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Journal articles on the topic 'Haliotis Laevigata'

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Published: 4 June 2021
Last updated: 21 February 2023

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1

Danckert, Nathan P., Neil Wilson, Kim-Yen Phan-Thien, and David A. J. Stone. "The intestinal microbiome of Australian abalone, Haliotis laevigata and Haliotis laevigata × Haliotis rubra, over a 1-year period in aquaculture." Aquaculture 534 (March 2021): 736245. http://dx.doi.org/10.1016/j.aquaculture.2020.736245.

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2

Hooper, C., P. Hardy-Smith, and J. Handlinger. "Ganglioneuritis causing high mortalities in farmed Australian abalone (Haliotis laevigata and Haliotis rubra)." Australian Veterinary Journal 85, no. 5 (May 2007): 188–93. http://dx.doi.org/10.1111/j.1751-0813.2007.00155.x.

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3

Botwright, Natasha A., Min Zhao, Tianfang Wang, Sean McWilliam, Michelle L. Colgrave, Ondrej Hlinka, Sean Li, et al. "Greenlip Abalone (Haliotis laevigata) Genome and Protein Analysis Provides Insights into Maturation and Spawning." G3: Genes|Genomes|Genetics 9, no. 10 (August 14, 2019): 3067–78. http://dx.doi.org/10.1534/g3.119.400388.

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Wild abalone (Family Haliotidae) populations have been severely affected by commercial fishing, poaching, anthropogenic pollution, environment and climate changes. These issues have stimulated an increase in aquaculture production; however production growth has been slow due to a lack of genetic knowledge and resources. We have sequenced a draft genome for the commercially important temperate Australian ‘greenlip’ abalone (Haliotis laevigata, Donovan 1808) and generated 11 tissue transcriptomes from a female adult abalone. Phylogenetic analysis of the greenlip abalone with reference to the Pacific abalone (Haliotis discus hannai) indicates that these abalone species diverged approximately 71 million years ago. This study presents an in-depth analysis into the features of reproductive dysfunction, where we provide the putative biochemical messenger components (neuropeptides) that may regulate reproduction including gonad maturation and spawning. Indeed, we isolate the egg-laying hormone neuropeptide and under trial conditions induce spawning at 80% efficiency. Altogether, we provide a solid platform for further studies aimed at stimulating advances in abalone aquaculture production. The H. laevigata genome and resources are made available to the public on the abalone ‘omics website, http://abalonedb.org.
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4

Shepherd, SA. "Studies on southern Australian Abalone (Genus Haliotis). VIII. Growth of juvenile H. laevigata." Marine and Freshwater Research 39, no. 2 (1988): 177. http://dx.doi.org/10.1071/mf9880177.

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The growth of juvenile H. laevigata was studied by analysis of sequences of length-frequency distributions obtained in below- and above-boulder habitats at West Island, South Australia. The mean growth rate overall is 1.69 mm month-1 and is linear with length for the first 5 years, but thereafter declines with increasing length. The mean growth rate of four groups of marked H. laevigata aged 1 and 3 years is 1.6-2.1 mm month-1, and thus supports the estimation of growth rate from analysis of length-frequency distributions.
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5

Stone, David A. J., Matthew S. Bansemer, Krishna-Lee Currie, Lucy Saunders, and James O. Harris. "Increased Dietary Protein Improves the Commercial Production of Hybrid Abalone (Haliotis laevigata × Haliotis rubra)." Journal of Shellfish Research 35, no. 3 (October 2016): 695–701. http://dx.doi.org/10.2983/035.035.0316.

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6

Bansemer, Matthew S., Jian G. Qin, Krishna-Lee Currie, and David A. J. Stone. "Temperature-Dependent Feed Consumption Patterns for Greenlip (Haliotis laevigata) and Hybrid (H. laevigata × Haliotis rubra) Abalone Fed Fresh Macroalgae or a Formulated Diet." Journal of Shellfish Research 34, no. 3 (September 2015): 885–92. http://dx.doi.org/10.2983/035.034.0318.

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7

Keesing, JK, R. Grove-Jones, and P. Tagg. "Measuring settlement intensity of abalone: Results of a pilot study." Marine and Freshwater Research 46, no. 3 (1995): 539. http://dx.doi.org/10.1071/mf9950539.

