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Journal articles on the topic 'Kimberley'

Author: Grafiati
Published: 4 June 2021
Last updated: 20 February 2023

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1

Schoolcraft, Ralph. "Kimberley J. Healey." Symposium: A Quarterly Journal in Modern Literatures 59, no. 3 (October 2005): 184–86. http://dx.doi.org/10.3200/symp.59.3.184-186.

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2

Anderson, J. M., N. L. McKenzie, R. B. Johnston, and P. G. Kendrick. "Kimberley Rainforests Australia." Journal of Applied Ecology 29, no. 3 (1992): 792. http://dx.doi.org/10.2307/2404491.

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3

Sinclair, Clive. "The Kimberley Fantasy." Wasafiri 24, no. 1 (March 2009): 33–43. http://dx.doi.org/10.1080/02690050802589024.

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4

Campbell, Anita, Murray Chapman, Cate McHugh, Adelln Sng, and Sivasankaran Balaratnasingam. "Rising Indigenous suicide rates in Kimberley and implications for suicide prevention." Australasian Psychiatry 24, no. 6 (September 26, 2016): 561–64. http://dx.doi.org/10.1177/1039856216665281.

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Objectives: This audit examined the demographics of Indigenous Australians dying by suicide in the Kimberley region of Western Australia during the period 2005–2014. Methods: This is a de-identified retrospective audit of reported suicide deaths provided to Kimberley Mental Health and Drug Service during the period 2005–2014. Variables such as age, sex, method of suicide, previous engagement with mental health services, locality and ethnicity were assessed. Results: Indigenous suicide rates in the Kimberley region have dramatically increased in the last decade. There is also an overall trend upwards in Indigenous youth suicide and Indigenous female suicides. Conclusions: These findings highlight the need for culturally informed, and youth focussed, suicide prevention interventions within the Kimberley region.
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5

Hall, Wayne, Ernest Hunter, and Randolph Spargo. "Alcohol Use and Incarceration in a Police Lockup among Aboriginals in the Kimberley Region of Western Australia." Australian & New Zealand Journal of Criminology 27, no. 1 (June 1994): 57–73. http://dx.doi.org/10.1177/000486589402700109.

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Data from a general population survey of a stratified random sample of 516 Aboriginal men and women over the age of 15 years in the Kimberley region of Western Australia were used to estimate patterns of incarceration in police lockups and their relationship to self-reported alcohol consumption. Participants in the survey were asked about their lifetime experience of incarceration in police cells, and about their frequency and quantity of alcohol consumption. Estimates of the population risk of incarceration indicated that 81% of Kimberley Aboriginal men, and 37% of Kimberley Aboriginal women have been locked up in police cells. Alcohol use was strongly related to the risk of being locked up in police cells, and the risk was higher among current drinkers who were of full rather than mixed Aboriginal descent. Urgent action is required to reduce rates of incarceration in police cells among Kimberley Aboriginals. In addition to the decriminalisation of public drunkenness, action needs to be taken to reduce the prevalence of heavy alcohol use, and to improve the social and economic conditions in which Kimberley Aboriginals live.
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6

Start, A. N. "Mistletoe flora (Loranthaceae and Santalaceae) of the Kimberley, a tropical region in Western Australia, with particular reference to fire." Australian Journal of Botany 61, no. 4 (2013): 309. http://dx.doi.org/10.1071/bt13021.

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The mistletoe flora of the tropical Kimberley region of Western Australia was studied over a 30-year period, with a particular emphasis on distributions, use of hosts and effects of fire. The results were compared with those of a similar study undertaken in the Pilbara, a more arid tropical region in the same State. The flora consisted of one genus with three species in the Santalaceae and five genera with 22 species (one with two varieties) in the Loranthaceae. Amyema was the largest genus in both regions. Four species are regarded as Kimberley endemics but two of them may also occur in the Northern Territory. Most species occurred in three or more of five Kimberley bioregions. However, six species were recorded only from the North Kimberley where they were all rare. Host records included 165 species from 33 families. Fabaceae (particularly Acacia) and Myrtaceae (particularly Eucalyptus and Corymbia) were the most important. The perfect dichotomy between species using fabaceous and myrtaceous hosts in the Pilbara was strong but imperfect in the Kimberley. Fire responses of two species were not observed. Two (perhaps three) taxa were able to resprout, whereas the remaining taxa were killed if scorched. Most species occurred, at least occasionally, in relatively fire-safe refugia. Nevertheless, fire is eroding distributions of many species and may be threatening some, particularly the rare North Kimberley species.
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7

Doody, J. Sean, David Rhind, Christina M. Castellano, and Michael Bass. "Rediscovery of the scaly-tailed possum (Wyulda squamicaudata) in the eastern Kimberley." Australian Mammalogy 34, no. 2 (2012): 260. http://dx.doi.org/10.1071/am11039.

