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Journal articles on the topic 'Abalones – Western Australia – Perth'

Author: Grafiati
Published: 4 June 2021
Last updated: 12 February 2022

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1

Chen, Li, and John Ryan. "Abalone in Diasporic Chinese Culture: The Transformation of Biocultural Traditions through Engagement with the Western Australian Environment." Heritage 1, no. 1 (July 19, 2018): 122–41. http://dx.doi.org/10.3390/heritage1010009.

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In October 2017, the Department of Primary Industries and Regional Development of Western Australia (WA) promulgated a new regulation on recreational abalone harvesting. A notable change was that, from 2017 on, the annual fishing season in the West Coast Zone was reduced to four days, from every December on Saturdays only. During the last decade, WA’s abalone fishing regulations have been overhauled frequently because of depleting local stocks. Worldwide, the marine heatwave resulting from climate change and illegal overfishing are considered the two principal reasons for abalone’s decline. Today, the highly lucrative abalone market has attracted more participants in recreational fishing in Perth, WA. Based on Asian natural heritage traditions and employing a multispecies sensory ethnographic methodology, this article provides an in-depth case study of the interaction between the local Chinese diaspora and the environment as represented in abalone harvesting practices. Between 2014 and 2016, the authors conducted one-on-one and focus group interviews with Chinese immigrants to Perth, WA, and also participated in abalone harvesting. The analysis reveals a suite of environmental influences on local Chinese diasporic life through heterogeneous forms of interaction between abalone and Perth-area Chinese immigrants.
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2

HANCOCK, BOZE, and NICK CAPUTI. "THE ROE'S ABALONE FISHERY NEAR THE PERTH METROPOLITAN AREA, WESTERN AUSTRALIA." Journal of Shellfish Research 25, no. 1 (April 2006): 167–78. http://dx.doi.org/10.2983/0730-8000(2006)25[167:trafnt]2.0.co;2.

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3

Scheibling, RE, T. Evans, P. Mulvay, T. Lebel, D. Williamson, and S. Holland. "Commensalism Between an Epizoic Limpet, Patelloida nigrosulcata, and Its Gastropod Hosts, Haliotis roei and Patella laticostata, on Intertidal Platforms off Perth, Western Australia." Marine and Freshwater Research 41, no. 5 (1990): 647. http://dx.doi.org/10.1071/mf9900647.

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On intertidal limestone platforms off Perth and neighbouring islands, the limpet Patelloida nigrosulcata occurs only on the shells of living abalone (Haliotis roei) and other limpets (Patella laticostata). The incidence of commensalism varies among sites and between habitats within sites but is consistently high (> 80%) among dense abalone populations along the seaward margin of platforms. There is usually only 1 limpet per shell, although 2 or 3 limpets occasionally co-occur. A strong positive relationship in size (shell length) between Patelloida nigrosulcata and H. roei indicates that limpets settle on juvenile abalone and grow at a rate proportional to the growth rate of their host. A similar size relationship exists between Patelloida nigrosulcata and Patella laticostata. Patelloida nigrosulcata forages diurnally from a home scar and markedly limits the growth of erect macroalgae on the host shell. Escape from intense interspecific competition with other molluscan grazers on the platforms may have been a strong selective force in the evolution of this commensal relationship.
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4

Kennewell, Catherine, and Brian J. Shaw. "Perth, Western Australia." Cities 25, no. 4 (August 2008): 243–55. http://dx.doi.org/10.1016/j.cities.2008.01.002.

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5

RAYNE, OLIVE. "Western Australia-The Perth School." Australian Occupational Therapy Journal 13, no. 2 (August 27, 2010): 25–26. http://dx.doi.org/10.1111/j.1440-1630.1966.tb00172.x.

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6

Twomey, Lance. "Brian Clifford Edwards Born Perth Western Australia—January 1941 Died Perth Western Australia—November 2003." Manual Therapy 9, no. 2 (May 2004): 114–15. http://dx.doi.org/10.1016/j.math.2004.01.007.

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7

Prata, A. J., and L. Burgel. "UNUSUAL CLOUDS OVER PERTH, WESTERN AUSTRALIA." Weather 41, no. 10 (October 1986): 320–27. http://dx.doi.org/10.1002/j.1477-8696.1986.tb03758.x.

