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2007 July 16 2007

 

Xemplar Discovers New Uraniferous Alaskite Body at Warmbad

Mr. W.G.McDowall reports,

XEMPLAR DISCOVERS NEW URANIFEROUS ALASKITE BODY AT ITS WARMBAD PROJECT IN NAMIBIA

Vancouver, July 16th 2007 - Xemplar Energy Corp (TSX-Venture: XE; Frankfurt: E7R) ("Xemplar" or the "Company" is pleased to update the progress at its Warmbad Project (Exclusive Prospecting Licenses EPL's 3567 and 3568) in Namibia.

Field mapping and follow-up ground truthing of airborne radiometric anomalies has resulted in the identification of a new uraniferous Alaskite body in the northeast portion of the licence area. This body was discovered on the farm Aluriesfontein 308 and appears to resemble an uraniferous alaskitic batholith. Batholiths are large emplacement structures that are formed by rising plutonic masses. The uraniferous Alaskite body has a surface area of approximately four (4) square kilometers and is in a nearly perfect square shape. The rock type at Aluriesfontein is identical to the alaskites found in the southern portion of the licence area. At this point, the depth extent of the Aluriesfontein body is not known. The newly identified Aluriesfontein body has an anomalous and distinct radiometric signature and will be included in the planned drill program for the Warmbad area.

The Fugro airborne survey at Warmbad is nearing completion. With the discovery of the new uraniferous Alaskite body on the farm Aluriesfontein 308, the airborne survey has been extended from 16,000 to 22,500 line kilometers. To date approximately 17,000 line kilometers have been flown. This survey is acquiring multi-channel radiometric and magnetic data along lines 50 metres apart at a height of 20 metres. A preliminary interpretation of the data acquired to date shows that the survey is effectively mapping the alaskite bodies and is also mapping the surface uranium mineralisation within the alaskites themselves. The survey is expected to be completed in 10 days time.

Drilling at Warmbad will commence once the airborne survey has been completed and the resulting data interpreted.

Mike Magrum, PEng, a qualified person under National Instrument 43-101, has approved the technical content of this news release.

On behalf of the Board of Directors,

Xemplar Energy Corp.

"W.G.McDowall"
W.G. McDowall
President and CEO

 

 

Ich schau mir gerade die aktuellen Austeller für die Rohstoffmesse auf der IAM an und bin über dieses Unternehmen gestolpert.

 

Wie schätzt Ihr das ein??? 

 

Hey,

 

hab auc hgerade mal die Ausstellerliste der IAM durchforstet. Schon spannend, wer da alles vertreten sein wird. Ich werd mir auch bevor ich hinfahr die Mühe machen, mal alle genauer zu durchleuchten.  

 

Das schaut lt. Chart doch sehr gut aus im Moment. Xemplar wird in Frankfurt zu den Ausstellern gehören und ich bin gespannt, was mich da erwartet. Hier aber erstmal ein paar Infos zum Unternehmen.

http://www.xemplar.ca/...

Xemplar Energy Corporation ("XE" on the TSX Venture Exchange) is a Canadian-based company focused on uranium exploration. Xemplar seeks to identify, acquire and develop uranium projects worldwide that show promise of potentially economic grades and tonnages in a timely, responsible, and cost effective manner. The Company has combined a team of geologists and directors with extensive experience in uranium exploration, raising exploration capital and building shareholder value through new acquisitions and exploration success.

The increasing price of uranium, coupled with dozens of planned nuclear power projects, has resulted in numerous exploration companies seeking uranium deposits in many locales.

Since 2000, uranium has risen from a low of US $7/lb. to over US $100/lb. Most energy analysts are predicting a global uranium shortage of some 45,000 tonnes (100,000,000 lbs) over the next decade, unless significantly more mines are brought into production. Xemplar is becoming strategically positioned to take advantage of the world's increasing demand for nuclear generated electricity, and the renewed importance of uranium exploration.

 

Warmbad Property

Click here to see the full report on Warmbad...
43-101 Report on the Warmbad Uranium Project...

