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Articles de revues sur le sujet "Floods South Australia Adelaide Region":
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Clarke, Philip A. « The Aboriginal Ethnobotany of the Adelaide Region, South Australia ». Transactions of the Royal Society of South Australia 137, no 1 (janvier 2013) : 97–126. http://dx.doi.org/10.1080/3721426.2013.10887175.
Cox, James W., Michele Akeroyd et Danielle P. Oliver. « Integrated water resource assessment for the Adelaide region, South Australia ». Proceedings of the International Association of Hydrological Sciences 374 (17 octobre 2016) : 69–73. http://dx.doi.org/10.5194/piahs-374-69-2016.
Abstract. South Australia is the driest state in the driest inhabited country in the world, Australia. Consequently, water is one of South Australia's highest priorities. Focus on water research and sources of water in the state became more critical during the Millenium drought that occurred between 1997 and 2011. In response to increased concern about water sources the South Australian government established The Goyder Institute for Water Research – a partnership between the South Australian State Government, the Commonwealth Scientific and Industrial Research Organisation (CSIRO), Flinders University, University of Adelaide and University of South Australia. The Goyder Institute undertakes cutting-edge science to inform the development of innovative integrated water management strategies to ensure South Australia's ongoing water security and enhance the South Australian Government's capacity to develop and deliver science-based policy solutions in water management. This paper focuses on the integrated water resource assessment of the northern Adelaide region, including the key research investments in water and climate, and how this information is being utilised by decision makers in the region.
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Argue, John R. « Towards a universal stormwater management practice for arid zone residential developments ». Water Science and Technology 32, no 1 (1 juillet 1995) : 15–24. http://dx.doi.org/10.2166/wst.1995.0006.
The principal centres of research and development in stormwater management are in the World's temperate regions for which a wide range of best practices are already known. The article suggests a strategy for improving performance in urban flood control, pollution minimisation and stormwater harvesting in arid/semi-arid regions. The basis of the approach is, firstly, systematic documentation of performances in strategic project cases – by regions – followed by integration of these into a universal best practice. A documentation matrix for stormwater management cases in Adelaide, South Australia, is described. Factors considered in the matrix include devices and treatments, development types and forms, aquifer recharge capability and soil types. The matrix will provide, progressively, vital information for planners and designers and guide researchers in the most productive use of limited monitoring resources.
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Baker, Sarah. « Young People and Community Radio in the Northern Region of Adelaide, South Australia ». Popular Music and Society 30, no 5 (décembre 2007) : 575–90. http://dx.doi.org/10.1080/03007760600835389.
Rippon, Lee, Mark Rollog, David Bruce, Juraj Farkas, F. Donald Pate, Timothy Owen, Teghan Lucas, Stuart McCallum et Ian Moffat. « Baseline bioavailable strontium and oxygen isotope mapping of the Adelaide Region, South Australia ». Journal of Archaeological Science : Reports 34 (décembre 2020) : 102614. http://dx.doi.org/10.1016/j.jasrep.2020.102614.
Merry, R. H., et K. G. Tiller. « Distribution and budget of cadmium and lead in an agricultural region near Adelaide, South Australia ». Water, Air, and Soil Pollution 57-58, no 1 (août 1991) : 171–80. http://dx.doi.org/10.1007/bf00282880.
Sprigg, Reg. « The Adelaide Geosyncline : A Century of Controversy ». Earth Sciences History 5, no 1 (1 janvier 1986) : 66–83. http://dx.doi.org/10.17704/eshi.5.1.c5rn11w3001t50j1.
Late Proterozoic (Adelaidean) to Late Cambrian sediments of the Adelaide Geosyncline form a mountainous backbone to South Australia. Geological studies of the region date back to the beginning of European exploration and colonisation, although these were limited until the 1940s due to the small, isolated nature of the geological community. No detailed understanding of this extensive region emerged until the beginning of the twentieth century when sections were measured and the significance of widespread Late Precambrian glaciation was recognised. The search for fossils has been long and often unsuccessful. Trilobites and archaeocyatha, which were later determined as Cambrian, were found as early as 1879. The internationally famous Ediacara fauna was discovered in 1946. Unusual piercement structures containing breccias were only widely mapped after World War Two with a diapiric origin being proposed in 1960. In 1952, the province was classified as basically miogeo-synclinal with a late stage eugeosyncline in the southeast. This has recently been reinterpreted in terms of plate tectonics.
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Hague, Ben S. « Seasonal climate summary for Australia and the southern hemisphere (summer 2018–19) : extreme heat and flooding prominent ». Journal of Southern Hemisphere Earth Systems Science 71, no 1 (2021) : 147. http://dx.doi.org/10.1071/es20009.
This is a summary of the southern hemisphere atmospheric circulation patterns and meteorological indices for summer 2018–19; an account of seasonal rainfall and temperature for the Australian region is also provided. January 2019 was Australia’s hottest month on record, nearly 1°C warmer than any previous month. Impacts of heavy rain and floods were reported in Australia, New Zealand and South American nations. Extreme terrestrial and maritime heatwaves occurred in and around Australia and New Zealand. Case studies of the Australian heatwave, Queensland floods in January and February, and a tide-driven coastal inundation event are considered.
