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1 MEDIA/ASX RELEASE 4 MARCH Mt INCREASE IN ALUMINOUS CLAY RESOURCES HIGHLIGHTS AMMG acquires new Gibson High Purity Alumina (HPA) Project with JORC inferred resource of 147 million tonnes (Mt) of aluminous clay. Substantial increase of combined resources to 297Mt of aluminous clay (Gibson, Kerrigan and Meckering resources combined). The 100% owned Gibson HPA Project is strategically located 10km 40km by road from the Esperance port, Western Australia. Previous exploration in 1990 by Western Mining Corporation (now BHP Billiton) included 47 aircore drill holes and bulk testing program. The mineralogy of the Gibson aluminous clay represents an appropriate feedstock source for AMMG s new high purity alumina (HPA) processing technology. South West HPA projects in WA total approximately 3,000km 2 and are in relatively close proximity to existing infrastructure. Australia Minerals and Mining Group Limited (ASX: AKA) ( AMMG or the Company ) is pleased to announce that it has (through its wholly owned subsidiary Kaolin Resources Pty Ltd) applied for the Gibson Aluminous Clay Project in Esperance. The Company has delineated a JORC inferred resource of 147 million tonnes (Mt) of aluminous clay at 10.3% alumina (Al 2 O 3 ) at its 100% owned Gibson HPA project. AMMG Managing Director, Mr Ric Dawson said The acquisition of the Gibson Aluminous Clay Project is significant as it has significantly added to our combined resources of aluminous clay. AMMG applied for the Gibson project based on the available historical data, which indicated grades of up to 21% alumina, with a screened grade of 37% alumina after the removal of the +2 micron size fraction. This attractive mineralogy is appropriate for our HPA processing technology, he said.

2 The Gibson project is also strategically located between 10km to 40km from the Esperance port, he added. The 200-block exploration licence application (E63/1622) covers known aluminous clay outcrops and targets an area previously explored by Western Mining Corporation (WMC) in the early 90 s (now BHP Billiton) during a 47-hole aircore drilling program. Figure 1. Map showing the Gibson Project

3 Resource Statement AMMG s 100% owned Gibson HPA Project carries a JORC inferred resource of 147Mt of aluminous clay at 10.3% alumina. Please refer to Appendix 1 for further information on the resource estimation. An exploration target* has been calculated with a conceptual range of 1 billion tonnes (Bt) to 1.5Bt at 18 23% alumina, which has been based on the reported drill hole data in the region, site reconnaissance, aerial photography and geological interpretation of the known outcropping mineralised locations. *The term Target should not be misunderstood nor misconstrued as an estimate of Mineral Resources and Reserves as defined by the JORC Code (2004), and therefore the term has not been used in this context. It is uncertain if further exploration or feasibility study will result in the determination of a Mineral Resource or Mining Reserve Historical Exploration WMC (now BHP Billiton) first explored the Gibson project area in 1989 with the aim to delineate economic aluminous clay reserves for the paper and ceramic industries. Between 1989 and 1990 a total of 47 aircore holes for 626m were drilled. Bulk samples were taken for possible XRD (mineralogy) analysis. Samples were limited to zones of high brightness, which means aluminous clay with a low brightness from iron staining was not sampled. The iron staining of the aluminous clay does not affect AMMG s acid-based processing technology for aluminous clay to alumina, thus is considered by AMMG to be of economic interest. 21 bulk samples were composited and sieved to recover the minus 2 micron fraction and tested for brightness, viscosity, particle size and XRD. One sample indicated alumina grades of 20.86%, which upgrades to 36.96% alumina when the +2 micron size fraction is removed. Although the ISO brightness of the screened aluminous clay was commercially acceptable, the viscosity of the minus 2 micron fraction was not suitable for the paper industry, thus the project was relinquished by WMC the following year. Combined Global Resource Combining AMMG s Gibson HPA project s resource with the Kerrigan HPA project s inferred resource of 85Mt; and the Meckering HPA project s 65Mt indicated (16.52Mt) and inferred