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The tropical mammal fauna of Australia is both understudied and, in some cases, imperiled, and the former hinders a complete understanding of the latter. An enigmatic and poorly understood species is the scaly-tailed possum (Wyulda squamicaudata), a species endemic to the Kimberley Region, Western Australia. We describe the rediscovery of the scaly-tailed possum in the east Kimberley, where it has not been recorded since 1917. The discovery: (1) reinforces the hitherto-questioned validity of the east Kimberley record; (2) confirms an extension of the range by 200–300 km to the east from populations in the west Kimberley; and thus (3) broadens the climate envelope occupied by the species. Implications of the known distribution for the biology, genetics and conservation of the scaly-tailed possum are briefly discussed.
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8

Brattstrom, Bayard H., N. L. McKenzie, R. B. Johnston, and P. G. Kendrick. "Kimberley Rainforests of Australia." Copeia 1992, no. 4 (December 18, 1992): 1131. http://dx.doi.org/10.2307/1446656.

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9

Arlow, Ruth. "Re Holy Trinity, Kimberley." Ecclesiastical Law Journal 18, no. 3 (August 8, 2016): 388. http://dx.doi.org/10.1017/s0956618x16000831.

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10

Fromont, Jane, Zoe T. Richards, and Nerida G. Wilson. "First Report of the Coral-Killing Sponge Terpios hoshinota Rützler and Muzik, 1993 in Western Australia: A New Threat to Kimberley Coral Reefs?" Diversity 11, no. 10 (October 1, 2019): 184. http://dx.doi.org/10.3390/d11100184.

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The cyanobacteriosponge Terpios hoshinota has been reported throughout the Indo-Pacific including the Great Barrier Reef, Australia. The species encrusts live coral, giant clams, and other benthos and can be a threat to benthic communities on coral reefs. The Kimberley region of Western Australia has some of the least impacted reefs globally. We report for the first time the presence of T. hoshinota in the eastern Indian Ocean on Kimberley inshore coral reefs. Given its invasive potential, reef health surveys should include this species, and monitoring approaches developed to audit the remote Kimberley for this and other invasive species.
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11

Ryan, WJ, D. Pratchett, and BL McIntyre. "Alternative turnoff strategies for Kimberley beef cattle. 1. Live animal performance and carcass characteristics." Rangeland Journal 9, no. 2 (1987): 61. http://dx.doi.org/10.1071/rj9870061.

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In June 1980, 190 Kimberley Shorthorn steers from five properties in the Kimberley were divided into three age categories. Half were sent to Chapman Research Station (CRS) in the agricultural area of Western Australia and the remainder stayed at Ord Regeneration Research Station (ORRS) in the Kimberley. Animals in both locations grazed for either one or two pasture growing seasons and a third group was fed a concentrate ration based on grain after the first growing season. Cattle lost between 20-30 kg in handling and transport south which, together with the reduced initial grazing season, led to gains of only 50 kg while those in the north gained around 100 kg. In the second grazing season at both locations animals gained around 140 kg. Animals at ORRS laid down more fat than those at CRS. Animals fed on concentrate rations in the agricultural area grew significantly faster, but had poorer food conversion and were leaner compared with those fed in the Kimberley.
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12

Ornduff, Robert, and J. R. Wheeler. "Flora of the Kimberley Region." Taxon 43, no. 2 (May 1994): 340. http://dx.doi.org/10.2307/1222913.

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13

Quealy-Gainer, Kate. "Forbidden by Kimberley Griffiths Little." Bulletin of the Center for Children's Books 68, no. 5 (2015): 265. http://dx.doi.org/10.1353/bcc.2015.0071.