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8

MOIR, JOHN. "REGIONAL PARKS IN PERTH, WESTERN AUSTRALIA." Australian Planner 32, no. 2 (January 1995): 88–95. http://dx.doi.org/10.1080/07293682.1995.9657667.

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9

Ghori, K. Ameed R. "Petroleum source rocks of Western Australia." APPEA Journal 58, no. 1 (2018): 282. http://dx.doi.org/10.1071/aj17051.

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Petroleum geochemical analysis of samples from the Canning, Carnarvon, Officer and Perth basins identified several formations with source potential, the: • Triassic Locker Shale and Jurassic Dingo Claystone of the Northern Carnarvon Basin; • Permian Irwin River Coal Measures and Carynginia Formation, Triassic Kockatea Shale and Jurassic Cattamarra Coal Measures of the Perth Basin; • Ordovician Goldwyer and Bongabinni formations, Devonian Gogo Formation and Lower Carboniferous Laurel Formation of the Canning Basin; • Devonian Gneudna Formation of the Gascoyne Platform and the Lower Permian Wooramel and Byro groups of the Merlinleigh Sub-basin of the Southern Carnarvon Basin; and • Neoproterozoic Brown, Hussar, Kanpa and Steptoe formations of the Officer Basin. Burial history and geothermal basin modelling was undertaken using input parameters from geochemical analyses of rock samples, produced oil, organic petrology, apatite fission track analysis (AFTA), heat flows, subsurface temperatures and other exploration data compiled by the Geological Survey of Western Australia (GSWA). Of these basins, the Canning, Carnarvon, and Perth basins are currently producing oil and gas, whereas the Southern Carnarvon and Officer basins have no commercial petroleum discovery yet, but they do have source, reservoir, seal and petroleum shows indicating the presence of petroleum systems. The Carnarvon Basin contains the richest identified petroleum source rocks, followed by the Perth and Canning basins. Production in the Carnarvon Basin is predominantly gas and oil, the Perth Basin is gas-condensate and the Canning Basin is oil dominated, demonstrating the variations in source rock type and maturity across the state. GSWA is continuously adding new data to assess petroleum systems and prospectivity of these and other basins in Western Australia.
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10

Postle, Barbara. "Curtin University of Technology, Perth, Western Australia." Health Information Management 31, no. 4 (December 2003): 10–11. http://dx.doi.org/10.1177/183335830303100404.

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11

Murray‐Wallace, C. V., and R. W. L. Kimber. "Quaternary marine aminostratigraphy: Perth Basin, Western Australia." Australian Journal of Earth Sciences 36, no. 4 (December 1989): 553–68. http://dx.doi.org/10.1080/08120098908729509.

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12

Hickson, David. "The Alexander Library Building, Perth, Western Australia." Australian Library Journal 34, no. 3 (January 1985): 5–19. http://dx.doi.org/10.1080/00049670.1985.10755520.

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13

Austin, C. R. "The surrogate triplets of Perth, Western Australia." Human Reproduction 4, no. 3 (April 1989): 346. http://dx.doi.org/10.1093/oxfordjournals.humrep.a136903.

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14

Miller Jr., Orson K. "New species of Amanita from Western Australia." Canadian Journal of Botany 69, no. 12 (December 1, 1991): 2692–703. http://dx.doi.org/10.1139/b91-338.

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Eleven new species of Amanita, Amanitaceae, are described from the southern Eucalyptus-dominated forests of Western Australia. One distinctive species is referred to subgenus Amanita, section Amanita. The other 10 species are members of the subgenus Lepidella, 5 in section Lepidella, 2 in section Validae, and 3 in section Phalloidae. All 11 species were fruiting in native Eucalyptus forests from 247 km north of Perth to Albany, 424 km south of Perth, on the southern coast. Key words: Basidiomycetes, Amanitaceae, Amanita, Eucalyptus, Western Australia.
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15

Farquhar, Misty, and Duc Dau. "Real, visible, here: Bisexual+ visibility in Western Australia." Critical Social Policy 40, no. 2 (January 11, 2020): 258–78. http://dx.doi.org/10.1177/0261018319895674.

