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Artykuły w czasopismach na temat „Wobbegong shark”

Autor: Grafiati
Data publikacji: 4 czerwca 2021
Data aktualizacji: 9 lutego 2022

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1

Huveneers, Charlie, Nicholas M. Otway, Susan E. Gibbs i Robert G. Harcourt. "Quantitative diet assessment of wobbegong sharks (genus Orectolobus) in New South Wales, Australia". ICES Journal of Marine Science 64, nr 6 (21.07.2007): 1272–81. http://dx.doi.org/10.1093/icesjms/fsm111.

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Abstract Huveneers, C., Otway, N. M., Gibbs, S. E., and Harcourt, R. G. 2007. Quantitative diet assessment of wobbegong sharks (genus Orectolobus) in New South Wales, Australia. – ICES Journal of Marine Science, 64: 1272–1281. The diets of three species of wobbegong (Orectolobus ornatus, O. maculatus, and O. halei) in New South Wales, Australia, were investigated using stomach contents from specimens caught by commercial fishers. Some 80% of wobbegongs caught by commercial setline, and 60% caught by trap or scuba diving, had empty stomachs, most likely due to regurgitation. Wobbegongs were frequently hooked in the stomach (80–90% of the catch), potentially contributing to the greater proportion of empty stomachs compared with other species of shark. The diet of all three species was primarily osteichthyans, but with some cephalopods and chondrichthyans. Interspecific differences in the diets were related to total length of the shark. Octopuses were more frequent in the diet of O. ornatus (dwarf ornate wobbegong) than other wobbegong species, possibly through the smaller adult size facilitating capture of octopuses in small holes/crevices. Orectolobus halei fed more frequently on pelagic species and chondrichthyans, possibly because of their greater mobility. Wobbegongs feed at a high trophic level, and their removal from their ecosystem may impact lower trophic levels.
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Huveneers, Charlie, Terence I. Walker, Nicholas M. Otway i Robert G. Harcourt. "Reproductive synchrony of three sympatric species of wobbegong shark (genus Orectolobus) in New South Wales, Australia: reproductive parameter estimates necessary for population modelling". Marine and Freshwater Research 58, nr 8 (2007): 765. http://dx.doi.org/10.1071/mf06187.

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Reproductive parameters of three closely-related sympatric species of wobbegong (Orectolobus ornatus, O. maculatus and O. halei) off New South Wales (NSW) were investigated to contribute to a biological basis for the management of a commercial fishery targeting wobbegongs. Estimates of the onset of maturity based on ovary condition were 729 mm, 1117 mm, and 1591 mm total length (TL) for O. ornatus, O. maculatus and O. halei respectively. The length at which 50% of the male population is mature based on clasper calcification was 803 mm, 1282 mm and 1784 mm TL for O. ornatus, O. maculatus and O. halei, respectively, and was similar to female onset of maturity based on uterus condition and to TL-at-maternity. These species of wobbegong had synchronous, triennial reproductive cycles. Follicles took 2 years to enlarge before ovulation. During the first year, follicles remained small, and then grew rapidly during the second year before ovulation during November. Gestation lasted ~10–11 months and parturition occurred during September–October. Mean litter sizes were nine (s.e. 0.5) and 21 (s.e. 1.5) for O. ornatus and O. maculatus, respectively, and increased with female total length in O. ornatus. Pregnant O. ornatus and O. maculatus were frequently caught in northern NSW and no pregnant wobbegongs, or females with large, yolky follicles were captured south of Sydney. Differences in the reproductive conditions of wobbegongs caught in northern and central NSW suggested geographically dependent reproductive behaviour. Knowledge of the reproductive parameters provided in this paper is necessary for adequate fisheries management and species conservation assessments.
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Egeberg, Channing A., Ryan M. Kempster, Susan M. Theiss, Nathan S. Hart i Shaun P. Collin. "The distribution and abundance of electrosensory pores in two benthic sharks: a comparison of the wobbegong shark, Orectolobus maculatus, and the angel shark, Squatina australis". Marine and Freshwater Research 65, nr 11 (2014): 1003. http://dx.doi.org/10.1071/mf13213.