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14

Sommers, Scott. "In-between with Kimberley Pace." East Asian Journal of Popular Culture 5, no. 2 (August 1, 2019): 195–201. http://dx.doi.org/10.1386/eapc_00008_7.

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15

Arribas, Gloria Fernández. "The Institutionalization of a Process." International Organizations Law Review 13, no. 2 (April 13, 2016): 308–40. http://dx.doi.org/10.1163/15723747-01302005.

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The Kimberley Process represents a new method of international cooperation between subjects of international law. It was named by its creators as a process, setting it apart from international organizations, and leading too to its consideration as informal international law-making or soft law. In this study we shall analyze the extent to which the Kimberley Process falls into these categories. Our main task, however, is to compare it to formal international organizations, with a view to establishing whether what really has been created is an institutionalization process that is like an international organization, but with a different name. To do this, we will analyze with reference to the Kimberley Process the various respective fields of international organizations, such as founding agreement, membership, structure, decision-making process and legal order.
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16

Lamarre, Michel, and Michel J. Lareau. "INFLUENCE OF WINTER PROTECTION ON EARLINESS OF STRAWBERRY PRODUCTION." HortScience 26, no. 5 (May 1991): 480e—480. http://dx.doi.org/10.21273/hortsci.26.5.480e.

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A 3-year study was carried out on the use of row covers as a substitute to straw for winter protection of five strawberry cultivars. Seven cover treatments were tested: “Agronet” removed on May 2, 12 and 19; “Kimberlay farms” removed May 19; perforated polyethylene removed May 16; conventionnal straw mulch removed in mid-April, and no row cover protection. Row covers advanced first harvest for all cultivars. There was a 10-day gain in earliness with perforated polyethylene followed in decreasing order by “Kimberley farms”, “Agronet”, straw mulch, and no protection. Treatments favoring early yields tended to shorten the period of production and to reduce total yield. Of the “Agronet” treatments, the May 12 removal increased the yield for the first 4 harvests compared to the May 2 and May 19 removals.
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17

Turpin, Jeff. "North Kimberley Mammals – on the fringe of the high-rainfall zone." Australian Mammalogy 37, no. 2 (2015): 132. http://dx.doi.org/10.1071/am14008.

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Six areas were surveyed for terrestrial fauna during remote hiking expeditions in the Kimberley during 2009, 2010, 2013 and 2014. A total of 19 mammal species were recorded, comprising one introduced and 18 native taxa. Significant populations of the northern quoll, monjon, golden-backed tree-rat and scaly-tailed possum were recorded, including from areas where the species were previously unknown. Fractured, rocky terrain in association with rainforest appears to provide important habitat for these species. The use of motion-sensitive cameras, particularly in areas where foraging signs are evident (tracks, diggings, feeding middens, scats) is shown to be a successful and complementary survey technique in detecting critical-weight-range species in the north Kimberley. Such taxa appear to persist in the far north Kimberley in the absence of several threatening processes attributable to large-scale mammal decline across northern Australia.
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18

DOUGHTY, PAUL, and J. DALE ROBERTS. "A new species of Uperoleia (Anura: Myobatrachidae) from the northwest Kimberley, Western Australia." Zootaxa 1939, no. 1 (November 21, 2008): 10–18. http://dx.doi.org/10.11646/zootaxa.1939.1.2.

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Uperoleia is a large genus of small-bodied terrestrial frogs that occur in Australia and southern New Guinea. With nine species, the Kimberley region in northern Western Australia is the most diverse. Recent surveys of the northwest coast of the Kimberley have revealed a tenth species of Uperoleia. The new species is characterized by a combination of small body size, dark and slightly tubercular dorsal skin, basal webbing between the toes, outer metatarsal tubercle spatulate and oriented perpendicular to the foot, possession of maxillary teeth, a broadly exposed frontoparietal fontanelle and the advertisement call is a high-pitched rasp. All specimens collected have been associated with sandstone boulders or escarpments with flowing water or rock pools. The northwest Kimberley is an isolated region of high rainfall and rugged terrain that possesses high biodiversity for many plant and animal groups and is therefore worthy of special conservation attention.
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19

Gunn, Robert, Bruno David, Leigh Douglas, Jean-Jacques Delannoy, Sam Harper, Pauline Heaney, Sven Ouzman, and Peter Veth. "‘Kimberley Stout figures’: a new rock art style for Kimberley rock art, North-Western Australia." Australian Archaeology 85, no. 2 (May 4, 2019): 151–69. http://dx.doi.org/10.1080/03122417.2019.1681129.