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The authors of the article run Bisexual+ Community Perth, a grassroots collective that works to increase bisexual+ visibility and community connection in Western Australia. This article begins by providing an evidence-base for bisexual+ activism, much of it based on the poorer mental health outcomes of bisexual+ people and the pervasive invisibility of bisexual+ people in both LGBTIQ+ communities and activism. Drawing on the work of Bisexual+ Community Perth, the article then offers a practical example of community-building as activism. It explores how collective mobilisation, bridge building, and alliances can be leveraged to make a difference in a local context, and discusses some of the challenges faced in sustaining this work. Throughout the article, the lived experiences of Bisexual+ Community Perth members are included to bring a richness to our account of the work, and to increase empathy towards bisexual+ people in general.
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16

Emerson, Gregory M., Norman McL Gray, George A. Jelinek, David Mountain, and Helen J. Mead. "Organophosphate poisoning in perth, western australia, 1987–1996." Journal of Emergency Medicine 17, no. 2 (March 1999): 273–77. http://dx.doi.org/10.1016/s0736-4679(98)00191-7.

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17

Reid, Donald B. "The Community Hospice Doctor in Perth, Western Australia." Journal of Palliative Care 5, no. 4 (December 1989): 32–34. http://dx.doi.org/10.1177/082585978900500406.

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18

Lemm, A. J., B. J. Hegge, and G. Masselink. "Offshore wave climate, Perth (Western Australia), 1994 - 96." Marine and Freshwater Research 50, no. 2 (1999): 95. http://dx.doi.org/10.1071/mf98081.

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The offshore wave climate of Perth (Western Australia) was analysed by using 2.5 years of non-directional 20-min wave data collected from March 1994 to August 1996. The mean wave conditions are characterized by a significant wave height (Hs) of 2.0 m and a spectral mean wave period (Tm) of 8.8 s. However, considerable annual variation in the wave conditions is experienced because of a distinct seasonality in the regional wind regime. During summer, daily sea breezes generate moderate seas (ambient Hs 1 to 2 m; Tm <8 s). During winter, frequent storms associated with mid-latitude depressions generate heavy seas and swell (ambient Hs 1.5 to 2.5 m; Tm >8 s). A low-amplitude background swell (Hs ~0.5 m), generated distantly in the Indian and Southern Oceans, is present all year round. Analysis of extreme wave conditions (Hs >4 m) indicates that, on average, 30 storms are experienced annually, and the storms are most frequent and intense during July. Estimates of extreme Hs, based on all available offshore wave data (12 years, 1975–96), for 1- and 100-year return periods, are 6.7 m and 9.8 m, respectively.
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19

Campanelli, Michael. "Pioneering in Perth: Art Therapy in Western Australia." Art Therapy 13, no. 2 (April 1996): 131–35. http://dx.doi.org/10.1080/07421656.1996.10759209.

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20

COX, B. G., K. J. KELSALL, J. K. WATERHOUSE, T. G. HAMMOND, A. P. GOUDY, B. WATERS, M. D. MCKEMEY, et al. "CAPE PERON OCEAN OUTLET, PERTH, WESTERN AUSTRALIA. DISCUSSION." Proceedings of the Institution of Civil Engineers 82, no. 2 (April 1987): 467–78. http://dx.doi.org/10.1680/iicep.1987.404.

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21

Schibeci, R. A. "Patterns of Media Use in Perth, Western Australia." Media Information Australia 52, no. 1 (May 1989): 50–52. http://dx.doi.org/10.1177/1329878x8905200112.

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22

Mallal, Simon A. "The Western Australian HIV Cohort Study, Perth, Australia." Journal of Acquired Immune Deficiency Syndromes & Human Retrovirology 17 (1998): S23—S27. http://dx.doi.org/10.1097/00042560-199801001-00008.

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23

Samec, Ernie, and Barrie Melotte. "FORREST PLACE/CITY STATION REDEVELOPMENT, PERTH, WESTERN AUSTRALIA." Australian Planner 27, no. 1 (March 1989): 12–20. http://dx.doi.org/10.1080/07293682.1989.9657406.

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24

Indermaur, David. "Public perception of sentencing in Perth, Western Australia." Australian & New Zealand Journal of Criminology 20, no. 3 (September 1987): 163–83. http://dx.doi.org/10.1177/000486588702000304.