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Electroreception is an ancient sense found in many aquatic animals, including sharks, which may be used in the detection of prey, predators and mates. Wobbegong sharks (Orectolobidae) and angel sharks (Squatinidae) represent two distantly related families that have independently evolved a similar dorso-ventrally compressed body form to complement their benthic ambush feeding strategy. Consequently, these groups represent useful models in which to investigate the specific morphological and physiological adaptations that are driven by the adoption of a benthic lifestyle. In this study, we compared the distribution and abundance of electrosensory pores in the spotted wobbegong shark (Orectolobus maculatus) with the Australian angel shark (Squatina australis) to determine whether both species display a similar pattern of clustering of sub-dermal electroreceptors and to further understand the functional importance of electroreception in the feeding behaviour of these benthic sharks. Orectolobus maculatus has a more complex electrosensory system than S. australis, with a higher abundance of pores and an additional cluster of electroreceptors positioned in the snout (the superficial ophthalmic cluster). Interestingly, both species possess a cluster of pores (the hyoid cluster, positioned slightly posterior to the first gill slit) more commonly found in rays, but which may be present in all benthic elasmobranchs to assist in the detection of approaching predators.
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4

LAST, PETER R., i JUSTIN A. CHIDLOW. "Two new wobbegong sharks, Orectolobus floridus sp. nov. and O. parvimaculatus sp. nov. (Orectolobiformes: Orectolobidae), from southwestern Australia". Zootaxa 1673, nr 1 (4.01.2008): 49. http://dx.doi.org/10.11646/zootaxa.1673.1.2.

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Two new Orectolobus species, collected from the continental shelf off southwestern Australia as bycatch of a regional shark fishery, are described and figured. Orectolobus floridus sp. nov., which has a striking colour pattern of yellowish brown bands, blotches, spots and reticulations, occurs between Geraldton and Augusta at depths of 42–85 m. Orectolobus parvimaculatus sp. nov., another small, colourful wobbegong shark, which is sympatric with O. floridus and three other congeners, has been confused with a larger, more widespread wobbegong, O. maculatus. Orectolobus parvimaculatus occurs between Green Head and Mandurah at depths of 9–108 m. The new species differ from other Orectolobus species and each other by a combination of colour, morphology, body measurements and meristics.
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LAST, PETER R., JUSTIN A. CHIDLOW i LEONARD J. V. COMPAGNO. "A new wobbegong shark, Orectolobus hutchinsi n. sp. (Orectolobiformes: Orectolobidae) from southwestern Australia". Zootaxa 1239, nr 1 (21.06.2006): 35. http://dx.doi.org/10.11646/zootaxa.1239.1.3.

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Orectolobus hutchinsi n. sp.. is a moderate-sized wobbegong shark found in shallow continental shelf habitats off Western Australia. It occurs from Coral Bay (near North West Cape) south to Groper Bluff (west of Bremer Bay) in depths of 9–106 m where it is caught as by-catch of local gillnet, longline, rock lobster and recreational fisheries. It is sympatric with two other commercial wobbegong species, Orectolobus maculatus and O. ornatus, but differs from these and other IndoPacific species in having the combination of a few unbranched dermal lobes, relatively tall dorsal fins, no warty tubercles on the back of adults, and dark brown corrugated saddles without white spots and blotches. Some details of its biology are also provided.
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6

Corrigan, Shannon, i Luciano B. Beheregaray. "A recent shark radiation: Molecular phylogeny, biogeography and speciation of wobbegong sharks (family: Orectolobidae)". Molecular Phylogenetics and Evolution 52, nr 1 (lipiec 2009): 205–16. http://dx.doi.org/10.1016/j.ympev.2009.03.007.

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7

Ellis, Megan T., i Nicholas M. Otway. "Uterine fluid composition of the dwarf ornate wobbegong shark (Orectolobus ornatus) during gestation". Marine and Freshwater Research 62, nr 6 (2011): 576. http://dx.doi.org/10.1071/mf10138.

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Low fecundity in chondrichthyans makes them extremely susceptible to fishing, so understanding the various reproductive strategies in this group is vital for management. Knowledge of the uterine fluid (UF) composition throughout gestation is fundamental to this understanding, yet is restricted to a few species. This study focussed on the UF composition of the wobbegong (Orectolobus ornatus), which inhabits coastal waters off eastern Australia. The UF was quantified throughout pregnancy. Fluids surrounding uterine eggs had a complex composition, with mean urea (98.48 mmol L–1), sodium (560.25 mmol L–1) and potassium (13.93 mmol L–1) concentrations significantly greater than those in seawater. A change in composition, from complex to simple, occurred after 3–4 months gestation. Major electrolyte concentrations then resembled seawater for the remainder of gestation, suggesting the flushing of the uteri with seawater and evidenced by fluctuating low levels of urea. The gestation period reflected the time for metabolism of yolk stores, osmotic and ionic adjustment, development of functioning immunological systems and prevention of external yolk sac damage. Our study is the first documentation of UF composition for a wobbegong shark and increases understanding of its reproductive biology.
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8

Theiss, Susan M., Shaun P. Collin i Nathan S. Hart. "The mechanosensory lateral line system in two species of wobbegong shark (Orectolobidae)". Zoomorphology 131, nr 4 (7.06.2012): 339–48. http://dx.doi.org/10.1007/s00435-012-0161-4.

