." Journal of Invertebrate Pathology 96, no. 1 (September 2007): 48–63. http://dx.doi.org/10.1016/j.jip.2007.02.011.

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4

Scanes, Elliot, Laura M. Parker, Wayne A. O'Connor, Michael C. Dove, and Pauline M. Ross. "Heatwaves alter survival of the Sydney rock oyster, Saccostrea glomerata." Marine Pollution Bulletin 158 (September 2020): 111389. http://dx.doi.org/10.1016/j.marpolbul.2020.111389.

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5

Simonian, M., S. V. Nair, W. A. O’Connor, and D. A. Raftos. "Protein markers ofMarteilia sydneyiinfection in Sydney rock oysters,Saccostrea glomerata." Journal of Fish Diseases 32, no. 4 (April 2009): 367–75. http://dx.doi.org/10.1111/j.1365-2761.2009.01022.x.

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6

Aladaileh, Saleem, Peters Rodney, Sham V. Nair, and David A. Raftos. "Characterization of phenoloxidase activity in Sydney rock oysters (Saccostrea glomerata)." Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 148, no. 4 (December 2007): 470–80. http://dx.doi.org/10.1016/j.cbpb.2007.07.089.

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7

Wilkie, Emma M., Melanie J. Bishop, Wayne A. O'Connor, and Ross G. McPherson. "Status of the Sydney rock oyster in a disease-afflicted estuary: persistence of wild populations despite severe impacts on cultured counterparts." Marine and Freshwater Research 64, no. 3 (2013): 267. http://dx.doi.org/10.1071/mf13010.

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Marine diseases represent a significant threat to wild organisms and the ecosystem services they support, yet studies often consider only disease impacts to aquaculture. In eastern Australia, the Sydney rock oyster (Saccostrea glomerata) aquaculture industry is increasingly affected by outbreaks of QX disease caused by parasitic Marteilia sydneyi. The present study considered impacts of M. sydneyi infection on the structure of wild-oyster populations that are dominated by S. glomerata, but that may also include the non-native Pacific oyster, Crassostrea gigas. In the Hawkesbury River Estuary, where cultured S. glomerata has experienced up to 98% QX-induced mortality, we found that disease prevalence was comparatively low among wild S. glomerata, peaking at 14%, and annual infections did not cause seasonal patterns of mortality. Furthermore, C. gigas, a competitor of S. glomerata that is not susceptible to QX disease, was not consistently more abundant at sites with than without the parasite. Overall, our results indicated that relative to cultured counterparts, wild S. glomerata in the Hawkesbury River Estuary is minimally affected by QX disease. Nevertheless, our study showed that diseases of aquaculture stocks have the capacity to infect wild populations, and that longer-term assessment of wild populations at risk is essential.
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8

Liu, Baozhong, and Xiaoxu Li. "Preliminary Studies on Cryopreservation of Sydney Rock Oyster (Saccostrea glomerata) Larvae." Journal of Shellfish Research 27, no. 5 (December 2008): 1125–28. http://dx.doi.org/10.2983/0730-8000-27.5.1125.

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9

Scanes, Elliot, Heather Wood, and Pauline Ross. "Microplastics detected in haemolymph of the Sydney rock oyster Saccostrea glomerata." Marine Pollution Bulletin 149 (December 2019): 110537. http://dx.doi.org/10.1016/j.marpolbul.2019.110537.

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10

Birch, G. F., M. S. Scammell, and C. H. Besley. "The recovery of oyster (Saccostrea glomerata) populations in Sydney estuary (Australia)." Environmental Science and Pollution Research 21, no. 1 (September 24, 2013): 766–73. http://dx.doi.org/10.1007/s11356-013-2168-x.

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11

Honkoop, P. J. C. "Physiological costs of reproduction in the Sydney rock oyster Saccostrea glomerata." Oecologia 135, no. 2 (February 14, 2003): 176–83. http://dx.doi.org/10.1007/s00442-002-1172-5.

