opportunities in new south wales, australia · overview • new south wales (nsw) offers a range of...
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Rare earth elementsOpportunities in New South Wales, Australia
To Adelaide
Mudgee
DUBBO
Wentworth
Cobar
ORANGE
WOLLONGONG
Nyngan
Walgett
Coonamble Gunnedah
Parkes
BrokenHill
Narrabri
Inverell
Cowra
Goulburn
Griffith
NOWRA
Batemans Bay
Narooma
Bega
Cooma
Moree
WAGGAWAGGA
ALBURY
Grafton
Yamba
BallinaLISMORE
NEWCASTLE
Balranald
Deniliquin
TibooburraLightning Ridge
Eden
BATHURST
PORT MACQUARIE
COFFS HARBOUR
Kempsey
Taree
Muswellbrook
Bourke
TAMWORTH
Armidale
SYDNEY
CANBERRA
A.C.T.
Q U E E N S L A N D
V I C T O R I A
SO
UT
H A
US
TR
AL
I A
New EnglandOrogen
LachlanOrogen
Murray Basin
Delamerian Orogen
Thomson Orogen
CurnamonaProvince
SnapperSnapperGinkgoGinkgo
Narraburrainferred73.2 Mt @ 1250 ppm ZrO2, 327 ppm REO,146 g/t Y2O3, 126 g/t Nb2O5, 45 g/t HfO2,61 g/t ThO2, 54 g/t Ga2O3, 118 g/t Li2O
Dubbo Zirconia Projectproved & probable35.93 Mt @ 1.93% ZrO2, 0.04% HfO2,0.14% Y2O3, 0.46% Nb2O5, 0.03% Ta2O5,0.74% other rare earth oxidesmeasured & inferred73.2 Mt @ 1.95% ZrO2, 0.04% HfO2,0.14% Y2O3, 0.46% Nb2O5, 0.03% Ta2O5,0.75% other rare earth oxides
Mole GraniteMole Granite
Gilgai GraniteGilgai Granite
Jindera GraniteJindera Granite
WhipstickGranite
WhipstickGranite
Dumboy-GraginGranite
Dumboy-GraginGranite
REFERENCEHeavy mineral sandsmine (monazite potential)REE projectGraniteExport portRailway Major road, sealedMajor road, unsealedGas pipeline
SnapperSnapper
200 km
N
Overview
• New South Wales (NSW) offers a range of opportunities for discoveries of rare earth elements (REE).
• Rocks known to contain elevated concentrations of rare earth elements in NSW include:• Trachytes such as those that host the Dubbo Zirconia
Project (Toongi)• Nephelinite and carbonatite magmatic rocks• Highly fractionated granitoids and pegmatites• Pliocene heavy mineral sands deposits that contain
monazite (for example the Snapper and Ginkgo mines).
• The potential for rare earth elements in NSW is largely untested.
• Rare earth elements comprise a series of 15 natural metallic elements ranging in atomic number from 57 (lanthanum) to 71 (lutetium). Also generally included for geological purposes are yttrium (which behaves as a rare earth element), scandium and thorium. Compounds of rare earth elements have numerous uses, such as in the production of automotive catalytic converters, optical lenses, lighting and powerful magnets.
resourcesandgeoscience.nsw.gov.au
Geological setting
Prospective rocks for rare earth elements include:• Potassic rocks, carbonatite and nephelinite rocks• Highly fractionated, metaluminous and peralkaline I-type
granites that can be enriched in incompatible elements. Hydrothermal activity, commonly involving chlorine and fluorine associated with the intrusions, can concentrate rare earth elements.
• Surficial clays and laterites with elevated concentrations of rare earth elements.
Bastnaesite is the most important mineral as a source of rare earth elements. Other important source or tracer minerals include parisite, monazite and xenotime.
Project highlights
Dubbo Zirconia Project (Toongi), about 275 km northwest of Sydney, is a world-class resource containing zirconium (ZrO2), hafnium (HfO2), niobium (Nb2O5), tantalum (Ta2O5), yttrium (Y2O3) and rare earth elements. The deposit is associated with a hydrothermally altered pipe-like alkaline (trachyte) intrusion of Jurassic age.
Narraburra, 375 km west of Sydney, contains zirconium oxide, yttrium oxide, rare earth oxides, niobium oxide, and thorium oxide, hosted by deeply weathered and fresh leucogranite.
Exploration targets
The Lachlan Orogen, recognised as a world-class mineral province for metalliferous deposits, also hosts important rare earth element deposits.
Exploration opportunities for rare earth elements include highly fractionated metaluminous and peralkaline I-type granitoids and associated skarns (e.g. at Narraburra, Jindera and Whipstick).
Latite–trachyte intrusions, mainly of Jurassic age, are scattered widely across NSW. These intrusions have potential for Toongi-style deposits. Laterites associated with the intrusions have potential to host elevated concentrations of rare earth elements.
The New England Orogen hosts highly fractionated, relatively oxidised and metaluminous I-type granitoids of Permian to Early Triassic age. The Mole Granite, north east of Inverell, is associated with many polymetallic mineral occurrences, some of which contain monazite with elevated rare earth elements and thorium. Other prospective rocks in the area include the Dumboy-Gragin and Gilgai granitoids.