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9

Butler, SA. "Taxonomy of Some Tetraphyllidean Cestodes From Elasmobranch Fishes". Australian Journal of Zoology 35, nr 4 (1987): 343. http://dx.doi.org/10.1071/zo9870343.

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Rhinebothrium pearsoni, sp nov., is described from Banks' shovelnosed ray, Aptychotrema banksii (Muller & Henle). PhyNobothrium orectolobi, sp. nov., is described from the wobbegong, Orectolobus maculatus (Bonnaterre). Anthobothrium amuleturn, sp nov., is described from the common shovel- nosed ray, Rhinobatos armatus (Gray). Pedibothrium ottleyi, sp. nov., is described from the zebra shark, Stegostoma tigrinum (Pennant), and the genus Pedibothrium Linton, 1909, is emended. Calliobothrium creeveyae, sp. nov., is described from the school shark, Galeorhinus australis (Macleay). Polypocephalus moretonensis, sp nov., is described from the estuary stingray, Dasyatis fluviorum Ogilby. Tylocephalum carnpanulatum, sp. nov., is described from the shark ray, Rhina ancylostomus Bloch & Schneider. Also described are a species of Balanobothrium Hornell, 1912, from S. tigrinum; a species of Cathetocephalus Dailey & Overstreet, 1973, and a species of Discocephalum Linton, 1890, from the black-tip shark, Carcharhinus spallanzani (Le Sueur), and Hornellobothrium cobraformis Shipley & Hornell, 1906, from the spotted eagle-ray, Aetobatis narinari (Euphrasen).
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10

Buddle, Alice L., Nicholas M. Otway, James U. Van Dyke, Michael B. Thompson, Christopher R. Murphy, Samson N. Dowland, Colin A. Simpfendorfer, Megan T. Ellis i Camilla M. Whittington. "Structural changes to the uterus of the dwarf ornate wobbegong shark ( Orectolobus ornatus ) during pregnancy". Journal of Morphology 281, nr 4-5 (7.02.2020): 428–37. http://dx.doi.org/10.1002/jmor.21109.

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Chidlow, Justin A., Colin A. Simpfendorfer i Garry R. Russ. "Variable growth band deposition leads to age and growth uncertainty in the western wobbegong shark, Orectolobus hutchinsi". Marine and Freshwater Research 58, nr 9 (2007): 856. http://dx.doi.org/10.1071/mf06249.

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Age and growth parameters of Orectolobus hutchinsi were estimated using micro-radiographs of sectioned vertebrae from 182 wild caught individuals. Two fluorochrome marker dyes, calcein and oxytetracycline, were used to validate the timing and periodicity of vertebral band formation in nine individuals held in the laboratory for between 423 and 472 days. Growth bands were difficult to interpret and final counts were obtained from only 98 (53.8%) individuals ranging in total length (TL) from 63 to 146 cm. The timing of growth band formation in the vertebrae of captive animals had no predictable temporal pattern, with formation occurring during all seasons of the year, making age validation difficult. Growth band formation was hypothesised to be influenced by non-periodic changes in centrum or somatic growth rather than seasonal growth, as observed in many other elasmobranch species. Growth rates of nine O. hutchinsi held in captivity varied considerably, ranging from 3.5 cm year–1 to 13.8 cm year–1 in total length (mean = 7.03 cm year–1). Although the periodicity of vertebral band formation in captive animals did not support a synchronous annual pattern, captive growth rates matched those predicted when an annual band pattern was assumed for wild caught individuals. Von Bertalanffy growth parameters estimated from vertebral analysis assuming an annual banding pattern and a mean size of birth of 24.1 cm were: L∞ = 149.45 cm and K = 0.117 year–1 for both sexes combined. These results illustrate the fundamental importance of validating the periodicity of growth band formation in elasmobranch age and growth studies as it has considerable implications for the management of fisheries that exploit shark and ray species that may exhibit asynchronous growth band deposition.
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12

Carraro, Robert, i William Gladstone. "Habitat Preferences and Site Fidelity of the Ornate Wobbegong Shark (Orectolobus ornatus) on Rocky Reefs of New South Wales". Pacific Science 60, nr 2 (2006): 207–23. http://dx.doi.org/10.1353/psc.2006.0003.