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12

NEWTON, K. "Phenoloxidase and QX disease resistance in Sydney rock oysters (Saccostrea glomerata)." Developmental & Comparative Immunology 28, no. 6 (May 2004): 565–69. http://dx.doi.org/10.1016/j.dci.2003.10.004.

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13

McLeod, I. M., L. Boström-Einarsson, C. Creighton, B. D'Anastasi, B. Diggles, P. G. Dwyer, L. Firby, et al. "Habitat value of Sydney rock oyster (Saccostrea glomerata) reefs on soft sediments." Marine and Freshwater Research 71, no. 7 (2020): 771. http://dx.doi.org/10.1071/mf18197.

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Estimates of the ecological and economic value of ecosystems can provide important information for the prioritisation of conservation and restoration actions. Oyster reefs that were once common in temperate coastal waters have now been largely degraded or lost. Oyster reefs provide a suite of ecological services, including habitat and a food supply for a range of other species. In Australia, there is growing interest in oyster reef restoration, but there are knowledge gaps with regard to their structure and habitat value. Here, we describe the structure of eight remnant Sydney rock oyster (Saccostrea glomerata) reefs and estimate the density, biomass, productivity and composition of mobile macroinvertebrate and infaunal communities associated with them. The oyster reefs had a distinct assemblage of macroinvertebrates, with fivefold higher density of larger (≥2mm) macroinvertebrates, fivefold higher biomass and almost fivefold higher productivity, than that of adjacent bare sediments. The productivity of infaunal communities was twice as high under oyster reefs than in adjacent bare sediments. Therefore, S. glomerata reef restoration is likely to provide important habitat for macroinvertebrate communities and boost local secondary production.
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14

Spiers, ZB, M. Gabor, SA Fell, RB Carnegie, M. Dove, W. O’Connor, J. Frances, J. Go, IB Marsh, and C. Jenkins. "Longitudinal study of winter mortality disease in Sydney rock oysters Saccostrea glomerata." Diseases of Aquatic Organisms 110, no. 1 (July 24, 2014): 151–64. http://dx.doi.org/10.3354/dao02629.

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15

In, Vu Van, Nikoleta Ntalamagka, Wayne O’Connor, Tianfang Wang, Daniel Powell, Scott F. Cummins, and Abigail Elizur. "Reproductive neuropeptides that stimulate spawning in the Sydney Rock Oyster ( Saccostrea glomerata )." Peptides 82 (August 2016): 109–19. http://dx.doi.org/10.1016/j.peptides.2016.06.007.

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16

Aladaileh, Saleem, Mohammad G. Mohammad, Belinda Ferrari, Sham V. Nair, and David A. Raftos. "In vitro effects of noradrenaline on Sydney rock oyster (Saccostrea glomerata) hemocytes." Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 151, no. 4 (December 2008): 691–97. http://dx.doi.org/10.1016/j.cbpa.2008.08.028.

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17

Amaral, Valter, Emma L. Thompson, Melanie J. Bishop, and David A. Raftos. "The proteomes of Sydney rock oysters vary spatially according to exposure to acid sulfate runoff." Marine and Freshwater Research 63, no. 4 (2012): 361. http://dx.doi.org/10.1071/mf11213.

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Runoff from acid sulfate soils (ASS) has severe environmental and economic impacts on estuarine ecosystems. Oysters display reduced abundance, growth rate and shell thickness when exposed to ASS runoff, yet the molecular underpinnings of their responses have not been explored. We hypothesised that the proteomes of wild Sydney rock oysters, Saccostrea glomerata, would differ between populations recurrently exposed to ASS compared with those unaffected by runoff from ASS. We used two-dimensional electrophoresis to compare protein abundances in the gills of S. glomerata collected from two sites close to (acidified) and two sites away from (reference) major ASS outflow drains in a south-east Australian estuary. Approximately 5% of the proteome was differentially expressed between oysters from acidified and reference sites, with five protein spots more abundant and one less abundant at the sites close to drains. Another protein spot was present only in oysters from reference sites. This study is the first screening of spatial variation in the protein expression of S. glomerata with respect to discharge from ASS. Altered protein expression may underpin short-term inducible responses to ASS runoff, or genetic resistance acquired through recurrent exposure of populations to the stressor.
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18

Gibbs, Mitchell C., Laura M. Parker, Elliot Scanes, Maria Byrne, Wayne A. O’Connor, and Pauline M. Ross. "Adult exposure to ocean acidification and warming remains beneficial for oyster larvae following starvation." ICES Journal of Marine Science 78, no. 5 (April 12, 2021): 1587–98. http://dx.doi.org/10.1093/icesjms/fsab066.