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Williams, Craig R., Samantha R. Williams, Jay Nicholson, Susan M. Little, Julie Riordan, Stephen R. Fricker et Michael J. Kokkinn. « Diversity and seasonal succession of coastal mosquitoes (Diptera : Culicidae) in the northern Adelaide region of South Australia ». Australian Journal of Entomology 48, no 2 (mai 2009) : 107–12. http://dx.doi.org/10.1111/j.1440-6055.2009.00693.x.
Buckley, Jonathan, Malcolm Riley, Lisa Wood, Sheila Skeaff et Manny Noakes. « Abstracts of the 10th Asia-Pacific Conference on Clinical Nutrition ». Proceedings 2, no 12 (9 août 2018) : 573. http://dx.doi.org/10.3390/proceedings2120573.
The Asia-Pacific Conference on Clinical Nutrition is a biennial conference held within the Asia-Pacific region. The 2017 meeting was a joint meeting of the Asia-Pacific Society of Clinical Nutrition, the Nutrition Society of Australia and the Nutrition Society of New Zealand. The meeting was hosted by CSIRO Health and Biosecurity in collaboration with the University of South Australia, the University of Adelaide, Flinders University and the South Australian Health and Medical Research Institute. The theme of the meeting was Nutrition Solutions for a Changing World. Four hundred and thirty-eight registrants attended the conference and 432 papers were presented. This issue presents the proceedings of this meeting in the form of abstracts for each paper that was presented at the conference.
Thèses sur le sujet "Floods South Australia Adelaide Region":
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Matthews, Chris. « The structural geometry of the Onkaparinga Gorge region, southern Adelaide fold belt, South Australia / ». Title page, contents and abstract only, 1993. http://web4.library.adelaide.edu.au/theses/09SB/09sbm438.pdf.
Thesis (B. Sc.(Hons.))--University of Adelaide, Dept. of Geology and Geophysics, 1994. Four coloured maps in pocket inside back cover. Three plates have overlays. National grid reference (SI 54) 6627(1: 50000). Includes bibliographical references.
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Paul, Eike Gunther. « The geometry and controls on basement-involved deformation in the Adelaide Fold Belt, South Australia / ». Title page, contents and abstract only, 1998. http://web4.library.adelaide.edu.au/theses/09PH/09php3241.pdf.
Kapetas, John. « The structure of the Clarendon - Mt. Bold region : southern Adelaide fold belt, Fleurieu Peninsula, South Australia / ». Title page, abstract and contents only, 1993. http://web4.library.adelaide.edu.au/theses/09SB/09sbk17.pdf.
Hatami, Bijan. « Seasonal occurrence and abundance of diamondback moth, Plutella xylostella (L.), and its major parasitoids on brassicaceous plants in South Australia / ». Title page, contents and summary only, 1996. http://web4.library.adelaide.edu.au/theses/09PH/09phh361.pdf.
Royal, Matthew. « The structural geometry and evolution of a foreland region of the Adelaide Fold and Thrust Belt, with particular reference to the western margin of the belt in the Mid-North region, South Australia / ». Adelaide, 1997. http://web4.library.adelaide.edu.au/theses/09SB/09sbr8883.pdf.
Thesis (B. Sc.(Hons.))--University of Adelaide, Dept. of Geology and Geophysics, 1997. Australian National Grid Reference Hamley Bridge 6629-iii 1:50 000 Sheet. Includes bibliographical references (leaves 29-31).
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Layton, Ronald A. « Sustainability issues in the Central Mount Lofty Ranges ». Title page, table of contents and abstract only, 2001. http://web4.library.adelaide.edu.au/theses/09ENV/09envl429.pdf.
Bibliography: leaves 78-83. "The dissertation brings together discourses relating to sustainability with that of the environment, at least in terms of its meaning and responses to it being culturally constructed. The Central Adelaide Hills provides the locality for achieving this, which a peri-urban environment is subject to the power exerted by urban Adelaide as well as the tension arising out of land use conflict and attitudes to the environment."
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Wright, Christopher J. (Christopher John). « Flash flooding in an urban environment : causes, effects, potential damages and possible remedies, with particular reference to Keswick Creek in the inner suburbs of Adelaide ». 2001. http://web4.library.adelaide.edu.au/theses/09ENS/09ensw948.pdf.
Kim, Young-Kil. « Nutrient sources and dynamics in the Parafield stormwater harvesting facility and implication to water quality control ». 2010. http://hdl.handle.net/2440/57033.