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Results of a pilot study to assess the utility of settlement collectors for measuring settlement intensity of abalone in the field are presented. The collectors, consisting of transparent PVC sheeting, were conditioned in sea water before being deployed on the seabed in habitat containing adult and juvenile abalone. Collectors were recovered and replaced at intervals of between one and eight weeks over a 12-month period. The optimum period was found to be between two and four weeks. Two discrete peaks in settlement were recorded, coinciding with the annual spawning activity of two species, Haliotis rubra and Haliotis laevigata. Intensity of settlement in each peak was equivalent to 114 m-2 and 45 m2 respectively.
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8

Dang, Vinh T., Kirsten Benkendorff, Serge Corbeil, Lynette M. Williams, John Hoad, Mark St J. Crane, and Peter Speck. "Immunological changes in response to herpesvirus infection in abalone Haliotis laevigata and Haliotis rubra hybrids." Fish & Shellfish Immunology 34, no. 2 (February 2013): 688–91. http://dx.doi.org/10.1016/j.fsi.2012.11.023.

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9

KUBE, P. D., S. A. APPLEYARD, and N. G. ELLIOTT. "SELECTIVE BREEDING GREENLIP ABALONE (HALIOTIS LAEVIGATA): PRELIMINARY RESULTS AND ISSUES." Journal of Shellfish Research 26, no. 3 (September 2007): 821–24. http://dx.doi.org/10.2983/0730-8000(2007)26[821:sbgahl]2.0.co;2.

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10

Brown, L. D. "Genetic evidence for hybridisation between Haliotis rubra and H. laevigata." Marine Biology 123, no. 1 (July 1995): 89–93. http://dx.doi.org/10.1007/bf00350327.

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11

Liu, Yibing, Tong Xu, Nicholas Robinson, Jianguang Qin, and Xiaoxu Li. "Cryopreservation of sperm in farmed Australian greenlip abalone Haliotis laevigata." Cryobiology 68, no. 2 (April 2014): 185–93. http://dx.doi.org/10.1016/j.cryobiol.2014.01.002.

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12

Hayashi, K. "Vibrio superstes sp. nov., isolated from the gut of Australian abalones Haliotis laevigata and Haliotis rubra." INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLOGY 53, no. 6 (November 1, 2003): 1813–17. http://dx.doi.org/10.1099/ijs.0.02625-0.

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13

Hooper, Celia, Rob Day, Ron Slocombe, Kirsten Benkendorff, and Judith Handlinger. "Histopathology and haemolymph biochemistry following anaesthesia and movement in farmed Australian abalone (Haliotis rubra×Haliotis laevigata)." Aquaculture 422-423 (February 2014): 202–10. http://dx.doi.org/10.1016/j.aquaculture.2013.11.035.

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14

Babcock, Russ, and John Keesing. "Fertilization biology of the abalone Haliotis laevigata: laboratory and field studies." Canadian Journal of Fisheries and Aquatic Sciences 56, no. 9 (September 1, 1999): 1668–78. http://dx.doi.org/10.1139/f99-106.

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A combination of laboratory and field experiments with the commercial abalone species Haliotis laevigata showed that fertilization may be a limiting factor in some exploited populations when distances separating spawning individuals are too large. The effects of gamete age, gamete concentration, and gamete contact time in the laboratory were used to model fertilization success in situ and compared with experimental fertilization rates in the field. Highest fertilization rates in vitro (80%) were found for sperm concentrations in the range of 1 × 104 to 1 × 106·mL-1. Fertilization rates of 48 ± 1.7% (95% CI) were measured at separation distances of 2 m and dropped to 2.8 ± 0.7% (95% CI) at 16 m downstream, agreeing closely with rates predicted by the model. Recruitment failures reported for South Australian populations of H. laevigata have occurred when densities fell below ca.0.3 animals·m-2, or mean nearest-neighbor distances between 1 and 2 m. This density corresponds well to critical nearest-neighbor distances for fertilization success. Stocks at higher densities are predicted to have higher fertilization rates (ca.90%) such that fertilization success is not a factor limiting recruitment.
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15

Lampert, Kathrin P. "Oxygen concentration drives local adaptation in the greenlip abalone (Haliotis laevigata)." Molecular Ecology 27, no. 7 (April 2018): 1521–23. http://dx.doi.org/10.1111/mec.14563.

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16

Zhu, Wenjun, Xiaoxu Li, Dan Qu, Yibing Liu, and Steven Clarke. "Cryopreservation of sperm from wild greenlip abalone (Haliotis laevigata) in Australia." Aquaculture 432 (August 2014): 60–66. http://dx.doi.org/10.1016/j.aquaculture.2014.04.027.