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13

LITHERLAND, LENORE, i SHAUN P. COLLIN. "Comparative visual function in elasmobranchs: Spatial arrangement and ecological correlates of photoreceptor and ganglion cell distributions". Visual Neuroscience 25, nr 4 (lipiec 2008): 549–61. http://dx.doi.org/10.1017/s0952523808080693.

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AbstractThe topographic analysis of retinal ganglion and photoreceptor cell distributions yields valuable information for assessing the visual capabilities and behavioral ecology of vertebrates. This study examines whole-mounted retinas of four elasmobranch species, the ornate wobbegong, Orectolobus ornatus; the whitetip reef shark, Triaenodon obesus; the epaulette shark, Hemiscyllium ocellatum; and the east Australia shovelnose ray, Aptychotrema rostrata, for regional specializations mediating zones of improved visual ability. These species represent a range of lifestyles: benthic, mid-water, diurnal, and nocturnal. Both photoreceptors (visualized using differential interference contrast optics) and ganglion cells (stained with cresyl violet) in the retina are extensively sampled, and their spatial distribution is found to be nonuniform, exhibiting areae or “visual streaks.” In general, the topographic distributions of both cell populations are in register and match well with respect to the location of regions of high density. However, the location of peaks in rod and cone densities can vary within a retina, indicating that preferential sampling of different regions of the visual field may occur in photopic and scotopic vision. Anatomical measures of the optical limits of resolving power, indicated by intercone spacing, range from 3.8 to 13.1 cycles/deg. Spatial limits of resolving power, calculated from ganglion cell spacing, range from 2.6 to 4.3 cycles/deg. Summation ratios, assessed by direct comparison of cell densities of photoreceptors (input cells) and ganglion cells (output cells), at more than 150 different loci across the retina, show topographic differences in signal convergence (ranging from 25:1 to over 70:1). Species-specific retinal specializations strongly correlate to the habitat and feeding behavior of each species.
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Theiss, Susan M., Shaun P. Collin i Nathan S. Hart. "Interspecific Visual Adaptations among Wobbegong Sharks (Orectolobidae)". Brain, Behavior and Evolution 76, nr 3-4 (2010): 248–60. http://dx.doi.org/10.1159/000321330.

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Ceccarelli, D. M., i D. H. Williamson. "Sharks that eat sharks: opportunistic predation by wobbegongs". Coral Reefs 31, nr 2 (4.02.2012): 471. http://dx.doi.org/10.1007/s00338-012-0878-z.

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Corrigan, Shannon, Charlie Huveneers, Adam Stow i Luciano B. Beheregaray. "A multilocus comparative study of dispersal in three codistributed demersal sharks from eastern Australia". Canadian Journal of Fisheries and Aquatic Sciences 73, nr 3 (marzec 2016): 406–15. http://dx.doi.org/10.1139/cjfas-2015-0085.

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Demersal elasmobranchs are ecologically important mesopredators but little is known about their population connectivity or dispersal patterns. Here we use a comparative approach based on mitochondrial DNA and nuclear amplified fragment length polymorphism (AFLP) markers to examine spatial genetic structure and dispersal in three closely related demersal elasmobranchs from eastern Australia: Orectolobus halei, Orectolobus maculatus, and Orectolobus ornatus. We found evidence of significant spatial genetic structure, possibly indicating regional philopatry in wobbegongs. The molecular data also indicate that dispersal in wobbegongs may be sex-biased. This represents the first genetic study of dispersal and population connectivity in codistributed demersal sharks. It provides insights into the ecology of dispersal behaviours with implications for conservation management of demersal species.
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Theiss, Susan M., Nathan S. Hart i Shaun P. Collin. "Morphological Indicators of Olfactory Capability in Wobbegong Sharks (Orectolobidae, Elasmobranchii)". Brain, Behavior and Evolution 73, nr 2 (2009): 91–101. http://dx.doi.org/10.1159/000209865.

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Theiss, Susan M., Wayne I. L. Davies, Shaun P. Collin, David M. Hunt i Nathan S. Hart. "Cone monochromacy and visual pigment spectral tuning in wobbegong sharks". Biology Letters 8, nr 6 (19.09.2012): 1019–22. http://dx.doi.org/10.1098/rsbl.2012.0663.