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The present study replicates some of the key findings of earlier “revisionist” studies of public attitude towards the punishment of offenders: 554 Perth residents were interviewed from a sample frame of 800. Most respondents overestimated the amount of crime which involves violence, and tended to see the murder rate as “increasing” when it is not. Most (76%) said that sentences “are not severe enough”. However, 80% of these reported that they were thinking of a violent criminal when answering that question. It is suggested that general questions about crime may essentially reflect respondent concern about violence. The second part of the interview involved a split sample designed to test differences in responses to two types of item presentation. Approximately half the sample (288) were asked to chose a penalty they considered appropriate for three offences. The other half were given brief descriptions of the offence and the offender and then asked to choose an appropriate penalty. The minimum sentences were significantly lower for the group given the case descriptions. The results are interpreted as suggesting that public responses to questions of punishment are largely influenced by stereotypes. A good deal of acceptance was found for proposed alternatives to imprisonment. The most popular (75%) said “year, in all or most cases”) was the use of attendance centres. Most respondents also favoured programmes for fine defaulters, on-the-spot fines for petty offences and a day fine system “in all or most cases”. The implications of the results are discussed in terms of survey methodology and sentencing reform.
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25

Ghori, K. Ameed. "Petroleum data: leading the search for geothermal resources in Western Australia." APPEA Journal 49, no. 1 (2009): 365. http://dx.doi.org/10.1071/aj08022.

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In Western Australian basins, subsurface drill-hole data, primarily from petroleum exploration, allows the identification of regions of high temperature at depth that may be potential geothermal resources. The extent and economic viability of such resources remain poorly known and require further study. Observed temperatures at depths up to 4.5 km reach 150°C in parts of the Canning, Carnarvon and Perth basins, indicating low-enthalpy resources related to regional heat flow. The greatest potential for hydrothermal resources is in the Perth Basin where subsurface temperatures of 65–85°C are reached at 2–3.5 km depth. Heat-flow modelling of 170 Perth Basin wells shows a range of 30–140 mW/m2, with the highest surface heat-flow values in the northern part of the basin. The median value of 76.5 mW/m2 for this basin exceeds the average reported for the Australian continent—64.5 mW/m2. Potential hot rocks resources are present in parts of the Canning, Carnarvon and Perth basins where the depth to 200°C is less than 5 km. Knowledge of high subhorizontal stress conditions that can enhance geothermal water flow from engineered reservoirs are based on data mostly from petroleum wells in the Perth Basin. A systematic quantitative assessment of geological, hydrogeological, geophysical, stress orientation and geochemical conditions is required to further delineate and prove these resources. Progressive compilation, validation and interpretation of subsurface data from more than 800 wells is underway, and includes temperature logs of 47 shallow water bores and 30 new thermal conductivity measurements of Perth Basin wells. Data compilation from 580 wells in the Canning, Carnarvon and Perth basins is complete. To date the greatest number of wells indicating high geothermal gradients and temperatures are in the Carnarvon Basin.
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26

Gaull, Brian A., Hiroshi Kagami, and Hitoshi Taniguchi. "The Microzonation of Perth, Western Australia, Using Microtremor Spectral Ratios." Earthquake Spectra 11, no. 2 (May 1995): 173–91. http://dx.doi.org/10.1193/1.1585810.

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This paper indicates new microzonation maps of Perth, Western Australia, utilising microtremor spectral ratios. This metropolitan area has been developing in recent times on Perth Basin which is one of the most active seismic zones in the country. The authors carried out simultaneous measurings of microtremors over most of metropolitan Perth, using a 3 km grid as a basis and hard rock reference site throughout. They calculated spectral ratios of microtremors at deposit site to rock reference site and plotted and contoured on maps for 6 frequency bands from 0.2 to 5.0 Hz. Spectral ratio contours appeared to correlate well with various geological subsurface contours. They also showed that previously estimated earthquake risk estimates underestimated ground motions by up to a factor of two.
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27

Hurley, P. J., and P. C. Manins. "Meteorological Modeling on High-Ozone Days in Perth, Western Australia." Journal of Applied Meteorology 34, no. 7 (July 1, 1995): 1643–52. http://dx.doi.org/10.1175/1520-0450-34.7.1643.