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17

Hooper, Celia, Rob Day, Ron Slocombe, Kirsten Benkendorff, and Judith Handlinger. "Effect of movement stress on immune function in farmed Australian abalone (hybrid Haliotis laevigata and Haliotis rubra)." Aquaculture 315, no. 3-4 (May 2011): 348–54. http://dx.doi.org/10.1016/j.aquaculture.2011.02.012.

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18

Hassan, Abdul Lathiff Inamul, Thomas S. Mock, Kieren Searle, Melissa M. Rocker, Giovanni M. Turchini, and David S. Francis. "Optimal Dietary Protein Requirement of Subadult Australian Hybrid Abalone (Haliotis rubra × Haliotis laevigata) at Different Rearing Temperatures." Aquaculture Research 2023 (February 4, 2023): 1–13. http://dx.doi.org/10.1155/2023/1676340.

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Australian abalone aquaculture is characterised by a prolonged culture period and slow and variable growth, and abalone is cultured in fluctuating water temperatures ranging between 10 and 25°C with distinct seasons. Temperature is a crucial environmental factor influencing abalone’s physiology and energetics, leading to a change in nutritional requirements. However, feeds are generally formulated to match the nutritional requirements at their optimal temperature. Hence, there is a need to optimise dietary protein levels to match temperature-specific requirements during extreme conditions (winter and summer). Given this, a growth trial evaluating five experimental feeds consisting of graded protein inclusion levels (320, 350, 380, 410, and 440 g·kg−1) was conducted on subadult hybrid abalone (Haliotis rubra × H. laevigata) at three different temperatures reflecting winter (12°C), summer (22°C), and the annual average water temperature (17°C) for 143 days. At lower water temperature (12°C), there was a marginal improvement in growth performance as dietary protein levels increased from 320 to 440 g·kg−1. However, at higher water temperatures (when the culture water temperature is above 17°C), there was a significant improvement in growth performance as dietary protein levels increased from 320 to 440 g·kg−1 as evidenced by an improved weight gain, specific growth rate, and feed conversion ratio. Furthermore, increasing dietary protein levels did not compromise the nutritional quality of the abalone tissue at all three tested temperatures. Therefore, during periods of higher water temperatures, feeding Australian hybrid abalone with a relatively high dietary protein level (410 g·kg−1) is expected to result in improved growth, shorter culture duration, and profit maximisation.
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19

Harris, James O., Christopher M. Burke, Stephen J. Edwards, and Deon R. Johns. "Effects of oxygen supersaturation and temperature on juvenile greenlip, Haliotis laevigata Donovan, and blacklip, Haliotis rubra Leach, abalone." Aquaculture Research 36, no. 14 (October 2005): 1400–1407. http://dx.doi.org/10.1111/j.1365-2109.2005.01360.x.

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20

Dominik, Sonja, John M. Henshall, Peter D. Kube, and Nicolas G. Elliott. "Can Greenlip (Haliotis laevigata) Abalone Breeding Programs Tolerate Fluctuations in Reproductive Performance?" Journal of Shellfish Research 32, no. 1 (April 2013): 155–60. http://dx.doi.org/10.2983/035.032.0121.

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21

Bates, Amy L., Gordon S. Howarth, Krishna-Lee Currie, Mark Purvis, Matthew S. Bansemer, and David A. J. Stone. "Growth and Nutrient Utilization of Greenlip Abalone (Haliotis laevigata) FedUlvaSp. Protein Extract." Journal of Shellfish Research 36, no. 3 (December 2017): 755–61. http://dx.doi.org/10.2983/035.036.0325.

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22

Dodenhof, Tanja, Frank Dietz, Sebastian Franken, Ingo Grunwald, and Sørge Kelm. "Splice Variants of Perlucin from Haliotis laevigata Modulate the Crystallisation of CaCO3." PLoS ONE 9, no. 5 (May 13, 2014): e97126. http://dx.doi.org/10.1371/journal.pone.0097126.

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23

Li, Yan, Xiaoxu Li, and Jian G. Qin. "Triploidy induction in Australian greenlip abalone Haliotis laevigata (Donovan) with cytochalasin B." Aquaculture Research 38, no. 5 (March 2007): 487–92. http://dx.doi.org/10.1111/j.1365-2109.2007.01689.x.

