Gulf Unallocated Water Release 2020

Total Page:16

File Type:pdf, Size:1020Kb

Gulf Unallocated Water Release 2020 GULF UNALLOCATED Gilbert River Zone 6 (AMTD 0 to 171) ´ WATER RELEASE 2020 G Cairns Townsville GilbertRiv er Mt Isa AMTD 171 Rockhampton (junction Gilbert and Ei Ri n Einasleigh Rivers) a v slei er F gh Brisbane Gilbert River Zone 6 (AMTD 171 to 368) INSET Catchment areas: B. Nicholson River Catchment C. Leichhardt River Catchment Gilbert River Zone 6 F. Norman River Catchment (AMTD 0 to 171) G. Gilbert River Catchment Annual volume Subcatchment areas: available 75,000 ML (i) Nicholson River Subcatchment Volume limit per (iv) Lower Leichhardt Subcatchment property 25,000 ML D e ev Burk Ro ad Nicholson River Gilbert River Catchment Area (B) Catchment Area (G) Subcatchment Area (i) unzoned or Annual volume available 4400 ML Volume limit per property 4400 ML Gilbert River Zone 6 (AMTD 171 to 368) Annual volume See Inset available 10,000 ML Volume limit per sleigh on Karumba Eina property 2,000 ML ls r o e River h iv B R i Nic Normanton Gi Burketown l bert B R Doomadgee Croydon iv er Georgetown i Le i c h ha W r F ills d t G DevRoadR ive r N orman R C iver iv Camooweal Norman River B ark ly Catchment Area (F) H ighwa Annual volume y available 3,000 ML Volume limit per Lower Leichhardt River Julia Ck. Mt Isa Flind property 3,000 ML Catchment Area (C) ersRichmond Subcatchment Area (iv) Cloncurry Highway Annual volume Hughenden available 10,000 ML Volume limit per property 5,000 ML Legend Town Disclaimer: Stream While every care is taken to ensure the accuracy of this product, the State of Queensland makes Major road no representations or warranties about its Gulf water plan area accuracy, reliability, completeness or suitability Coordinate System: GDA 1994 for any particular purpose and disclaims all Projection: Geographic responsibility and all liability (including without Gilbert River Zone 6 - AMTD 0 to 171 limitation, liability in negligence) for all expenses, Datum: GDA 1994 losses, damages (including indirect or Gilbert River Zone 6 - AMTD 171 to 368 consequential damage) and costs which you might incur as a result of the product being Kilometres BCatchment area inaccurate or incomplete in any way and for 050 100 200 any reason. i Subcatchment area © The State of Queensland (Natural Resources, Mines and Energy) 2020 A4_WP200629-3_v1.
Recommended publications
  • Improved Continuing Losses Estimation Using Initial Loss-Continuing Loss Model for Medium Sized Rural Catchments
    American J. of Engineering and Applied Sciences 2 (4): 796-803, 2009 ISSN 1941-7020 © 2009 Science Publications Improved Continuing Losses Estimation Using Initial Loss-Continuing Loss Model for Medium Sized Rural Catchments Mahbub Ilahee and Monzur Alam Imteaz Faculty of Engineering and Industrial Sciences, Swinburne University of Technology, Hawthorn, Melbourne, VIC 3122, Australia Abstract: Problem statement: The rainfall based design flood estimation techniques are commonly adopted in hydrological design and require a number of inputs including information on soil loss characteristics. Approach: A conceptual loss model known as the ‘Initial Loss-Continuing Loss (IL- CL) model’ is widely used in Australia. Results: The Initial Loss (IL) occurs at the beginning of the rainfall event, prior to the commencement of surface runoff and the Continuing Loss (CL) is the average rate of loss throughout the remainder of the storm. The currently recommended design loss values depicted in “Australian Rainfall and Runoff Vol. 1” for Queensland (Australia) has some basic limitations. This study investigated how more accurate CL values can be estimated and derived for medium sized tropical Queensland catchments using long term rainfall and streamflow data. Accuracy in CL estimation has got significant implications in the estimation of design floods. Conclusion/Recommendations: The results showed that CL value is not fixed and constant through out the duration of the storm but the CL value decays with the duration of the storm. Key words: Initial loss, continuing loss, rural catchments, flood estimation, rainfall-runoff modeling PROBLEM STATEMENT topography, soil characteristics, vegetation and climate; the components exhibit a high degree of temporal and Flood estimation is often required in hydrologic spatial variability during high rainfall events.