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Abstract The West Australian capital city of Perth is located on a coastal plain between the sea to the west and an escarpment rising to the east. It is isolated from all other cities or sources of pollution. In this study, the meteorological conditions leading to high ozone levels have been classified according to the dominant weather patterns using both synoptic charts and air monitoring data. The data revealed that practically all high-ozone days were associated with recirculation of ozone or its precursors. Meteorological modeling was then performed for the generic conditions leading to high ozone in the Perth region. The modeling predicted that recirculation of surface air over the Perth region was common. Both same-day and next-day recirculation of surface air are features of the model predictions and are conducive to high ozone levels. The modeling predicts day-by-day buildup of smog to be a favored occurrence under these synoptic conditions. Other interesting meteorological features seen in Perth observations on high-ozone days were also predicted by the modeling, including stalling sea breezes under some conditions, hydraulic jump effects over the escarpment, and mesoscale enhancement of the west coast trough.
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28

Hall, Peter B., and Robert L. Kneale. "PERTH BASIN REJUVENATED." APPEA Journal 32, no. 1 (1992): 33. http://dx.doi.org/10.1071/aj91004.

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The northern Perth Basin is an area where recent seismic advances combined with new geological insight, have led to exploration success with a significant new gas field discovery at Beharra Springs and a number of other minor discoveries. This paper outlines 'new concepts' with regard to stratigraphy and structure and how this has been balanced with the commercial environment to rejuvenate exploration in the northern Perth Basin. The Perth Basin is unique in Australia, as running through the middle of the Basin is the West Australian Natural Gas (WANG) pipeline which will be operating at approximately 26 per cent of its capacity in 1992. With the deregulation of the natural gas market in 1988, supply of gas to the Western Australian market via the State Energy Commission of Western Australia (SECWA) pipeline from the Carnarvon Basin, and in particular, the North West Shelf project, can now be balanced with supply from the onshore Perth Basin carried by the WANG pipeline.The minimum economically viable gas field in the northern Perth Basin is calculated to be 15 BCF (16.05 PJ) and the expected median field size is 50 BCF (53.5 PJ) of recoverable gas. Based on the historical success rate of one in eight, typical finding costs are 12 c/MCF (12 c/GJ).In the 1990/91 financial year, eight onshore exploration wells were drilled in Western Australia of which five were drilled in the northern Perth Basin. Provided the market access and opportunities remain, it is anticipated that the recent technological developments will sustain exploration and development of the onshore northern Perth Basin.
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29

R. Ghori, K. Ameed. "Emerging unconventional shale plays in Western Australia." APPEA Journal 53, no. 1 (2013): 313. http://dx.doi.org/10.1071/aj12027.

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Production of shale gas in the US has changed its position from a gas importer to a potential gas exporter. This has stimulated exploration for shale-gas resources in WA. The search started with Woodada Deep–1 (2010) and Arrowsmith–2 (2011) in the Perth Basin to evaluate the shale-gas potential of the Permian Carynginia Formation and the Triassic Kockatea Shale, and Nicolay–1 (2011) in the Canning Basin to evaluate the shale-gas potential of the Ordovician Goldwyer Formation. Estimated total shale-gas potential for these formations is about 288 trillion cubic feet (Tcf). Other petroleum source rocks include the Devonian Gogo and Lower Carboniferous Laurel formations of the Canning Basin, the Lower Permian Wooramel and Byro groups of the onshore Carnarvon Basin, and the Neoproterozoic shales of the Officer Basin. The Canning and Perth basins are producing petroleum, whereas the onshore Carnarvon and Officer basins are not producing, but they have indications for petroleum source rocks, generation, and migration from geochemistry data. Exploration is at a very early stage, and more work is needed to estimate the shale-gas potential of all source rocks and to verify estimated resources. Exploration for shale gas in WA will benefit from new drilling and production techniques and technologies developed during the past 15 years in the US, where more than 102,000 successful gas production wells have been drilled. WA shale-gas plays are stratigraphically and geochemically comparable to producing plays in the Upper Ordovician Utica Shale, Middle Devonian Marcellus Shale and Upper Devonian Bakken Formation, Upper Mississippian Barnett Shale, Upper Jurassic Haynesville-Bossier formations, and Upper Cretaceous Eagle Ford Shale of the US. WA is vastly under-explored and emerging self-sourcing shale plays have revived onshore exploration in the Canning, Carnarvon, and Perth basins.
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30

Kirkman, Hugh, and Judith Kirkman. "Long-term seagrass meadow monitoring near Perth, Western Australia." Aquatic Botany 67, no. 4 (August 2000): 319–32. http://dx.doi.org/10.1016/s0304-3770(00)00097-8.