The quantity of stormwater runoff from the city of Adelaide almost matches the demand for drinking water. It therefore becomes increasingly important as an alternative source for water supply. This research focused at the Parafield Stormwater Harvesting Facility near Adelaide in order to better understand: (1) nutrient dynamics between the water column, sediments and plant community, (2) allochthonous and autochthonous sources of nutrients and (3) nutrient retention capacity of the reed bed. A weekly monitoring programme for the physical and chemical parameters of the water column, sediment and plant community was carried out over three years for specific locations within the reed bed. Ordination and clustering of the time series data revealed distinctive seasonal and spatial nutrient patterns. The concentrations for total nitrogen (TN) showed high concentrations for the summer period (1.04 to 1.86 mg/L) and low concentration for the winter season (0.25 to 0.46 mg/L). For the other nitrogen fractions in form of nitrate (NO₃⁻) and ammonium (NH₄⁺) the seasonal patterns were different to that of TN. In NO₃⁻ the concentrations were high during the summer and winter seasons and NH₄⁺ showed high concentration during the spring. The seasonality for total phosphorus (TP) showed high concentration for the spring period (0.049 to 0.163 mg/L) and low concentration for the other seasons (0.01 to 0.019 mg/L). A similar pattern has been observed for phosphate (PO₄³ ⁻) as well. The dissolved organic carbon (DOC) concentrations showed high concentrations during the summer period (21.36 to 31.64 mg/L) and low concentration during the winter seasons (5.48 to 7.14 mg/L). The seasonal pattern for the nutrient contents of the plant community showed highest concentrations during summer (5.5 to 34.2 gTN/kg) and lowest concentrations in winter (0.2 to 7.7 gTN/kg). Nutrient concentrations in the sediments were highest during the non-growing seasons (autumn and winter). This result indicated that the function of sediments changes seasonally from being a sink during the non-growing season by accumulating both allochthonous and autochthonous nutrients in the rainy season, and becoming a source during the growing seasons due to nutrient release from anaerobic sediments supporting the growth of the macrophyte community. Overall the function of sediment in reed bed pond of the Stormwater Harvesting Facility was to be a source of nutrients and therefore no accumulation of nutrients occurred during the study period. The research has demonstrated that the reed bed currently performs as a reasonable nutrient retention system with following nutrient removal rates: 0.85 mg TN /m²/day, 0.79 mg NO₃⁻ /m²/day, 0.28 mg NH₄⁺/m²/day, 0.05 mg TP /m²/day, 0.04 mg PO₄³ ⁻ /m²/day, and 5.75 mg DOC /m²/day. Seasonal difference in the water retention time showed that the for most of the nutrients the removal performance was most effective during autumn and winter with the exception of the removal performance of P forms, which most effective during spring and summer. For TN, NO₃⁻ and DOC the RE was most efficient at a residence time > 15days, for TP and PO₄³ ⁻ it is 5-10 days and for NH₄⁺ it is <;5days. Time–series modelling of the monitoring data resulted in rule-based prediction models for the different nutrients. Sensitivity analyses of the models revealed key driving variables for the nutrient dynamics of the reed bed. The prediction results revealed that the DO was the key driving variable influencing the nutrient concentrations in the water column and therefore to improve the water quality of the treatment water DO levels have to maintained above the threshold of 4 mg/L. Beside DO other key driving variables were turbidity, ORP and the nutrient levels from the previous site. Therefore the control of these parameters would be the start to develop a management plan for best-practice management in terms of water quality at the Parafield Stormwater Harvesting Facility. http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1458926 Thesis (Ph.D.) -- University of Adelaide, School of Earth and Environmental Science, 2010
Livres sur le sujet "Floods South Australia Adelaide Region":
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Douglas, Kirsty. Pictures of Time Beneath. CSIRO Publishing, 2010. http://dx.doi.org/10.1071/9780643100251.
Pictures of Time Beneath examines three celebrated heritage landscapes: Adelaide’s Hallett Cove, Lake Callabonna in the far north of South Australia, and the World Heritage listed Willandra Lakes Region of New South Wales. It offers philosophical insights into significant issues of heritage management, our relationship with Australian landscapes, and an original perspective on our understanding of place, time, nation and science.
Glaciers in Adelaide, cow-sized wombats, monster kangaroos, desert dunes littered with freshwater mussels, ancient oases and inland seas: a diverse group of deep-time imaginings is the subject of this ground-breaking book. Ideas about a deep past in Australia are central to broader issues of identity, belonging, uniqueness, legitimacy and intellectual community. This journey through Australia’s natural histories examines the way landscapes and landforms are interpreted to realise certain visions of the land, the nation and the past in the context of contemporary notions of geological heritage, cultural property, cultural identity and antiquity.
Chapitres de livres sur le sujet "Floods South Australia Adelaide Region":
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Lindsay, J. Murray, et Brian McGowran. « Eocene/Oligocene Boundary, Adelaide Region, South Australia ». Dans Developments in Palaeontology and Stratigraphy, 165–73. Elsevier, 1986. http://dx.doi.org/10.1016/s0920-5446(08)70115-8.
Actes de conférences sur le sujet "Floods South Australia Adelaide Region":
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Setiawan, Bambang. « Seismic hazard analysis of the Adelaide region, South Australia ». Dans INTERNATIONAL SYMPOSIUM ON EARTH HAZARD AND DISASTER MITIGATION (ISEDM) 2016 : The 6th Annual Symposium on Earthquake and Related Geohazard Research for Disaster Risk Reduction. Author(s), 2017. http://dx.doi.org/10.1063/1.4987079.