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Much is known regarding the evolution of colour vision in nearly every vertebrate class, with the notable exception of the elasmobranchs. While multiple spectrally distinct cone types are found in some rays, sharks appear to possess only a single class of cone and, therefore, may be colour blind. In this study, the visual opsin genes of two wobbegong species, Orectolobus maculatus and Orectolobus ornatus , were isolated to verify the molecular basis of their monochromacy. In both species, only two opsin genes are present, RH1 (rod) and LWS (cone), which provide further evidence to support the concept that sharks possess only a single cone type. Examination of the coding sequences revealed substitutions that account for interspecific variation in the photopigment absorbance spectra, which may reflect the difference in visual ecology between these species.
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Otway, Nicholas M., Megan T. Ellis i Rod Starr. "Serum biochemical reference intervals for wild dwarf ornate wobbegong sharks (Orectolobus ornatus)". Veterinary Clinical Pathology 40, nr 3 (26.07.2011): 361–67. http://dx.doi.org/10.1111/j.1939-165x.2011.00330.x.

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Theiss, Susan M., Shaun P. Collin i Nathan S. Hart. "Morphology and distribution of the ampullary electroreceptors in wobbegong sharks: implications for feeding behaviour". Marine Biology 158, nr 4 (4.12.2010): 723–35. http://dx.doi.org/10.1007/s00227-010-1595-1.

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Huveneers, C., N. M. Otway, R. G. Harcourt i M. Ellis. "Quantification of the maternal-embryonal nutritional relationship of elasmobranchs: case study of wobbegong sharks (genus Orectolobus)". Journal of Fish Biology 78, nr 5 (6.04.2011): 1375–89. http://dx.doi.org/10.1111/j.1095-8649.2011.02938.x.

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Braccini, Matias, Eva Lai, Karina Ryan i Stephen Taylor. "Recreational Harvest of Sharks and Rays in Western Australia Is Only a Minor Component of the Total Harvest". Sustainability 13, nr 11 (31.05.2021): 6215. http://dx.doi.org/10.3390/su13116215.

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Sharks and rays are a global conservation concern with an increasing number of species considered at risk of extinction, mostly due to overfishing. Although the recreational harvest of sharks and rays is poorly documented and generally minimal, it can be comparable to the commercial harvest. In this study, we quantified the recreational harvest of sharks and rays in Western Australia, a region with a marine coastline greater than 20,000 km. A total of 33 species/taxonomic groups were identified, with the harvest dominated by dusky and bronze whalers, blacktip reef sharks, gummy sharks, Port Jackson sharks, wobbegongs, and rays and skates. Eighty-five percent of individuals were released with an unknown status (alive or dead). We found a latitudinal gradient of species composition, with tropical and subtropical species of the genus Carcharhinus dominating in the north and temperate species from a range of families dominating in the south. Overall, our findings showed that the recreational harvest was negligible when compared with commercial landings.
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Huveneers, Charlie, Joanna Stead, Michael B. Bennett, Kate A. Lee i Robert G. Harcourt. "Age and growth determination of three sympatric wobbegong sharks: How reliable is growth band periodicity in Orectolobidae?" Fisheries Research 147 (październik 2013): 413–25. http://dx.doi.org/10.1016/j.fishres.2013.03.014.

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Huveneers, Charlie, Kehui Luo, Nick M. Otway i Robert G. Harcourt. "Assessing the distribution and relative abundance of wobbegong sharks (Orectolobidae) in New South Wales, Australia, using recreational scuba-divers". Aquatic Living Resources 22, nr 3 (lipiec 2009): 255–64. http://dx.doi.org/10.1051/alr/2009046.

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Nuttall, Stewart D., Usha V. Krishnan, Meghan Hattarki, Ross De Gori, Robert A. Irving i Peter J. Hudson. "Isolation of the new antigen receptor from wobbegong sharks, and use as a scaffold for the display of protein loop libraries". Molecular Immunology 38, nr 4 (sierpień 2001): 313–26. http://dx.doi.org/10.1016/s0161-5890(01)00057-8.

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Old, J. M., i C. Huveneers. "Morphology of the blood cells from three species of wobbegong sharks (Orectolobus species) on the east coast of New South Wales". Zoo Biology 25, nr 1 (styczeń 2006): 73–82. http://dx.doi.org/10.1002/zoo.20079.

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HUVENEERS, Charlie, Nicholas M. OTWAY, Megan T. STORRIE i Robert G. HARCOURT. "Embryonic Growth and Maternal-embryo Nutritional Relationship of Wobbegong Sharks (genus Orectolobus)". Journal of Reproduction and Development, 2009. http://dx.doi.org/10.1262/jrd.20144.

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