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31

McGlade, T. R., I. D. Robertson, A. D. Elliot, C. Read, and R. C. A. Thompson. "Gastrointestinal parasites of domestic cats in Perth, Western Australia." Veterinary Parasitology 117, no. 4 (November 2003): 251–62. http://dx.doi.org/10.1016/j.vetpar.2003.08.010.

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32

GRIFFITH, JOSEPH. "ROYAL PERTH HOSPITAL WESTERN AUSTRALIA SCHOOL OF OCCUPATIONAL THERAPY." Australian Occupational Therapy Journal 11, no. 1 (August 27, 2010): 39. http://dx.doi.org/10.1111/j.1440-1630.1964.tb00101.x.

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33

CORTI, BILLIE, DEBRA BLAZE-TEMPLE, PETER HOWAT, COLIN BINNS, and TONY RADALJ. "Alcohol consumption patterns of women in Perth, Western Australia." Drug and Alcohol Review 9, no. 1 (January 1990): 23–31. http://dx.doi.org/10.1080/09595239000185041.

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34

Varma, S., J. Underschultz, S. B. Giger, B. Field, L. Roncaglia, J. Hodgkinson, and D. Hilditch. "CO2geosequestration potential in the Northern Perth Basin, Western Australia." Australian Journal of Earth Sciences 60, no. 1 (February 2013): 23–44. http://dx.doi.org/10.1080/08120099.2012.682737.

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35

Zijlema, Wilma, David Blake, Jonathon Boeyen, Mila Dirgawati, Ania Stasinska, Leon Flicker, Mark Nieuwenhuijsen, and Jane Heyworth. "Natural Outdoor Environments and Mortality in Perth, Western Australia." ISEE Conference Abstracts 2017, no. 1 (February 2018): 272. http://dx.doi.org/10.1289/isee.2017.2017-272.

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36

BUGG, R. J., I. D. ROBERTSON, A. D. ELLIOT, and R. C. A. THOMPSON. "Gastrointestinal Parasites of Urban Dogs in Perth, Western Australia." Veterinary Journal 157, no. 3 (May 1999): 295–301. http://dx.doi.org/10.1053/tvjl.1998.0327.

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37

COX, BG, and KJ KELSALL. "CONSTRUCTION OF CAPE PERON OCEAN OUTLET PERTH, WESTERN AUSTRALIA." Proceedings of the Institution of Civil Engineers 80, no. 2 (April 1986): 465–91. http://dx.doi.org/10.1680/iicep.1986.744.

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38

McKewon, Elaine. "The historical geography of prostitution in Perth, Western Australia." Australian Geographer 34, no. 3 (November 2003): 297–310. http://dx.doi.org/10.1080/0004918032000152393.

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39

Tupper, Neil, Eric Matthews, Gareth Cooper, Andy Furniss, Tim Hicks, and Suzanne Hunt. "The Waitsia Field, onshore North Perth Basin, Western Australia." APPEA Journal 56, no. 1 (2016): 29. http://dx.doi.org/10.1071/aj15003.

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The Waitsia Field represents a new commercial play for the onshore north Perth Basin with potential to deliver substantial reserves and production to the domestic gas market. The discovery was made in 2014 by deepening of the Senecio–3 appraisal well to evaluate secondary reservoir targets. The well successfully delineated the extent of the primary target in the Upper Permian Dongara and Wagina sandstones of the Senecio gas field but also encountered a combination of good-quality and tight gas pay in the underlying Lower Permian Kingia and High Cliff sandstones. The drilling of the Waitsia–1 and Waitsia–2 wells in 2015, and testing of Senecio-3 and Waitsia-1, confirmed the discovery of a large gas field with excellent flow characteristics. Wireline log and pressure data define a gross gas column in excess of 350 m trapped within a low-side fault closure that extends across 50 km2. The occurrence of good-quality reservoir in the depth interval 3,000–3,800 m is diagenetically controlled with clay rims inhibiting quartz cementation and preserving excellent primary porosity. Development planning for Waitsia has commenced with the likelihood of an early production start-up utilising existing wells and gas processing facilities before ramp-up to full-field development. The dry gas will require minimal processing, and access to market is facilitated by the Dampier–Bunbury and Parmelia gas pipelines that pass directly above the field. The Waitsia Field is believed to be the largest conventional Australian onshore discovery for more than 30 years and provides impetus and incentive for continued exploration in mature and frontier basins. The presence of good-quality reservoir and effective fault seal was unexpected and emphasise the need to consider multiple geological scenarios and to test unorthodox ideas with the drill bit.
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40