    [Show full text]
  • An Assessment of Agricultural Potential of Soils in the Gulf Region, North Queensland
    REPORT TO DEPARTMENT OF NATURAL RESOURCES REGIONAL INFRASTRUCTURE DEVELOPMENT (RID), NORTH REGION ON An Assessment of Agricultural Potential of Soils in the Gulf Region, North Queensland Volume 1 February 1999 Peter Wilson (Land Resource Officer, Land Information Management) Seonaid Philip (Senior GIS Technician) Department of Natural Resources Resource Management GIS Unit Centre for Tropical Agriculture 28 Peters Street, Mareeba Queensland 4880 DNRQ990076 Queensland Government Technical Report This report is intended to provide information only on the subject under review. There are limitations inherent in land resource studies, such as accuracy in relation to map scale and assumptions regarding socio-economic factors for land evaluation. Before acting on the information conveyed in this report, readers should ensure that they have received adequate professional information and advice specific to their enquiry. While all care has been taken in the preparation of this report neither the Queensland Government nor its officers or staff accepts any responsibility for any loss or damage that may result from any inaccuracy or omission in the information contained herein. © State of Queensland 1999 For information about this report contact [email protected] ACKNOWLEDGEMENT The authors thank the input of staff of the Department of Natural Resources GIS Unit Mareeba. Also that of DNR water resources staff, particularly Mr Jeff Benjamin. Mr Steve Ockerby, Queensland Department of Primary Industries provided invaluable expertise and advice for the development of the agricultural suitability assessment. Mr Phil Bierwirth of the Australian Geological Survey Organisation (AGSO) provided an introduction to and knowledge of Airborne Gamma Spectrometry. Assistance with the interpretation of AGS data was provided through the Department of Natural Resources Enhanced Resource Assessment project.
    [Show full text]
  • NW Queensland Water Supply Strategy Investigation
    NW Queensland Water Supply Strategy Investigation Final Consultant Report 9 March 2016 Document history Author/s Romy Greiner Brett Twycross Rohan Lucas Checked Adam Neilly Approved Brett Twycross Contact: Name Alluvium Consulting Australia ABN 76 151 119 792 Contact person Brett Twycross Ph. (07) 4724 2170 Email [email protected] Address 412 Flinders Street Townsville QLD 4810 Postal address PO Box 1581 Townsville QLD 4810 Ref Contents 1 Introduction 1 2 Methodology 2 2.1 Geographic scope and relevant regional characteristics 2 2.2 Situation and vulnerability analysis 3 2.3 Multi criteria decision analysis 5 2.3.1 The principles of multi criteria decision making 5 2.3.2 Quantitative criteria 7 2.3.3 Qualitative criteria 8 3 Situation analysis: Water demand and supply 12 3.1 Overview 12 3.2 Urban water demand and supply 14 3.2.1 Mount Isa 14 3.2.2 Cloncurry 15 3.3 Mining and mineral processing water demand and supply 16 3.3.1 Mount Isa precinct 16 3.3.2 Cloncurry precinct 17 3.4 Agriculture 18 3.5 Uncommitted water 19 3.6 Projected demand and water security 19 3.7 Vulnerability to water shortages 20 4 Water infrastructure alternatives 21 4.1 New water storage in the upper Cloncurry River catchment 23 4.1.1 Cave Hill Dam 23 4.1.2 Black Fort Dam 25 4.1.3 Painted Rock Dam 26 4.1.4 Slaty Creek 27 4.1.5 Combination of Black Fort Dam and Slaty Creek 27 4.2 Increasing the capacity of the Lake Julius water supply 28 4.3 Utilising currently unused water storage infrastructure 30 4.3.1 Corella Dam 30 4.3.2 Lake Mary Kathleen 31 5 Ranking