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Abstract Climate change is expected to warm and acidify oceans and alter the phenology of phytoplankton, creating a mismatch between larvae and their food. Transgenerational plasticity (TGP) may allow marine species to acclimate to climate change; however, it is expected that this may come with elevated energetic demands. This study used the oysters, Saccostrea glomerata and Crassostrea gigas, to test the effects of adult parental exposure to elevated pCO2 and temperature on larvae during starvation and recovery. It was anticipated that beneficial effects of TGP will be limited when larvae oyster are starved. Transgenerational responses and lipid reserves of larvae were measured for 2 weeks. Larvae of C. gigas and S. glomerata from parents exposed to elevated pCO2 had greater survival when exposed to elevated CO2, but this differed between species and temperature. For S. glomerata, survival of larvae was greatest when the conditions experienced by larvae matched the condition of their parents. For C. gigas, survival of larvae was greater when parents and larvae were exposed to elevated pCO2. Larvae of both species used lipids when starved. The total lipid content was dependent on parental exposure and temperature. Against expectations, the beneficial TGP responses of larvae remained, despite starvation.
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19

Bishop, Melanie J., Fredrick R. Krassoi, Ross G. McPherson, Kenneth R. Brown, Stephen A. Summerhayes, Emma M. Wilkie, and Wayne A. O'Connor. "Change in wild-oyster assemblages of Port Stephens, NSW, Australia, since commencement of non-native Pacific oyster (Crassostrea gigas) aquaculture." Marine and Freshwater Research 61, no. 6 (2010): 714. http://dx.doi.org/10.1071/mf09177.

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Proliferation of species introduced for aquaculture can threaten the ecological and economic integrity of ecosystems. We assessed whether the non-native Pacific oyster, Crassostrea gigas, has proliferated, spread and overgrown native Sydney rock oysters, Saccostrea glomerata, in Port Stephens, New South Wales (NSW), Australia, following the 1991 decision to permit its aquaculture within this estuary. Sampling of seven rocky-shore and four mangrove sites immediately before (1990), immediately after (1991–1992) and nearly two decades after (2008) the commencement of C. gigas aquaculture did not support the hypotheses of C. gigas proliferation, spread or overgrowth of S. glomerata. The non-native oyster, uncommon immediately before the commencement of aquaculture, remained confined to the inner port and its percentage contribution to oyster assemblages generally declined over the two decades. C. gigas populations were dominated by individuals of <40-mm shell height, with established adults being rare. Only at one site was there an increase in C. gigas abundance that was accompanied by S. glomerata decline. The failure of C. gigas in Port Stephens to cause the catastrophic changes in fouling assemblages seen elsewhere in the world is likely to reflect estuarine circulation patterns that restrict larval transport and susceptibility of the oysters to native predators.
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20

Wilkie, Emma M., and Melanie J. Bishop. "Differences in shell strength of native and non-native oysters do not extend to size classes that are susceptible to a generalist predator." Marine and Freshwater Research 63, no. 12 (2012): 1201. http://dx.doi.org/10.1071/mf12078.