General

The area is located in the extreme south of Namibia. This area is is positioned along the north side of the Orange River. High radiation patterns extend over most of this area. Eleven uranium occurrences have been identified along a linear feature some 30 kms in length. The exploration model is a Rossing type uranium occurrence exists. Uraniferous alaskite samples have yielded assay results ranging from 0.9 kilogram to 4.72 kg per ton ranging from 0.9 kilogram to 4.72 kg per ton (0.09% to 0.472%) U3O8.

Size

Approx 4,700 Km2 (470000 ha or 1,161,391 acres)

Geological Description

The area is covered by igneous rocks of the Orange River Group and of the Namaqualand Metamorphic Belt.

Exploration Target and Mineralisation Model

In terms of exploration targets, there exists the possibility of a Rossing equivalent. The Warmbad uranium occurrences come from and within a geological environment identical to that of Rio Tinto's Rossing uranium mine. Rossing is classified as the fifth-largest producer of largest producer of uranium in the world and accounts for 8 per cent of world production.

Conclusions Drawn from Analysis of Historical Information

The entire Warmbad data set has been examined and it has been found that the Houms River Alaskites demonstrate a clear uranium channel response. These bodies appear to be identical to the uraniferous alaskites that occur at Rossing, with numerous mineralization occurrences at many localites throughout the Company's license area EPL 3567 and EPL 3568. Though the data from the Company's current exploration work needs to be completed and analyzed, Xemplar believes that the Warmbad area has a high potential to host an economic ore body.

2007 Exploration Program

1. Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).
2. Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).
3. Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).
4. Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).
5. Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).Currently ground-checking all uranium anomalies and carrying out extensive ground sampling program.Currently carrying out detailed Helicopter radiometric survey. 22,500 line kilometers will have been flown by the end of July 2007.Drilling program will commence in Q3, 2007 after airborne survey is completed and resulting data analyzed.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades and assaying.Obtain estimates of possible tonnages and grades for the deposit(s).

Results from Exploration Program

Excerpt from Press Release (July 16, 2007):
Field mapping and follow-up ground truthing of airborne radiometric anomalies has resulted in the identification of a new uraniferous Alaskite body in the northeast portion of the licence area. This body was discovered on the farm Aluriesfontein 308 and appears to resemble an uraniferous alaskitic batholith. Batholiths are large emplacement structures that are formed by rising plutonic masses. The uraniferous Alaskite body has a surface area of approximately four (4) square kilometers and is in a nearly perfect square shape. The rock type at Aluriesfontein is identical to the alaskites found in the southern portion of the licence area. At this point, the depth extent of the Aluriesfontein body is not known. The newly identified Aluriesfontein body has an anomalous and distinct radiometric signature and will be included in the planned drill program for the Warmbad area.

To view the entire news release, click here:
July 16, 2007 Press Release: Xemplar Discovers New...

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Cape Cross Property

Click here to see the full report on Cape Cross...
43-101 Report on the Aus and Cape Cross Uranium Pr...

General

Mining companies who have held EPL's in this area include Rand Mines, General Mining and Falconbridge. All three of these companies have carried out uranium exploration work in the area. The area is situated 20 km north of Henties Bay. Prospecting was directed at secondary uranium mineralization associated with calcrete palaeochannels.

Size

3,855 square kilometers (385,500 ha or 952,587 acres)

Geological Description

The palaeochannel system within the area consist of a crust of gypcrete underlain by calcrete and calcareous conglomerates. Trenching of the palaeochannels exposed carnotite. A further palaeochannel was investigated by 49 percussion drill holes totaling 505 meters. A mineralized zone with a length of 7 kilometers and a width of between 0.2 and 0.5 kilometers was located. The thickness of the mineralized zone varies from 0.3 to 3.8 meters and grade between 60 grams/ton and 140 grams/ton. Further work is required.

Exploration Target and Mineralization Model

The exploration target is a mineralized palaeochannel containing uranium mineralization in the form of carnotite. The mineralization model would best be described as Langer Heinrich (Paladin Resources) type deposit. http://www.xemplar.ca/images/properties_cape_...