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24

Mann, Karlheinz, Ingrid M. Weiss, Sabine André, Hans-Joachim Gabius, and Monika Fritz. "The amino-acid sequence of the abalone (Haliotis laevigata) nacre protein perlucin." European Journal of Biochemistry 267, no. 16 (August 2000): 5257–64. http://dx.doi.org/10.1046/j.1432-1327.2000.01602.x.

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25

Currie, Krishna-Lee, Hannah Davidson, Matthew S. Bansemer, James O. Harris, and David A. J. Stone. "Ventral Videographic Assessment of the Feeding Behavior of Juvenile Greenlip [Haliotis laevigata(Donovan, 1808)] and Hybrid (H. laevigata×Haliotis rubra) Abalone in Response to Dietary and Temperature Manipulation." Journal of Shellfish Research 35, no. 3 (October 2016): 641–51. http://dx.doi.org/10.2983/035.035.0310.

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26

Goggin, CL, and RJG Lester. "Perkinsus, a protistan parasite of abalone in Australia: A review." Marine and Freshwater Research 46, no. 3 (1995): 639. http://dx.doi.org/10.1071/mf9950639.

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Perkinsus parasites are widespread in molluscs around the world. In 1985 and 1986, a die-back of greenlip abalone, Haliotis laevigata, occurred along part of the South Australian coast. Perkinsus olseni was abundant in H. laevigata from the die-back area and widespread around the Yorke Peninsula in other hosts. After the epizootic had passed, two attempts were made to repopulate the area by transplanting adult H. laevigata; the second attempt, in 1989, appears to have been successful. Laboratory experiments showed that abalone infected with P. olseni had a higher mortality rate than did uninfected abalone and that stress such as high temperature predisposed the abalone to disease. During winter, abalone appear able to contain and possibly eliminate the infection. Molecular studies have indicated that there is a single species of Perkinsus in Australia that is widespread in abalone and bivalves from the Great Barrier Reef and South Australia but is not found in molluscs in Tasmania. This parasite, P. olseni, is similar to P. atlanticus from Portugal but different from P. marinus in North America. P. olseni was shown to be highly infectious to a range of molluscs in the laboratory. P. marinus can be cultured in vitro; this will facilitate investigation into the susceptibility of the parasite to therapeutic agents, the mechanisms of host defence, and the affinities of Perkinsus parasites isolated from Australia and elsewhere.
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27

Edwards, Steve. "Assessment of the physiological effect of altered salinity on greenlip (Haliotis laevigata ) and blacklip (Haliotis rubra ) abalone using respirometry." Aquaculture Research 34, no. 14 (November 2003): 1361–65. http://dx.doi.org/10.1046/j.1365-2109.2003.00943.x.

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28

Kurnaningtyas, Frederika Niken Restu, Ishaaq Saputra, and Eko Hendri Gunawan. "Survival and Physiological Responses of Greenlip Abalone (Haliotis laevigata) under Simulated Live Transport." Journal of Aquaculture and Fish Health 11, no. 1 (December 31, 2021): 47–56. http://dx.doi.org/10.20473/jafh.v11i1.25695.

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Greenlip abalone (Haliotis laevigata) are high-value marine bivalves. In order to preserve the quality, most of edible aquatic animals were transported in live conditions. In addition, keep the condition at low temperature is considered as the best way to reduce the stress level of the animal. However, this method is still poorly understood in greenlip abalone. The present study examines the effects of pre-cooled (±14 °C) and non-precooled (±21 °C) temperature treatments on survival and physiological responses such as total haemocyte count, phagocytic assay, lysosomal assay, and lactate of live abalone during transport simulation at time intervals of 0, 12, 24, 36 and 48 hours. Results indicated that pre-cooling treatment prior to transport increased the survival rate and minimised weight loss. The lactate levels were significantly higher in the abalones that were not cooled prior to transport. Both animals that were pre-cooled and those that were not cooled prior to aerial transport simulation showed increases in total haemocyte count and a decrease in phagocytic activity, which indicates that live transport has an impact on their immunity. The present study indicated that the importance of pre-cooling treatment before transportation to preserve the condition of live abalone.
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29

Shepherd, S. A., and L. Triantafillos. "Studies on southern Australian abalone (genus Haliotis) XVII. A chronology of H. laevigata." Molluscan Research 18, no. 2 (January 1997): 233–45. http://dx.doi.org/10.1080/13235818.1997.10673697.