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20

Ollier, C. D., G. F. M. Gaunt, and Irinah Jurkowski. "The Kimberley Plateau, Western Australia. A Precambrian Erosion Surface." Zeitschrift für Geomorphologie 32, no. 2 (July 5, 1988): 239–46. http://dx.doi.org/10.1127/zfg/32/1988/239.

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21

Burbidge, Andrew A. "Did Zaglossus bruijnii occur in the Kimberley region of Western Australia?" Australian Mammalogy 40, no. 2 (2018): 315. http://dx.doi.org/10.1071/am17053.

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A 2012 paper reported the discovery of a specimen of Zaglossus bruijnii with a label attached that recorded that it had been collected at Mount Anderson, in the south-west Kimberley region of Western Australia, in 1901. Based on several lines of evidence, I argue that this distinctive long-beaked echidna is not, and has not been, part of the Kimberley region’s modern mammal fauna. The simplest and most plausible explanation is that the tag on the specimen came from another animal.
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22

Lloyd-Rees, Kimberley. "The hidden pandemic of antibiotic resistance." Dental Nursing 18, no. 1 (January 2, 2022): 26–27. http://dx.doi.org/10.12968/denn.2022.18.1.26.

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23

Jenner, K. C. S., M.-N. M. Jenner, and K. A. McCabe. "GEOGRAPHICAL AND TEMPORAL MOVEMENTS OF HUMPBACK WHALES IN WESTERN AUSTRALIAN WATERS." APPEA Journal 41, no. 1 (2001): 749. http://dx.doi.org/10.1071/aj00044.

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Through compilation of historical whaling data, together with recent aerial and boat-based survey data, a general framework for the overall peaks of migration has been estimated for the temporal and spatial movements of Group IV humpback whales along the Western Australian coast.The migratory paths of humpback whales along the Western Australian coast lie within the continental shelf boundary or 200 m bathymetry. Major resting areas along the migratory path have been identified at Exmouth Gulf (southern migration only) and at Shark Bay. The northern endpoint of migration and resting area for reproductively active whales in the population appears to be Camden Sound in the Kimberley. A 6,750 square km2 area of the Kimberley region, inclusive of Camden Sound, has also been identified as a major calving ground. The northern and southern migratory paths have been shown to be divergent at the Perth Basin, Dampier Archipelago and Kimberley regions. In all cases the northern migratory route is further off-shore.
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24

Lloyd-Rees, Kimberley. "Obesity in the UK." Dental Nursing 18, no. 6 (June 2, 2022): 288–89. http://dx.doi.org/10.12968/denn.2022.18.6.288.

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25

Wilde, Kimberley. "Case studies 4–6: diabetic foot ulcers." Journal of Wound Care 31, Sup8a (August 1, 2022): S18—S21. http://dx.doi.org/10.12968/jowc.2022.31.sup8a.s18.

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26

Braby, Michael F. "Biogeography of butterflies in the Australian monsoon tropics." Australian Journal of Zoology 56, no. 1 (2008): 41. http://dx.doi.org/10.1071/zo08021.