Conclusions Drawn from Analysis of Historical Information

• An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.
• An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.
• An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.
• An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.An anomalous uranium zone running across the entire license area has been identified. This zone has a strike length of over 60 kilometers. This zone starts at Mile 72 and ends at Karlowa.Areas around the Tsaun Beacon are clearly mineralized. The southern extension of the Karlowa anomalies must also be examined. All of the sand and calcrete covered areas within the ERL license should be tested by radon surveys.The Rand Mines area has demonstrated the existence of mineralized palaeochannels off the main anomalous trend. Here again, airborne radiometric surveys failed to identify the uranium mineralization present in the area. The northeasterly extension of these mineralized palaeochannels has not been examined and may continue for some distance. This will also be a priority for future exploration.This study has clearly shown that uranium occurs at many localities throughout the license area, with only a few of these have been examined in any detail.

2007 Exploration Program

1. Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).
2. Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).
3. Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).
4. Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).
5. Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).Interpret detailed airborne radiometric data - CompletedCarry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors – 2,000 detectors have been used as of May 15, 2007; another 3,000 to be deployed and completed by third quarter, 2007.Test by drilling and trenching all radon anomalies generated based on results of the ALPHATRACK survey.Log all boreholes with calibrated radiometric logging system to obtain equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit(s).

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Aus/Garub Property

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43-101 Report on the Aus and Cape Cross Uranium Pr...

General

This area is located around the small town of Aus some 100 kilometers east of Luderitz. It is a relatively unexplored area. It has the potential to host a Langer Heinrich (Paladin Resources) type deposit. The area has extensive calcrete deposits and the intrusive granites of the Tumuab unit, the Kubub granite gneiss and the Aus granite gneiss are potential sources of uranium. It is proposed that uranium weathered from these granites has been deposited in the calcretes as carnotite. A regional radon survey will be carried out shortly to locate possible mineralized areas.

Size

3,276 square kilometers (327600 ha or 809,514 acres)

Geological Description

The area is located within the Koichab depression and is characterized by a flat shallowly dissected by a westward draining recent drainage system. Calcrete palaeochannels are known to exist in the area. The area is surrounded by radioactive granites of the Sinclair formation. Intrusive granites of the Tumuab unit, the Kubub granite gneiss and the Aus granite gneiss are also present.

Exploration Target and Mineralization Model

The exploration target is a mineralized palaeochannel containing uranium mineralization in the form of carnotite. The mineralization model would best be described as Langer Heinrich (Paladin Resources) type deposit. http://www.xemplar.ca/images/properties_aus_g... http://www.xemplar.ca/images/properties_aus_g...

Conclusions Drawn from Analysis of Historical Information

• This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.
• This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.
• This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.
• This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.This entire data set has been examined and it has been found that the granitic bodies around the town of Aus are potential sources of uranium and that when leached, would deposit uranium in the calcretes and gypcretes found in the Koichab River valley. A field trip to the Koichab River valley has positively identified calcrete terraces in the river valley. The uranium anomalies found in the area look promising, as they are not associated with thorium. This would be expected over calcrete terraces containing carnotite mineralization. Uranium anomalies in the Koichab River at the foot of the dune field are also of interest and should be checked. It is further recommended that all of the surficial areas be explored using radon detectors to detect possible mineralization at depth. These detectors would be deployed on a regional basis. Further to the west a new anomalous area has been discovered. An ERL (103) covering this area has been applied for and was granted to Namura in November 2006.

2007 Aus-Garub Exploration Program

1. A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.
2. A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.
3. A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.
4. A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.
5. A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.
6. A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of all historical data has been completed.Proceed to carry out large scale radon survey over the entire property utilizing ALPHATRACK radon detectors.Test radon anomalies by drilling and trenching.Log all boreholes with calibrated radiometric logging system to estimate equivalent uranium grades.Obtain estimate of possible tonnage and grade for the deposit.Begin work on the Garub Uranium Project.A detailed interpretation of al