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30

SHEPHERD, S. A. "Movement of the Southern Australian abalone Haliotis laevigata in relation to crevice abundance." Austral Ecology 11, no. 3 (September 1986): 295–302. http://dx.doi.org/10.1111/j.1442-9993.1986.tb01399.x.

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31

Dang, V. T., K. Benkendorff, and P. Speck. "In vitro antiviral activity against herpes simplex virus in the abalone Haliotis laevigata." Journal of General Virology 92, no. 3 (December 1, 2010): 627–37. http://dx.doi.org/10.1099/vir.0.025247-0.

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32

Wells, FE, and P. Mulvay. "Good and bad fishing areas for Haliotis laevigata: A comparison of population parameters." Marine and Freshwater Research 46, no. 3 (1995): 591. http://dx.doi.org/10.1071/mf9950591.

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On the southern coast of Western Australia, proportionately more reproductive specimens of greenlip abalone, H. laevigata, were of legal size in 'good' fishing areas than in 'bad' fishing areas. Sex ratios were usually 1:1. Maturation of the gonads began at a size of 70-90 mm shell length (SL) and by 100-110 mm SL all animals were reproductively mature. Size-specific fecundities were not statistically different among the four good fishing areas examined, nor were they between the two bad fishing areas, but size-specific fecundity was greater in good than in bad fishing areas. Spawning begins as soon as the animals are mature; there is no gap between apparent histological maturity and actual spawning. Gonads are quiescent in the first part of the calendar year. Development is rapid in August and September, when animals begin to reach ripe condition. A maximum proportion of ripe animals occurs in October and November, followed by spawning in December. There was no difference between growth rates of males and females in either the good or the bad fishing areas. The von Bertalanffy growth equation disclosed no difference in growth between good and bad fishing areas, but close inspection of the data suggested that slower growth did occur in the bad fishing areas. The abalone reach reproductive maturity at an age of 2.5 to 3 years and the legal size of 140 mm SL at 5 to 6 years.
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33

Coote, T. A., P. W. Hone, R. J. Van Barneveld, and G. B. Maguire. "Optimal protein level in a semipurified diet for juvenile greenlip abalone Haliotis laevigata." Aquaculture Nutrition 6, no. 4 (December 13, 2000): 213–20. http://dx.doi.org/10.1046/j.1365-2095.2000.006004213.x.

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34

Dunstan, Graeme A., Nick G. Elliott, Sharon A. Appleyard, Bronwyn H. Holmes, Natalie Conod, Mark A. Grubert, and Mark A. Cozens. "Culture of triploid greenlip abalone (Haliotis laevigata Donovan) to market size: Commercial implications." Aquaculture 271, no. 1-4 (October 2007): 130–41. http://dx.doi.org/10.1016/j.aquaculture.2007.06.023.

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35

Babcock, Russ, and John Keesing. "Fertilization biology of the abalone Haliotis laevigata: laboratory and field studies." Canadian Journal of Fisheries and Aquatic Sciences 56, no. 9 (1999): 1668–78. http://dx.doi.org/10.1139/cjfas-56-9-1668.

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36

Taylor, Matthew H., and Elena Tsvetnenko. "A Growth Assessment of Juvenile Abalone Haliotis laevigata Fed Enriched Macroalgae Ulva rigida." Aquaculture International 12, no. 4/5 (2004): 467–80. http://dx.doi.org/10.1023/b:aqui.0000042138.14961.c2.

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37

Liu, Yibing, Xiaoxu Li, Tong Xu, Nicholas Robinson, and Jianguang Qin. "Improvement in non-programmable sperm cryopreservation technique in farmed greenlip abalone Haliotis laevigata." Aquaculture 434 (October 2014): 362–66. http://dx.doi.org/10.1016/j.aquaculture.2014.08.033.

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38

Bansemer, Matthew S., Jian G. Qin, James O. Harris, Duong N. Duong, Thanh Hai Hoang, Gordon S. Howarth, and David A. J. Stone. "Growth and feed utilisation of greenlip abalone ( Haliotis laevigata ) fed nutrient enriched macroalgae." Aquaculture 452 (February 2016): 62–68. http://dx.doi.org/10.1016/j.aquaculture.2015.10.025.

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39

Wang, Yanhui, Mary Barton, Lisa Elliott, Xiaoxu Li, Sam Abraham, Mark O'Dea, and James Munro. "Bacteriophage therapy for the control of Vibrio harveyi in greenlip abalone (Haliotis laevigata)." Aquaculture 473 (April 2017): 251–58. http://dx.doi.org/10.1016/j.aquaculture.2017.01.003.