    [Show full text]
  • Surface Water Ambient Network (Water Quality) 2020-21
    Surface Water Ambient Network (Water Quality) 2020-21 July 2020 This publication has been compiled by Natural Resources Divisional Support, Department of Natural Resources, Mines and Energy. © State of Queensland, 2020 The Queensland Government supports and encourages the dissemination and exchange of its information. The copyright in this publication is licensed under a Creative Commons Attribution 4.0 International (CC BY 4.0) licence. Under this licence you are free, without having to seek our permission, to use this publication in accordance with the licence terms. You must keep intact the copyright notice and attribute the State of Queensland as the source of the publication. Note: Some content in this publication may have different licence terms as indicated. For more information on this licence, visit https://creativecommons.org/licenses/by/4.0/. The information contained herein is subject to change without notice. The Queensland Government shall not be liable for technical or other errors or omissions contained herein. The reader/user accepts all risks and responsibility for losses, damages, costs and other consequences resulting directly or indirectly from using this information. Summary This document lists the stream gauging stations which make up the Department of Natural Resources, Mines and Energy (DNRME) surface water quality monitoring network. Data collected under this network are published on DNRME’s Water Monitoring Information Data Portal. The water quality data collected includes both logged time-series and manual water samples taken for later laboratory analysis. Other data types are also collected at stream gauging stations, including rainfall and stream height. Further information is available on the Water Monitoring Information Data Portal under each station listing.
    [Show full text]
  • Records of the Australian Museum
    RECORDS AUSTRALIAN MUSEUM EDITED BY THE CURATOR Vol VI H. PRINTED BY ORDER OF THE TRUSTEES. R. ETHERIDGE, Junr., J. P. Qturatov. SYDNEY, 1910-1913. 5^^^ l^ ^ll ^ CONTENTS. No. I. Published 1 5th November, 19 JO. pagb; North Queensland Ethnogi'aphy. By Walter E. Roth No. 14. Transport and Trade 1 No. 15. Decoration, Deformation, and Clothing 20 No. 16. Huts and Shelters 55 No. 17. Postures and Abnormalities 67 No. 18. Social and Individual Nomenclature ... 79 No. 2. Published 27th January, I9n. Description of Cranial Remains from Whaugarei, New Zealand By W. Ramsay Smith ... ... ... ... 107 The Results of Deep-Sea Investigations in the Tasman Sea. I. The Expedition of H.M.C.S. " Miner." No. 5. Polyzoa Supplement. By C. M. Maplestone ... ... ... 113 Mineralogical Notes. No. ix. Topaz, Quartz, Monazite, and other Australian Minerals. By C. Anderson ... ... 120 No. 3. Published 6th May, J9I2. Descriptions of some New or Noteworthy Shells in the Australian Museum. By Chai'les Hedley. ... ... ... 131 No. 4. Published 1 8th April, 19 13. Australian Tribal Names with their Synonyms. By W. W, Thorpe ... ... ... ... ... 161 Title Page, Contents, and Indices ... ... ... 193 — — — LIST OF THE CONTRIBUTORS. With Reference to the Articles contributed by each. Anderson, Chas. : PACK Miueralogical Notes. No. ix. Topaz, Quartz. Mouazite, and other Australian Minerals ... ... ... 120 Medley, Chas. Desoriptions of Ronie New or Noteworthy Shells in the Australian Museum ... ... .. ... 131 Maplestone, C. M. :— The Results of Deep-Sea Investigations in the Tasman Sea. I. The Expedition of H.M.C.S. "Miner." No. 5. Polyzoa. Supplement ... ... ... 118 Roth, Walter E. :— North Queensland Ethnography.