Torghabeh, Amir Karimian, Reza Rezaee, Reza Moussavi Harami, and Nuno Pimentel. "Unconventional resource evaluation: Kockatea Shale, Perth Basin, Western Australia." International Journal of Oil, Gas and Coal Technology 8, no. 1 (2014): 16. http://dx.doi.org/10.1504/ijogct.2014.064420.

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41

Threlfall, Timothy, Neil Kent, Peter Garcia-Webb, Elizabeth Byrnes, and Paul Psaila-Savona. "Blood lead levels in children in Perth, Western Australia." Australian Journal of Public Health 17, no. 4 (February 12, 2010): 379–81. http://dx.doi.org/10.1111/j.1753-6405.1993.tb00172.x.

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42

Stevens, Catriona. "A spatial and organisational analysis of Asian panethnic association in Perth, Western Australia." International Journal of Sociology and Social Policy 38, no. 1/2 (March 12, 2018): 41–57. http://dx.doi.org/10.1108/ijssp-01-2017-0002.

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Purpose“Asian” is an aggregating descriptive term commonly used in Australian media, politics and everyday speech to describe people of diverse backgrounds. The purpose of this paper is to question the extent to which “Asian” Australian residents living in Perth, Western Australia demonstrate spatial or organisational panethnic association.Design/methodology/approachThe paper analyses quantitative population data from the 2011 Census using GIS to visualise the spatial residential distribution of individuals born in Asian countries and individuals with Chinese ancestry within the Perth metropolitan area. The paper further uses qualitative data drawn from fieldwork conducted in Perth to consider evidence of organisational panethnic association.FindingsFor first generation migrants there is currently little spatial or organisation evidence of “Asian” panethnic association in Perth. Migrants from different ethno-national backgrounds exhibit very different residential patterns. Incipient ethnoburbs are developing that appear to be based on ethnicity rather than panethnicity. Migrant organisation in Perth is likewise arranged primarily on the basis of ethnicity although some panethnic work is observed.Research limitations/implicationsFindings indicate trends towards ethnic residential segregation. Further longitudinal research could expand upon these findings. Qualitative research could determine causes of segregation and implications of (pan)ethnic identities, and explore how individuals from Asian countries respond to the dominant linguistic aggregation of “Asians”.Originality/valueThis paper offers an original analysis of a common frame of reference that has received little critical attention in the Australian context. It applies the framework of Asian panethnicity developed in the USA and finds it wanting, highlighting an inconsistency between the racialised language used in Australia to describe migrants from Asia and the ways these migrants associate.
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Warris, B. J., T. Grocke, and A. Lane. "PETROLEUM OPERATIONS IN THE ENVIRONMENTALLY SENSITIVE NORTHERN PERTH BASIN, WESTERN AUSTRALIA." APPEA Journal 30, no. 1 (1990): 428. http://dx.doi.org/10.1071/aj89031.