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The biogeography of butterflies within the monsoon tropical biome of northern Australia is reviewed in terms of patterns of species richness, endemism and area relationships. Available data indicate that the region supports a relatively rich fauna, comprising 265 species (~62% of the total Australian fauna), but endemism is low (6%). No genera are endemic to the monsoon tropics, but two (Neohesperilla, Nesolycaena) are characteristic components, embracing a total of seven species in the region, of which five are endemic. Three ecological specialists (Neohesperilla senta, Elodina walkeri, Candalides delospila), each associated with different vegetation types, appear to be characteristic elements of the monsoon tropics. Of 67 range-restricted species in the monsoon tropics, 15 (mostly associated with savanna) are endemic to the region, while 52 (mostly associated with rainforest) are non-endemic, occurring also in south-east Asia and/or mainland New Guinea. A pronounced attenuation in species richness from Cape York Peninsula across the Top End to the Kimberley is evident. Within the monsoon tropics, Cape York Peninsula stands out as an area of exceptional biodiversity, with 95% of the butterflies (251 species; 7 endemic species, 31 endemic subspecies/geographical forms) recorded from the entire region, compared with the Top End (123 species; 3 endemic species, 17 endemic subspecies/geographical forms). In contrast, the Kimberley has a comparatively depauperate fauna (85 species; 1 endemic species, 0 endemic subspecies) without strong Indonesian affinities, and contains only two range-restricted species. A sister-area relationship between Cape York Peninsula and the Top End–Kimberley is evident in one clade, Acrodipsas hirtipes (northern Cape York Peninsula) + A. decima (Top End), with a pairwise divergence of ~1% based on mtDNA, and is suspected in another, Nesolycaena medicea (southern Cape York Peninsula) and N. urumelia (Top End) + N. caesia (Kimberley); a further five species show similar sister-area relationships across the Carpentarian Gap but at the level of subspecies or geographical form. Three general and complementary hypotheses are proposed to explain patterns of geographical differentiation of butterflies in the monsoon tropics: (1) the Carpentarian Gap is a biogeographical filter, functioning as a barrier for some species but as a bridge for others; (2) divergence among taxa between Cape York Peninsula and the Top End–Kimberley has occurred fairly recently (Quaternary), probably through vicariance; and (3) the Bonaparte Gap, with the exception of Nesolycaena, is not a vicariant barrier for butterflies in the Top End and Kimberley.
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27

Lloyd-Rees, Kimberley. "Talking about mental health." Dental Nursing 18, no. 5 (May 2, 2022): 238–40. http://dx.doi.org/10.12968/denn.2022.18.5.238.

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28

Elburg, M. A., and M. Poujol. "Lu-Hf analyses of zircon from the Makoppa Dome and Amalia-Kraaipan area: implications for evolution of the Kimberley and Pietersburg blocks of the Kaapvaal Craton." South African Journal of Geology 123, no. 3 (September 1, 2020): 369–80. http://dx.doi.org/10.25131/sajg.123.0025.

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Abstract Previously dated zircon crystals from the Amalia-Kraaipan granite-greenstone belts and Makoppa Dome were analysed for their Lu-Hf isotopic characteristics to refine the geological evolution of these areas. Samples from the Makoppa Dome, belonging to the Pietersburg Block, largely fall within the epsilon Hf-age range for granitoids from the eastern part of the block. However, the oldest 3.01 to 3.03 Ga trondhjemitic gneisses show that reworking of juvenile mafic crust started earlier in the western than the eastern part of the block, suggesting a diachronous tectonic evolution. The three granitoids from the Amalia-Kraaipan area fall within the field for Pietersburg and Kimberley block granitoids. Contribution from older crustal material is seen in a 3.08 Ga schist, likely derived from a volcanic protolith, from the Madibe Belt, in the far east of the Kimberley Block, with a mantle extraction age of 3.25 to 3.45 Ga. The data suggest that the Kimberley Block, like the Pietersburg Block, also contains (minor) ancient crustal components, derived from a depleted mantle source prior to 3.1 Ga. The new data suggest that the Kimberley and Pietersburg blocks underwent a very similar Paleo- to Mesoarchean crustal evolution, with a major crust formation event at 3.1 to 3.0 Ga followed by successive crust reworking until 2.77 Ga. Lavas of the Ventersdorp Supergroup, for which zircon grains from a ca. 2.75 lapilli tuff give εHfi of +2, are the first evidence of a juvenile source, after 300 Myr of crustal reworking.
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29

Lloyd-Rees, Kimberley. "Dental implants: the new gold standard." Dental Nursing 18, no. 9 (September 2, 2022): 428–29. http://dx.doi.org/10.12968/denn.2022.18.9.428.

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30

Lloyd-Rees, Kimberley. "Take a closer look." Dental Nursing 17, no. 7 (July 2, 2021): 334–35. http://dx.doi.org/10.12968/denn.2021.17.7.334.

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31

Siddique, K. H. M., and K. L. Regan. "Registration of ‘Kimberley Large’ Kabuli Chickpea." Crop Science 45, no. 4 (July 2005): 1659–60. http://dx.doi.org/10.2135/cropsci2004.0405.