    [Show full text]
  • The Freshwater Crayfish (Family Parastacidae) of Queensland
    AUSTRALIAN MUSEUM SCIENTIFIC PUBLICATIONS Riek, E. F., 1951. The freshwater crayfish (family Parastacidae) of Queensland. Records of the Australian Museum 22(4): 368–388. [30 June 1951]. doi:10.3853/j.0067-1975.22.1951.615 ISSN 0067-1975 Published by the Australian Museum, Sydney nature culture discover Australian Museum science is freely accessible online at http://publications.australianmuseum.net.au 6 College Street, Sydney NSW 2010, Australia 11ft! FRESHWATER CRAYFISH (FAMILY PARASTACIDAE) OF QUEENSLAND WITH AN ApPENDIX DESORIBING OTHlm AV5'lHALIAN SPEClEf'. By E. F. HIEK. (;ommonwealth Scientific and Industrial l~csearch Organization - Divhdon of Entomology, Canberra, A.C.T. (Figures 1-13.) Freshwater crayfish occur in almost every body of fresh water from artificial damfl and natural billabongs (I>tanding water) to headwater creeks and large rivers (flowing water). Generally the species are of considerable size and therefore easily collected, but even so many of the larger forms are unknown scientifically. This paper deals with all the species that have been collected from Queensland. It also includes a few species from New South Wales and other States. No doubt additional species will be found and some of the mOre variable series, at present included under the one specific namc, will be further subdivided. From Queensland nine species are described as new, making a total of seventeen species (of three genera) recorded from that State. The type localities of all but two of these species are in Queensland but some are not restricted to the State. Clark's 1936 and subsequent papers have been used as the basis for further taxonomic studies of the Australian freshwater crayfish.
    [Show full text]
  • We Would Rather Be Ruined Than Changed We Would Rather Die in Our Dread Than Climb the Cross of the Moment and Let Our Illusions Die W.H
    SOME EARLY ILLUSIONS CONCERNING NORTH QUEENSLAND Ray Sumner Department of Geography James Cook University of North Queensland We would rather be ruined than changed We would rather die in our dread Than climb the cross of the moment And let our illusions die W.H. Auden Our assessment of any landscape results as much from how we view it as from the reality of what is actually there. As Brookfield said "decision makers operating in an environment base their decisions on the environ- ment as they perceive it, not as it is". 1 The Europeans who explored tropical Queensland entered an unknown land which they were required to examine and then offer an assessment of its potential. Since the environment confronted the explorers with a situation of complete uncertainty, a subjective error component was inevitable in their description and analysis, but in fact their reaction to the new environment was affected by what they wanted to see, or thought they saw, as much as by what was actually there. The image of new country recounted by each explorer resulted largely from his response to visual stimuli in the new environment. Since observation and interpretation are enhanced by some degree of familiarity, a history of prior exploration in the south might be expected to improve the performance of explorers in the Tropics, but this was no criterion for an objective appraisal of the new areas. After three successful journeys of exploration in southern states, the Surveyor-General Major (later Sir) Thomas Mitchell concluded his trip to central Queensland with a spectacular blunder; Edmund Kennedy had a background of inland journeys, but died in a disastrous attempt on Cape York.