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Whether non-native species proliferate to pest status can depend on top-down control from native predators. Among epifaunal molluscs, the shell serves as a main line of anti-predator defence and shell strength may determine the ease with which generalist predators can penetrate prey. We assessed whether, in eastern Australia, the faster growth of the non-native Pacific oyster, Crassostrea gigas, than that of the native Saccostrea glomerata comes at the cost of reduced investment in shell thickening, rendering the non-native oyster more susceptible to a generalist predator, the muricid gastropod Morula marginalba. Laboratory tests confirmed that among larger (>50-mm shell height) oysters, the shells of C. gigas were weaker than those of similar-sized S. glomerata. There were, however, no differences in shell strength or thickness between smaller S. glomerata and C. gigas of the size consumed by M. marginalba. In the absence of shell-strength differences among smaller oysters, M. marginalba preferentially consumed native over non-native oysters. When, however, M. marginalba had no choice of prey item, C. gigas was consumed at the same rate as the native oyster. Our results add to growing evidence that the invasion of C. gigas in eastern Australian estuaries is, at present, causing minimal disruption to trophic relationships.
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21

DOVE, MICHAEL C., and WAYNE A. O'CONNOR. "SALINITY AND TEMPERATURE TOLERANCE OF SYDNEY ROCK OYSTERS SACCOSTREA GLOMERATA DURING EARLY ONTOGENY." Journal of Shellfish Research 26, no. 4 (December 2007): 939–47. http://dx.doi.org/10.2983/0730-8000(2007)26[939:sattos]2.0.co;2.

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22

Le, Tuan Son, Paul C. Southgate, Wayne O’Connor, Sang V. Vu, and D. İpek Kurtböke. "Application of Bacteriophages to Control Vibrio alginolyticus Contamination in Oyster (Saccostrea glomerata) Larvae." Antibiotics 9, no. 7 (July 16, 2020): 415. http://dx.doi.org/10.3390/antibiotics9070415.

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Mortalities of bivalve larvae and spat linked with Vibrio spp. infection have been described in hatcheries since 1959, causing potential development of resistant bacteria. A reliable and sustainable solution to this problem is yet to be developed. Potential treatment of bacterial infection with bacteriophages is gaining interest in aquaculture as a more sustainable option for managing Vibrio spp. infection. This study assessed the effectiveness of bacteriophages (Φ-5, Φ-6, and Φ-7) against pathogenic Vibrio isolates (USC-26004 and USC-26005). These phage isolates were found to belong to the Myoviridae viral family. A total of 212 ORFs of Φ-5 were identified and annotated. The genome of this phage contained putative thymidine kinase and lysin enzyme. During infections with phages, the OD values of the isolates USC-26005 and USC-26004 remained stable at a much lower reading compared to the control after 9 h of incubation. Mortality rate of oyster (Saccostrea glomerata) larvae was 28.2 ± 3.5% in the bacteriophage treatment group, compared to 77.9 ± 9.1% in the bacterial treatment group after 24 h incubation. Findings of this study indicate that lytic phages might be utilized as potential bio-control agents of luminescent bacterial disease in oyster hatcheries.
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23

Raftos, D. A., A. R. Melwani, P. A. Haynes, S. Muralidharan, G. F. Birch, V. Amaral, E. L. Thompson, and D. A. Taylor. "The biology of environmental stress: molecular biomarkers in Sydney rock oysters (Saccostrea glomerata)." Environmental Science: Processes & Impacts 18, no. 9 (2016): 1129–39. http://dx.doi.org/10.1039/c6em00322b.

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24

Ertl, Nicole G., Wayne A. O’Connor, Alexie Papanicolaou, Aaron N. Wiegand, and Abigail Elizur. "Transcriptome Analysis of the Sydney Rock Oyster, Saccostrea glomerata: Insights into Molluscan Immunity." PLOS ONE 11, no. 6 (June 3, 2016): e0156649. http://dx.doi.org/10.1371/journal.pone.0156649.

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25

Nell, J. A., I. R. Smith, and C. C. McPhee. "The Sydney rock oyster Saccostrea glomerata (Gould 1850) breeding programme: progress and goals." Aquaculture Research 31, no. 1 (January 2000): 45–49. http://dx.doi.org/10.1046/j.1365-2109.2000.00387.x.

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26

Thompson, Emma L., Daisy A. Taylor, Sham V. Nair, Gavin Birch, Paul A. Haynes, and David A. Raftos. "Proteomic discovery of biomarkers of metal contamination in Sydney Rock oysters (Saccostrea glomerata)." Aquatic Toxicology 109 (March 2012): 202–12. http://dx.doi.org/10.1016/j.aquatox.2011.09.018.