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32

Graves, S., Z. Nack, S. Jones, and L. Wang. "Rickettsia serosurvey in Kimberley, Western Australia." American Journal of Tropical Medicine and Hygiene 60, no. 5 (May 1, 1999): 786–89. http://dx.doi.org/10.4269/ajtmh.1999.60.786.

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33

SHIRAO, Motomaro. "The Kimberley Diamond Mine (South Africa)." Journal of Geography (Chigaku Zasshi) 110, no. 5 (2001): Plate1—Plate2. http://dx.doi.org/10.5026/jgeography.110.5_plate1.

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34

McGregor, William B. "Daisy Bates’ Documentations of Kimberley Languages." Language & History 55, no. 2 (November 2012): 79–101. http://dx.doi.org/10.1179/1759753612z.0000000007.

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35

Hawkes, Jake. "Psychobilly: Subcultural Survival, Kimberley Kattari (2020)." Punk & Post Punk 9, no. 2 (June 1, 2020): 372–74. http://dx.doi.org/10.1386/punk_00051_5.

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36

Bate, Roger. "ZIMBABWE'S FUTURE AND THE ‘KIMBERLEY PROCESS’." Economic Affairs 32, no. 2 (June 2012): 104. http://dx.doi.org/10.1111/j.1468-0270.2012.02144.x.

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37

Wilson, Barry. "Kimberley marine biota. History and environment." Records of the Western Australian Museum, Supplement 84, no. 1 (2014): 1. http://dx.doi.org/10.18195/issn.0313-122x.84.2014.001-018.

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38

Moore, Glenn I., Susan M. Morrison, J. Barry Hutchins, Gerald R. Allen, and Alison Sampey. "Kimberley marine biota. Historical data: fishes." Records of the Western Australian Museum, Supplement 84, no. 1 (2014): 161. http://dx.doi.org/10.18195/issn.0313-122x.84.2014.161-206.

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39

Sampey, Alison, and Loisette M. Marsh. "Kimberley marine biota. Historical data: echinoderms." Records of the Western Australian Museum, Supplement 84, no. 1 (2015): 207. http://dx.doi.org/10.18195/issn.0313-122x.84.2015.207-246.

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40

Hosie, Andrew M., Alison Sampey, Peter J. F. Davie, and Diana S. Jones. "Kimberley marine biota. Historical data: crustaceans." Records of the Western Australian Museum, Supplement 84, no. 1 (2015): 247. http://dx.doi.org/10.18195/issn.0313-122x.84.2015.247-285.

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41

Willan, Richard C., Clay Bryce, and Shirley M. Slack-Smith. "Kimberley marine biota. Historical data: molluscs." Records of the Western Australian Museum, Supplement 84, no. 1 (2015): 287. http://dx.doi.org/10.18195/issn.0313-122x.84.2015.287-343.

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42

Ross, Helen. "The East Kimberley Impact Assessment Project." Interdisciplinary Science Reviews 16, no. 4 (December 1991): 313–23. http://dx.doi.org/10.1179/isr.1991.16.4.313.

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43

Gracey, M., W. Sun, and P. Somerford. "Changing mortality patterns in Kimberley Aborigines." Internal Medicine Journal 45, no. 9 (September 2015): 905–8. http://dx.doi.org/10.1111/imj.12820.

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44

Betts, John H., and Tony Nikischer. "Collecting Diamonds and the Kimberley Process." Rocks & Minerals 89, no. 1 (December 9, 2013): 89–91. http://dx.doi.org/10.1080/00357529.2014.842843.

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45

Woinarski, J. C. Z. "Habitat relationships for two poorly known mammal species Pseudomys calabyi and Sminlhopsis sp. from the wet-dry tropics of the Northern Territory." Australian Mammalogy 15, no. 1 (1992): 47. http://dx.doi.org/10.1071/am92006.

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Most records of Sminthopsis sp. and all records of Pseudomys calabyi are from gravelly hills with Eucalyplus dichromophloia and E. tintinnans woodland in Stage III of Kakadu National Park, Northern Territory. This habitat is distinct from that used by other small dasyurids and pseudomyine rodents of this region. For P. calabyi it may offer the attraction of prolonged availability of fallen grass seeds. Both taxa have vicariants in the Kimberley, a pattern resembling that for many vertebrate species pairs of the more isolated sandstone massifs of the Kimberley and Arnhem Land area.
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46

Lloyd-Rees, Kimberley. "Show and tell." Dental Nursing 16, no. 1 (January 2, 2020): 50. http://dx.doi.org/10.12968/denn.2020.16.1.50.