    [Show full text]
  • Sources and Pathways of Contaminants to the Leichhardt River Sources and Pathways of Contaminants to the Leichhardt River
    Lead Pathways Study – Water Sources and Pathways of Contaminants to the Leichhardt River Sources and Pathways of Contaminants to the Leichhardt River 2 Centre for Mined Land Rehabilitation – Sustainable Minerals Institute Sources and Pathways of Contaminants to the Leichhardt River Lead Pathways Study – Water Sources and Pathways of Contaminants to the Leichhardt River 11 May 2012 Report by: Barry Noller1, Trang Huynh1, Jack Ng2, Jiajia Zheng1, and Hugh Harris3 Prepared for: Mount Isa Mines Limited Private Mail Bag 6 Mount Isa 1 Centre for Mined Land Rehabilitation, The University of Queensland, Qld 4072 2 National Research Centre for Environmental Toxicology, The University of Queensland Qld 4008 3 School of Chemistry and Physics, The University of Adelaide SA 5005 Centre for Mined Land Rehabilitation – Sustainable Minerals Institute 3 Sources and Pathways of Contaminants to the Leichhardt River This report was prepared by the Centre for Mined Land Rehabilitation, Sustainable Minerals Institute, The University of Queensland, Brisbane, Queensland 4072. The report was independently reviewed by an environmental chemistry specialist, Dr Graeme Batley. Dr Graeme Batley, B.Sc. (Hons 1), M.Sc, Ph.D, D.Sc Chief Research Scientist in CSIRO Land and Water’s Environmental Biogeochemistry research program Dr Graeme Batley is the former director and co-founder of the Centre for Environmental Contaminants Research (CECR), a program that brings together CSIRO’s extensive expertise in research into the contamination of waters, sediments and soils. He is also a Fellow of the Royal Australian Chemical Institute, member Australasian Society for Ecotoxicology and Foundation President and Board Member of the Society of Environmental Toxicology and Chemistry (SETAC) Asia/Pacific.
    [Show full text]
  • AUSTRALIAN BIODIVERSITY RECORD ______2007 (No 2) ISSN 1325-2992 March, 2007 ______
    AUSTRALIAN BIODIVERSITY RECORD ______________________________________________________________ 2007 (No 2) ISSN 1325-2992 March, 2007 ______________________________________________________________ Some Taxonomic and Nomenclatural Considerations on the Class Reptilia in Australia. Some Comments on the Elseya dentata (Gray, 1863) complex with Redescriptions of the Johnstone River Snapping Turtle, Elseya stirlingi Wells and Wellington, 1985 and the Alligator Rivers Snapping Turtle, Elseya jukesi Wells 2002. by Richard W. Wells P.O. Box 826, Lismore, New South Wales Australia, 2480 Introduction As a prelude to further work on the Chelidae of Australia, the following considerations relate to the Elseya dentata species complex. See also Wells and Wellington (1984, 1985) and Wells (2002 a, b; 2007 a, b.). Elseya Gray, 1867 1867 Elseya Gray, Ann. Mag. Natur. Hist., (3) 20: 44. – Subsequently designated type species (Lindholm 1929): Elseya dentata (Gray, 1863). Note: The genus Elseya is herein considered to comprise only those species with a very wide mandibular symphysis and a distinct median alveolar ridge on the upper jaw. All members of the latisternum complex lack a distinct median alveolar ridge on the upper jaw and so are removed from the genus Elseya (see Wells, 2007b). This now restricts the genus to the following Australian species: Elseya albagula Thomson, Georges and Limpus, 2006 2006 Elseya albagula Thomson, Georges and Limpus, Chelon. Conserv. Biol., 5: 75; figs 1-2, 4 (top), 5a,6a, 7. – Type locality: Ned Churchwood Weir (25°03'S 152°05'E), Burnett River, Queensland, Australia. Elseya dentata (Gray, 1863) 1863 Chelymys dentata Gray, Ann. Mag. Natur. Hist., (3) 12: 98. – Type locality: Beagle’s Valley, upper Victoria River, Northern Territory.
    [Show full text]
  • Port of Karumba, July 2021
    4. Port description 4.1 General Information Karumba is situated in the south-east corner of the Gulf of Carpentaria, 530 kilometres west of Cairns at the mouth of the Norman River. The Karumba Shipping Channel has been maintained in the past for Zinc concentrate exports. The mine was closed in February 2016 and there will be no more large scale maintenance dredging of the shipping channel. Far North Queensland Ports Corporation Limited, who manage the port, have advised that they will not be commissioning maintenance dredging therefore it is expected that the channel will gradually reduce in depth and width due to siltation. A small scale maintenance dredging campaign took place in 2018 to remove siltation for the commencement of limited zinc concentrate exports. Studies undertaken by Far North Queensland Ports Corporation Limited indicate that the minimum depth of the channel could be reduced to -2.0m LAT within 2 years – the rate of siltation may be effected by the strength of the NW monsoon during the wet season. Karumba also provides a trawler base for the prawn and fishing industry, the export of live cattle and a community port for servicing townships in the area. 4.2 Pilotage area The Karumba Pilotage area is described in Schedule 2 of the Transport Operations (Marine Safety) Regulation 2016 as the area of: a) Waters at the high water mark consisting of the following: • the Norman River and connected waterways system from the head of navigation to the river mouth • from the river mouth, the waters within a 10 nautical mile radius centred at the north head of the Norman River entrance; and The navigable waters of rivers and creeks flowing, directly or indirectly, into the waters in paragraph (a).