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Barrack Energy Limited is an Australian company involved in the search for petroleum in Australia. The company's principal area of exploration and production is the northern portion of the onshore Perth Basin in Western Australia. In this area, the company operates four permits and one production licence covering an area of almost 15 000 square kilometres (3.7 million acres).For the period 1987 to 1989, Barrack Energy Limited acquired 1238 line km of seismic in the northern Perth Basin. This was conducted in fourteen surveys extending from Lancelin in the south to Dongara in the north.Petroleum exploration and production operations in the northern Perth Basin are highly visible and require painstaking and careful planning, permitting and negotiation to achieve the multiple land use goals of minimum disturbance to private landowners and minimum impact and zero long term effects on the environment.Due to the large areas of Vacant Crown Land and flora and fauna reserves in the northern Perth Basin, the impact of seismic line clearance upon the terrain was a major consideration. Barrack Energy Limited decided to experiment with various mechanical systems to clear seismic lines in order to determine the optimum operational and environmental technique. The bulldozer/ grader combination proved to be the most practical line clearance method available. The dozer need not be a tool of destruction and when operated correctly does no more damage than other methods tried.At all times Barrack Energy Limited has striven to ensure that the impact on the surrounding countryside by its exploration and production activity is kept to an absolute minimum. The company works closely with the local community to ensure that the local residents are comfortable at all times with the company's operating methods.
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Mcnamara, Kenneth, and Frances Dodds. "The Early History of Palaeontology in Western Australia: 1791-1899." Earth Sciences History 5, no. 1 (January 1, 1986): 24–38. http://dx.doi.org/10.17704/eshi.5.1.t85384660311h176.

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The exploration of the coast of Western Australia by English and French explorers in the late eighteenth and early nineteenth centuries led to the first recorded discoveries of fossiliferous rocks in Western Australia. The first forty years of exploration and discovery of fossil sites in the State was restricted entirely to the coast of the Continent. Following the establishment of permanent settlements in the 1820s the first of the inland fossil localities were located in the 1830s, north of Albany, and north of Perth. As new land was surveyed; particularly north of Perth, principally by the Gregory brothers in the 1840s and 1850s, Palaeozoic rocks were discovered in the Perth and Carnarvon Basins. F.T. Gregory in particular developed a keen interest in the geology of the State to such an extent that he was able, at a meeting of the Geological Society of London in 1861, to present not only a geological map of part of the State, but also a suite of fossils which showed the existence of Permian and Hesozoic strata. The entire history of nineteenth century palaeontology in Western Australia was one of discovery and collection of specimens. These were studied initially by overseas naturalists, but latterly, in the 1890s by Etheridge at The Australian Museum in Sydney. Sufficient specimens had been collected and described by the turn of the century that the basic outline of the Phanerozoic geology of the sedimentary basins was reasonably well known.
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Glenister, Brian F., Cathy Baker, W. M. Furnish, and G. A. Thomas. "Additional Early Permian ammonoid cephalopods from Western Australia." Journal of Paleontology 64, no. 3 (May 1990): 392–99. http://dx.doi.org/10.1017/s0022336000018618.

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An ancestral paragastrioceratid, Svetlanoceras irwinense (Teichert and Glenister, 1952), and a specifically indeterminate gonioloboceratid, cf. Mescalites sp., from the basal Callytharra Formation are described as the oldest ammonoids recovered from the Permian of the Carnarvon Basin, Western Australia. Identity of these taxa strengthens correlation with the Holmwood Shale (Sakmarian) of the adjacent Perth Basin. Svetlanoceras moylei Mikesh, n. sp., from the Lenox Hills Formation of West Texas, is described for comparison with other simple paragastrioceratids.
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Zaker, N. H., J. Imberger, and C. Pattiaratchi. "Dynamics of the Coastal Boundary Layer off Perth, Western Australia." Journal of Coastal Research 23, no. 5 (September 1, 2007): 1112. http://dx.doi.org/10.2112/04-0374.1.

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Hanson, J., and C. R. Sharp. "Pufferfish exposure and tetrodotoxicity in dogs in Perth, Western Australia." Toxicon 182 (July 2020): S23—S24. http://dx.doi.org/10.1016/j.toxicon.2020.04.059.

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Ward, G., K. Jamrozik, and E. Stewart-Wynne. "Incidence and outcome of cerebrovascular disease in Perth, Western Australia." Stroke 19, no. 12 (December 1988): 1501–6. http://dx.doi.org/10.1161/01.str.19.12.1501.

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Korostil, Igor A., and David G. Regan. "Varicella-Zoster Virus in Perth, Western Australia: Seasonality and Reactivation." PLOS ONE 11, no. 3 (March 10, 2016): e0151319. http://dx.doi.org/10.1371/journal.pone.0151319.

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McDonald, Lisa. "Chemeca 2014 (Perth, Western Australia, September 28–October 1, 2014)." Green Processing and Synthesis 3, no. 2 (April 1, 2014): 171–72. http://dx.doi.org/10.1515/gps-2014-0016.

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