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27

Melwani, A. R., E. L. Thompson, and D. A. Raftos. "Differential proteomic response of Sydney rock oysters ( Saccostrea glomerata ) to prolonged environmental stress." Aquatic Toxicology 173 (April 2016): 53–62. http://dx.doi.org/10.1016/j.aquatox.2016.01.003.

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28

Vaibhav, Vineet, Maxime Lepretre, Emma Thompson, David Raftos, and Paul A. Haynes. "Biomarkers of Winter Mortality resistance in selectively bred Sydney rock oysters ( Saccostrea glomerata )." Aquaculture 465 (December 2016): 323–29. http://dx.doi.org/10.1016/j.aquaculture.2016.09.006.

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29

Jordan, Mark A., Peter R. Teasdale, Ryan J. K. Dunn, and Shing Y. Lee. "Modelling copper uptake by Saccostrea glomerata with diffusive gradients in a thin film measurements." Environmental Chemistry 5, no. 4 (2008): 274. http://dx.doi.org/10.1071/en07092.

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Environmental context. Organisms, like commercially available rock oysters, can be used to measure the uptake of contaminants (e.g. trace metals) and thereby provide a relative measure of water quality between sites or of water quality changes over time. However, these measurements cannot be directly compared with water quality guidelines, which require water concentrations and not tissue concentrations, to provide an absolute indication of water quality. The present study found that the amount of copper accumulated in oyster tissue was proportional to water copper concentrations measured by passive sampler devices, thereby allowing oyster copper accumulation to be interpreted in terms of biologically-available copper water concentrations and to be compared with the water quality guidelines. Abstract. Copper bioaccumulation in transplanted oysters, Saccostrea glomerata, was compared with measurements of water concentrations. Tissue copper measurements were positively correlated with acid-soluble copper concentrations (n = 6, r = 0.874, P = 0.023) and with DGT (diffusive gradients in a thin film)-accumulated copper mass at two sites (n = 9, r = 0.967, P < 0.001; n = 9, r = 0.888, P = 0.001) where continual bioaccumulation occurred. The more significant correlations are likely due to the time-integrated nature of DGT measurements, despite the biomonitor measuring different copper species. This empirical relationship allowed S. glomerata-available copper concentrations (0.70–1.6 μg L–1) to be modelled across 14 sites and produced a highly significant correlation (r = 0.787, P = 0.001) with DGT-labile copper measurements (0.10–0.49 μg L–1). This approach allowed biomonitor measurements to be compared with water quality guidelines and would further expand the use of biomonitors for aquatic monitoring if widely replicated.
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30

Green, Timothy J., David Raftos, Wayne O'Connor, Robert D. Adlard, and Andrew C. Barnes. "Disease Prevention Strategies for QX Disease (Marteilia sydneyi) of Sydney Rock Oysters (Saccostrea glomerata)." Journal of Shellfish Research 30, no. 1 (April 2011): 47–53. http://dx.doi.org/10.2983/035.030.0108.

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31

Parker, Laura, Pauline Ross, David Raftos, Emma Thompson, and Wayne O'Connor. "The proteomic response of larvae of the Sydney rock oyster, Saccostrea glomerata to elevatedpCO2." Australian Zoologist 35, no. 4 (January 2011): 1011–23. http://dx.doi.org/10.7882/az.2011.056.

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32

Thompson, JA, AJ Stow, and DA Raftos. "Lack of genetic introgression between wild and selectively bred Sydney rock oysters Saccostrea glomerata." Marine Ecology Progress Series 570 (April 27, 2017): 127–39. http://dx.doi.org/10.3354/meps12109.

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Carrazco-Quevedo, Ana, Isabella Römer, Maria J. Salamanca, Alexander Poynter, Iseult Lynch, and Eugenia Valsami-Jones. "Bioaccumulation and toxic effects of nanoparticulate and ionic silver in Saccostrea glomerata (rock oyster)." Ecotoxicology and Environmental Safety 179 (September 2019): 127–34. http://dx.doi.org/10.1016/j.ecoenv.2019.04.032.