In the Proterozoic Curnamona Craton, highly anomalous concentrations of rare earth elements occur in sulfide-bearing deposits including the famous Broken Hill base metal deposit. Granitoids (e.g. Mundi Mundi-type) and associated pegmatites can also be anomalous in rare earth elements.
The Delamerian Orogen is a greenfields terrain that offers many opportunities for rare earth elements including oxidised mafic carbonatite and nepheline syenite.
The Murray Basin in the southwest of the state is a globally significant heavy mineral sands province, with extensive Pliocene beach placer deposits that contain rare earth element-bearing monazite. The economic potential for monazite associated with heavy mineral sands extraction has not been fully established.
Periodic table
REERare EarthElements
PmPromethium145
61
EuEuropium152.0
63
GdGadolinium157.3
64
TbTerbium158.9
65
NdNeodymium144.2
60
DyDysprosium62.5
66
CeCerium140.1
58
LaLanthanum138.9
57
PrPraseodymium140.9
59
SmSamarium150.4
62
YbYtterbium173.1
70
HoHolmium164.9
67
ErErbium167.3
68
TmThulium168.9
69
LuLutetium175.0
71
NpNeptunium237
93
AmAmericium243
95
CmCurium247
96
BkBerkelium247
97
UUranium238.0
92
CfCalifornium252
98
ThThorium232.0
90
AcActinium227
89
PaProtactinium231.0
91
PuPlutonium244
94
NoNobelium259
102
EsEinsteinium252
99
FmFermium257
100
MdMendelevium258
101
LrLawrencium262
103
HHydrogen1.007
1
HeHelium4.003
2
FrFrancium223
87
RaRadium226
88
BhBohrium262
107
MtMeitnerium266
109
DsDarmstadtium269
110
RgRoentgenium272
111
SgSeaborgium263
106
CnCopernicium277
112
RfRutherfordium261
104
**Actinideseries
89-103
DbDubnium262
105
HsHassium265
108
LvLivermorium292
116
FlFlerovium289
114
RbRubidium85.47
37
SrStrontium87.62
38
XeXenon131.3
54
TcTechnetium98.0
43
RhRhodium102.9
45
PdPalladium106.42
46
AgSilver107.8682
47
MoMolybdenum95.96
42
CdCadmium112.4
48
ZrZirconium91.224
40
YYttrium88.91
39
NbNiobium92.91
41
RuRuthenium101.07
44
TeTellurium127.6
52
InIndium114.818
49
SnTin118.710
50
SbAntimony121.760
51
IIodine126.9
53
CsCaesium132.9
55
BaBarium137.327
56
RnRadon222
86
ReRhenium186.2
75
IrIridium192.2
77
PtPlatinum195.084
78
AuGold196.966569
79
WTungsten183.84
74
HgMercury200.6
80
HfHafnium178.5
72
*Lanthanideseries
57-71
*
**
TaTantalum180.94788
73
OsOsmium190.2
76
PoPolonium209
84
TlThalium204.3
81
PbLead207.2
82
BiBismuth208.98
83
AtAstatine210
85
KPotassium39.10
19
CaCalcium40.08
20
KrKrypton83.80
36
MnManganese54.938044
25
CoCobalt58.933194
27
NiNickel58.6934
28
CuCopper63.546
29
CrChromium51.9961
24
ZnZinc65.38
30
TiTitanium47.867
22
ScScandium44.96
21
VVanadium50.94
23
FeIron55.85
26
SeSelenium78.96
34
GaGallium69.723
31
GeGermanium69.723
32
AsArsenic74.92
33
BrBromine79.90
35
LiLithium6.94
3
BeBeryllium9.0121831
4
NeNeon20.18
10
OOxygen16.00
8
BBoron10.80
5
CCarbon12.00
6
NNitrogen14.00
7
FFluorine19.00
9
NaSodium22.99
11
MgMagnesium24.3
12
ArArgon39.95
18
SSulfur32.06
16
AlAluminium26.9815385
13
SiSilicon28.08
14
PPhosphorus30.97
15
ClChlorine35.44
17
Pegmatite, Triple Chance mine.
Rare earth elements uses (2013) by value
1%Other
6%Polishing, glazes
65%Catalysts
19%Metallurgical alloys
9%Magnets
Source: USGS 2015
Contact: [email protected] | +61 2 4063 6500Disclaimer: The information contained in this publication is based on knowledge and understanding at time of writing (October 2019), using publicly available information. Because of advances in knowledge, users are reminded of the need to ensure that information upon which they rely is up to date. The information contained in this publication may not be or may no longer be aligned with government policy nor does the publication indicate or imply government policy. No warranty about the accuracy, currency or completeness of any information contained in this document is inferred (including, without limitation, any information in the document provided by third parties). While all reasonable care has been taken in the compilation, to the extent permitted by law, the State of New South Wales (including the NSW Department of Planning, Industry and Environment) exclude all liability for the accuracy or completeness of the information, or for any injury, loss, or damage whatsoever (including without limitation liability for negligence and consequential losses) suffered by any person acting, or purporting to act, in reliance upon anything contained herein. Users should rely upon their own advice, skills, interpretation and experience in applying information contained in this publication. The product trade names in this publication are supplied on the understanding that no preference between equivalent products is intended and that the inclusion of a product name does not imply endorsement by the Department over any equivalent product.