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40

Hooper, Celia, Rob Day, Ron Slocombe, Kirsten Benkendorff, Judith Handlinger, and Julien Goulias. "Effects of severe heat stress on immune function, biochemistry and histopathology in farmed Australian abalone (hybrid Haliotis laevigata×Haliotis rubra)." Aquaculture 432 (August 2014): 26–37. http://dx.doi.org/10.1016/j.aquaculture.2014.03.032.

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41

Reaburn, Robyn, and Steve Edwards. "Modelling the growth of cultured greenlip abalone (Haliotis laevigata Leach): practical modes of measurement." Aquaculture Research 34, no. 3 (January 31, 2003): 253–59. http://dx.doi.org/10.1046/j.1365-2109.2003.00814.x.

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42

Sairi, Fareed, Peter Valtchev, Vincent G. Gomes, and Fariba Dehghani. "Distribution and Characterization of Rhogocyte Cell Types in the Mantle Tissue of Haliotis laevigata." Marine Biotechnology 17, no. 2 (November 11, 2014): 168–79. http://dx.doi.org/10.1007/s10126-014-9605-9.

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43

Shepherd, S. A., S. M. Clarke, and A. Dalgetty. "Studies on southern Australian abalone (genus Haliotis) XIV. Growth of H. laevigata on Eyre Peninsula." Journal of the Malacological Society of Australia 13, no. 1 (August 1992): 99–113. http://dx.doi.org/10.1080/00852988.1992.10674038.

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44

Bubner, Erin J., James O. Harris, and Toby F. Bolton. "Supplementary oxygen and temperature management during live transportation of greenlip abalone,Haliotis laevigata(Donovan, 1808)." Aquaculture Research 40, no. 7 (April 2009): 810–17. http://dx.doi.org/10.1111/j.1365-2109.2009.02167.x.

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45

Currie, Krishna-Lee, Mark Purvis, Matthew Bansemer, James O. Harris, and David A. J. Stone. "Dietary inclusion of Acti-Meal improves growth and feed utilisation of greenlip abalone (Haliotis laevigata)." Aquaculture 498 (January 2019): 364–70. http://dx.doi.org/10.1016/j.aquaculture.2018.08.074.

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46

Hoang, Thanh H., Jian G. Qin, David A. J. Stone, James O. Harris, Duong N. Duong, and Matthew S. Bansemer. "Colour changes of greenlip abalone (Haliotis laevigata Donovan) fed fresh macroalgae and dried algal supplement." Aquaculture 456 (April 2016): 16–23. http://dx.doi.org/10.1016/j.aquaculture.2016.01.022.

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47

DAUME, SABINE, MARK DAVIDSON, STEPHEN RYAN AND, and FIONA PARKER. "COMPARISONS OF REARING SYSTEMS BASED ON ALGAE OR FORMULATED FEED FOR JUVENILE GREENLIP ABALONE (HALIOTIS LAEVIGATA)." Journal of Shellfish Research 26, no. 3 (September 2007): 729–35. http://dx.doi.org/10.2983/0730-8000(2007)26[729:corsbo]2.0.co;2.

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48

Duong, Duong N., David A. J. Stone, Jian G. Qin, Matthew S. Bansemer, and James O. Harris. "‘Energy budgets for greenlip abalone ( Haliotis laevigata Donovan) fed live macroalgae compared to commercial formulated diets’." Aquaculture Research 51, no. 12 (September 2020): 4948–60. http://dx.doi.org/10.1111/are.14832.

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Dang, Vinh T., Yan Li, Peter Speck, and Kirsten Benkendorff. "Effects of micro and macroalgal diet supplementations on growth and immunity of greenlip abalone, Haliotis laevigata." Aquaculture 320, no. 1-2 (October 2011): 91–98. http://dx.doi.org/10.1016/j.aquaculture.2011.08.009.

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Stone, David A. J., Matthew S. Bansemer, Brett Lange, Elise N. Schaefer, Gordon S. Howarth, and James O. Harris. "Dietary intervention improves the survival of cultured greenlip abalone (Haliotis laevigata Donovan) at high water temperature." Aquaculture 430 (June 2014): 230–40. http://dx.doi.org/10.1016/j.aquaculture.2014.03.047.

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