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47

Lloyd-Rees, Kimberley. "Setting the tone." Dental Nursing 17, no. 11 (November 2, 2021): 536–37. http://dx.doi.org/10.12968/denn.2021.17.11.536.

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DeBartolo, David. "Security Council “Legislation” on Foreign (Terrorist) Fighters." Proceedings of the ASIL Annual Meeting 112 (2018): 303–6. http://dx.doi.org/10.1017/amp.2019.25.

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Kenneally, Kevin F. "Kimberley tropical monsoon rainforests of western Australia: perspectives on biological diversity." Journal of the Botanical Research Institute of Texas 12, no. 1 (July 20, 2018): 149–228. http://dx.doi.org/10.17348/jbrit.v12.i1.927.

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Abstract:
There are more than 1,500 patches of monsoon rainforest, totaling 7,000 hectares, scattered across 170,000 square km of the tropical Kimberley region of Western Australia. They are small, isolated and embedded within a mosaic of mostly flammable eucalypt savanna woodlands. The status and condition of Kimberley monsoon rainforest biodiversity are assessed based on geographically comprehensive survey data from a total of 100 sites and opportunistic collecting in many others. Monsoon rainforests are rich in species not found in the region’s other vegetation communities. Most rainforests and their associated faunal assemblages are not currently reserved and many of the survey sites were found to be severely disturbed by fire and introduced feral cattle. The disturbance impact of fires, introduced animals and weeds is shown to apply generally across the three major forms of land tenure operating in the Kimberley; namely, Aboriginal land (including Indigenous Protected Areas), Crown land (including pastoral leasehold), and national parks and reserves. The implications of these disturbance factors on the conservation and management practices of monsoon rainforest patches in the region are considered. It is concluded that conservation of patches requires active fire and feral animal management. Equally, however, the long-term genetic viability of these small scattered patches and populations requires effective conservation at the landscape scale. Mounting evidence of the Kimberley as a historical and significant center of refugia warrants action from scientists, governments, conservation agencies, Indigenous landholders as well as local communities to protect and conserve its unique biota and the processes responsible for generating and sustaining it.
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DOUGHTY, PAUL, GAYLEEN BOURKE, LEONARDO G. TEDESCHI, RENAE C. PRATT, PAUL M. OLIVER, RUSSELL A. PALMER, and CRAIG MORITZ. "Species delimitation in the Gehyra nana (Squamata: Gekkonidae) complex: cryptic and divergent morphological evolution in the Australian Monsoonal Tropics, with the description of four new species." Zootaxa 4403, no. 2 (April 4, 2018): 201. http://dx.doi.org/10.11646/zootaxa.4403.2.1.

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Recent advances in molecular genetic techniques and increased fine scale sampling in the Australian Monsoonal Tropics (AMT) have provided new impetus to reassess species boundaries in the Gehyra nana species complex, a clade of small-bodied, saxicolous geckos which are widely distributed across northern Australia. A recent phylogenomic analysis revealed eight deeply divergent lineages that occur as a series of overlapping distributions across the AMT and which, as a whole, are paraphyletic with four previously described species. Several of these lineages currently included in G. nana are phenotypically distinct, while others are highly conservative morphologically. Here we use an integrated approach to explore species delimitation in this complex. We redefine G. nana as a widespread taxon with complex genetic structure across the Kimberley of Western Australia and Top End of the Northern Territory, including a lineage with mtDNA introgressed from the larger-bodied G. multiporosa. We describe four new species with more restricted distributions within the G. nana complex. The new species are phylogenetically divergent and morphologically diagnosable, and include the relatively cryptic G. paranana sp. nov. from the western Northern Territory, the large-bodied G. pseudopunctata sp. nov. from the southern Kimberley ranges, G. granulum sp. nov., a small-bodied form with granules on the proximal lamellae from the north-west and southern Kimberley ranges and the small-bodied G. pluraporosa sp. nov. restricted to the northern Kimberley. Our revision largely stabilises the taxonomy of the G. nana complex, although further analyses of species limits among the remaining mostly parapatric lineages of G. nana sensu stricto are warranted.
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