    [Show full text]
  • Lead Pathways Study Land Report Summary
    Lead Pathways Study Land Report summary July 2009 Summary of the report Study of Heavy Metals and Metalloids in the Leichhardt River and Surrounding Locations by: Barry Noller, Centre for Mined Land Rehabilitation, The University of Queensland Jack Ng, National Research Centre for Environmental Toxicology, The University of Queensland Vitukawalu Matanitobua, National Research Centre for Environmental Toxicology, The University of Queensland University of Queensland’s Professor Jack Ng Centre for Mined Land Professor Ng is a certified toxicologist (DABT – Diplomate of the American Board of Rehabilitation (CMLR) Toxicology) and is the Program Manager for Metals and Metalloids (M&M) Research at the Formally established in 1993, the Centre for Mined Land National Research Centre for Environmental Rehabilitation (CMLR) at The University of Queensland (UQ) Toxicology (EnTox). His major research themes consists of a collaborative and multidisciplinary grouping of include chemical speciation of arsenic species in environmental research, teaching and support staff and postgraduate students and biological media, bioavailability in relationship to toxicities dedicated to delivering excellence in environmental research using various animal models, carcinogenicity and mechanistic and education to the Queensland, national and international studies of chronic arsenic toxicity in both humans and animals. minerals industry and associated government sectors. Other research interests include toxicity of mixed metals, the The Centre is widely recognised as the source of quality research transfer of heavy metals via the food chain from mine tailings and postgraduate students at the cutting edge of issues in and other mining wastes in addition to study on natural toxins mining environmental management and sustainability. It has in plants relevant to human health.
    [Show full text]
  • The Gulf Savannah Is a Far Medical Centres at Georgetown, Forsayth, Normally in Force from October to February
    Head Office: Department of Natural Resources and Water Cnr Main & Vulture Sts, Woolloongabba, Brisbane Locked Bag 40, Coorparoo Delivery Centre, Qld. 4151 Ph (07) 3896 3216, Fax (07) 3896 3510 For all your regional and recreational map needs, Sunmap products are available from Departmental service centres, distributors and selected retailers throughout Queensland or the Queensland Government Bookshop at: www.publications.qld.gov.au. The development of aviation and the inspiration of John Flynn To view the complete range of products and services, visit our home combined after World War I to include the remote Gulf frontier in page at: www.nrw.qld.gov.au. the network of Flying Doctor Services which made up the ‘mantle of safety’ for the inland areas of Australia. The Etheridge Goldfield, the ‘poor man’s goldfield’ has never been worked out. Discovered by Richard Daintree in 1869, the Etheridge survived the rushes to the Palmer Over the bush ‘roads’ rolled the legendary and other richer fields in North Queensland. The ghosts Founded in 1865 by commercial and pastoral interests led by The traditional industries of the Gulf The Normanton to Croydon Railway is a living relic of the age of steam railways. Originally coaches of Cobb and Co. and other lines, of such towns as Charleston on the Etheridge and Robert Towns, Burketown in its early days was a wild frontier Savannah are fishing and grazing, with intended to link the port of Normanton to the copper mines of Cloncurry, the discovery of gold carrying mail and passengers between Gilberton on the Gilbert Field still dot the Savannah and Weipa town, the refuge of law breakers and adventurers, a town which beef cattle succeeding sheep, which were around Croydon led to its diversion to that Goldfield in 1891.
    [Show full text]