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34

Parker, L. M., Pauline M. Ross, and Wayne A. O’Connor. "Populations of the Sydney rock oyster, Saccostrea glomerata, vary in response to ocean acidification." Marine Biology 158, no. 3 (December 8, 2010): 689–97. http://dx.doi.org/10.1007/s00227-010-1592-4.

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35

Butt, Daniel, Stephan J. O'Connor, Rhiannon Kuchel, Wayne A. O'Connor, and David A. Raftos. "Effects of the muscle relaxant, magnesium chloride, on the Sydney rock oyster (Saccostrea glomerata)." Aquaculture 275, no. 1-4 (March 2008): 342–46. http://dx.doi.org/10.1016/j.aquaculture.2007.12.004.

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36

Schmitz, Helena A., William A. Maher, Anne M. Taylor, and Frank Krikowa. "Effects of cadmium accumulation from suspended sediments and phytoplankton on the Oyster Saccostrea glomerata." Aquatic Toxicology 160 (March 2015): 22–30. http://dx.doi.org/10.1016/j.aquatox.2014.12.019.

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37

Idowu, Oluyoye, Thi Kim Anh Tran, Grant Webster, Ian Chapman, Phil Baker, Hazel Farrel, Anthony Zammit, et al. "Quantitative biomonitoring of polycyclic aromatic compounds (PACs) using the Sydney rock oyster (Saccostrea glomerata)." Science of The Total Environment 742 (November 2020): 140497. http://dx.doi.org/10.1016/j.scitotenv.2020.140497.

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38

Kuchel, Rhiannon P., Saleem Aladaileh, Debra Birch, Nicole Vella, and David A. Raftos. "Phagocytosis of the protozoan parasite, Marteilia sydneyi, by Sydney rock oyster (Saccostrea glomerata) hemocytes." Journal of Invertebrate Pathology 104, no. 2 (June 2010): 97–104. http://dx.doi.org/10.1016/j.jip.2010.02.001.

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39

Parker, Laura M., Wayne A. O'Connor, Maria Byrne, Michael Dove, Ross A. Coleman, Hans-O. Pörtner, Elliot Scanes, Patti Virtue, Mitchell Gibbs, and Pauline M. Ross. "Ocean acidification but not warming alters sex determination in the Sydney rock oyster, Saccostrea glomerata." Proceedings of the Royal Society B: Biological Sciences 285, no. 1872 (February 14, 2018): 20172869. http://dx.doi.org/10.1098/rspb.2017.2869.

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Whether sex determination of marine organisms can be altered by ocean acidification and warming during this century remains a significant, unanswered question. Here, we show that exposure of the protandric hermaphrodite oyster, Saccostrea glomerata to ocean acidification, but not warming, alters sex determination resulting in changes in sex ratios. After just one reproductive cycle there were 16% more females than males. The rate of gametogenesis, gonad area, fecundity, shell length, extracellular pH and survival decreased in response to ocean acidification. Warming as a sole stressor slightly increased the rate of gametogenesis, gonad area and fecundity, but this increase was masked by the impact of ocean acidification at a level predicted for this century. Alterations to sex determination, sex ratios and reproductive capacity will have flow on effects to reduce larval supply and population size of oysters and potentially other marine organisms.
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40

DOVE, MICHAEL C., and JESMOND SAMMUT. "HISTOLOGICAL AND FEEDING RESPONSE OF SYDNEY ROCK OYSTERS, SACCOSTREA GLOMERATA, TO ACID SULFATE SOIL OUTFLOWS." Journal of Shellfish Research 26, no. 2 (August 2007): 509–18. http://dx.doi.org/10.2983/0730-8000(2007)26[509:hafros]2.0.co;2.

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41

Nell, John A., and Ben Perkins. "Evaluation of progeny of fourth generation Sydney rock oyster Saccostrea glomerata (Gould, 1850) breeding lines." Aquaculture Research 36, no. 8 (June 2005): 753–57. http://dx.doi.org/10.1111/j.1365-2109.2005.01279.x.

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42

Butt, Daniel, and David Raftos. "Immunosuppression in Sydney rock oysters (Saccostrea glomerata) and QX disease in the Hawkesbury River, Sydney." Marine and Freshwater Research 58, no. 2 (2007): 213. http://dx.doi.org/10.1071/mf06080.

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Abstract:
This study assessed links between host fitness, environmental change and opportunistic parasite infections in a dynamic estuary system. The Hawkesbury River in New South Wales is the most recent Sydney rock oyster growing area to experience outbreaks of infectious QX disease. This area was used to examine a relationship between the intensity of QX disease and inhibition of the oyster immune system. Oysters were grown at various sites along the river and periodically monitored for general condition, total haemolymph protein content, antibacterial capacity and phenoloxidase activity. Phenoloxidase activity was significantly inhibited during a key period of Marteilia sydneyi infectivity in late summer 2005. The degree to which phenoloxidase was inhibited strongly correlated with the intensity of M. sydneyi infection. The data suggest that the presence of some transient environmental stressor may have affected phenoloxidase activity during a key period of infection and increased the susceptibility of oysters to disease. These results provide further evidence for a specific relationship between decreased phenoloxidase activity and susceptibility to QX infection.
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43

Peters, Rodney, and David A. Raftos. "The role of phenoloxidase suppression in QX disease outbreaks among Sydney rock oysters (Saccostrea glomerata)." Aquaculture 223, no. 1-4 (June 2003): 29–39. http://dx.doi.org/10.1016/s0044-8486(03)00169-8.

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44

Dove, Michael C., and Wayne A. O'Connor. "Reproductive cycle of Sydney rock oysters, Saccostrea glomerata (Gould 1850) selectively bred for faster growth." Aquaculture 324-325 (January 2012): 218–25. http://dx.doi.org/10.1016/j.aquaculture.2011.10.022.

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45

Thompson, Emma L., Daisy A. Taylor, Sham V. Nair, Gavin Birch, Grant C. Hose, and David A. Raftos. "Proteomic analysis of Sydney Rock oysters (Saccostrea glomerata) exposed to metal contamination in the field." Environmental Pollution 170 (November 2012): 102–12. http://dx.doi.org/10.1016/j.envpol.2012.06.015.

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46

Taylor, Daisy A., Sham V. Nair, Emma L. Thompson, and David A. Raftos. "Dose-dependent effects of metals on gene expression in the sydney rock oyster,Saccostrea glomerata." Environmental Toxicology 30, no. 9 (February 26, 2014): 989–98. http://dx.doi.org/10.1002/tox.21972.

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Butt, Daniel, Kim Shaddick, and David Raftos. "The effect of low salinity on phenoloxidase activity in the Sydney rock oyster, Saccostrea glomerata." Aquaculture 251, no. 2-4 (February 2006): 159–66. http://dx.doi.org/10.1016/j.aquaculture.2005.05.045.

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48

Bartlett, Jill K., and William A. Maher. "Seasonal Bioenergetic Changes in Saccostrea glomerata from Two Age Cohorts Farmed in Clyde River, Nsw, Australia." Journal of Shellfish Research 38, no. 2 (August 20, 2019): 327. http://dx.doi.org/10.2983/035.038.0213.

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DOVE, MICHAEL C., and JESMOND SAMMUT. "IMPACTS OF ESTUARINE ACIDIFICATION ON SURVIVAL AND GROWTH OF SYDNEY ROCK OYSTERS SACCOSTREA GLOMERATA (GOULD 1850)." Journal of Shellfish Research 26, no. 2 (August 2007): 519–27. http://dx.doi.org/10.2983/0730-8000(2007)26[519:ioeaos]2.0.co;2.

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50

Parker, Laura M., Wayne A. O’Connor, David A. Raftos, Hans-Otto Pörtner, and Pauline M. Ross. "Persistence of Positive Carryover Effects in the Oyster, Saccostrea glomerata, following Transgenerational Exposure to Ocean Acidification." PLOS ONE 10, no. 7 (July 6, 2015): e0132276. http://dx.doi.org/10.1371/journal.pone.0132276.

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