4 (48.48Mt) resource, the global resource amounts to 297Mt of aluminous clay at the Company s South West HPA project (see table 2 below). AMMG is currently planning the next phase of exploration in order to increase this resource. PROJECT Alumina Indicated Inferred -45 micron 1 Brightness 2 Exploration Target* % (Mt) (Mt) % % (Mt) (Al 2 O 3 ) 3 Gibson % 1,000 1,500 Meckering ,100 1,700 Kerrigan TOTAL ,240 3,390 Table 1. Combined global aluminous clay resources at AMMG s 100% owned HPA projects Notes 1. The % minus 45 micron was measured by wet screening. 2. Brightness is the ISO brightness of the minus 45 aluminous clay. 3. The % minus 2 micron was measured by dry screening. *The term Target should not be misunderstood nor misconstrued as an estimate of Mineral Resources and Reserves as defined by the JORC Code (2004), and therefore the term has not been used in this context. It is uncertain if further exploration or feasibility study will result in the determination of a Mineral Resource or Mining Reserve South West HPA Projects The Company s 100% owned South West HPA Projects (held by its wholly owned subsidiary Kaolin Resources Pty Ltd) is made up of one (1) granted exploration licence and ten (10) applications, targeting aluminous clay in the south west of Western Australia and in the Yilgarn Craton and Albany-Frasier Orogen: Meckering, Kerrigan, Kellerberrin, Bobalong and Gibson. The Yilgarn Craton, which hosts the majority of the Company s HPA Projects, is one of the oldest weathered cratons on earth. The weathered granites have left the residual aluminous clay so that the deposits are primary or in situ in nature, as opposed to those that are secondary in nature where the aluminous clay has been transported by water and then deposited in narrow deposits or lenses at the bottom of ancient lakes and rivers. The ancient weathering process has also resulted in extremely low levels of impurities (such as iron and titanium); the aluminous clay is whitish in colour extending from surface to a reported depth of 42 metres.

5 Upcoming Exploration AMMG is currently planning the next phase of exploration in order to increase the resource at the Meckering project. A drilling program is proposed to commence later in the year. Using aluminous clay samples from four of AMMG s South West HPA projects (excluding Gibson), the Company s processing technology successfully produced >99.9% HPA. Based on the mineralogy of the aluminous clay found at the Gibson deposit, AMMG believes it represents an appropriate clean source of aluminous clay for HPA production using the process. Upon receiving the necessary approvals and negotiating land access with the freehold landowners, the Company plans to undertake bulk sampling and metallurgical analysis on aluminous clay samples taken from the Gibson project. Further to AMMG s announcement dated 18 th February 2013, a short video of the Company s innovative processing technology is now available on our website Figure 2. Map showing AMMG s 100% owned South West HPA Projects in Western Australia ENDS

6 Competent Persons Statement Technical Information in this report is based on information compiled by Mr Mike O Mara, B.Sc. Chief Geologist and a member of Australian Institute of Geoscientists. Mr O Mara has sufficient exploration experience, which is relevant to the styles of mineralisation and types of deposit under consideration and to the activity which he is undertaking to qualify as a Competent Person as defined in the 2004 Edition of the Australasian Code for Reporting of Exploration Results, Mineral Resources and Ore Reserves ( JORC 2004). Mr O Mara consents to the inclusion in this release of the matters based on his information in the form and context in which it appears. For more information on Australia Minerals and Mining Group please see below or contact: Ric Dawson Managing Director T: ric@ammg.com.au Tony Dawe Professional Public Relations Pty Ltd T : tony.dawe@ppr.com.au About AMMG AMMG was established for the purpose of securing exploration ground over areas that have typically been subject to historical exploration and where significant geological data was available and/or the land was considered sufficiently prospective. Areas with existing or potential access to infrastructure were also targeted. To date, the Company has identified project areas located in Western Australia and Queensland, which the directors believe may have the potential for the realisation of economic resources of these commodities currently targeted, being - iron ore, aluminous clay, coal, mineral sands, salt, gypsum and gold. The Company itself or under joint venture now has 21 granted tenements and 36 applications for tenements covering approximately 11,512km 2 over the project areas. AMMG is pursuing a diversification strategy at this stage of the Company s development in order to provide additional development options and potential production opportunities.

7 APPENDIX 1 Resource Estimation Gibson Aluminous Clay Project AMMG s Gibson HPA project carries a JORC inferred resource of 147Mt of aluminous clay at 10.3% alumina. AMMG compiled a drill hole database using open source data from WMC s (now BHP Billiton) 1990 exploration available through the WAMEX exploration reporting archive. The data consisted of drill hole collar locations, lithology and mineralogy. The information was compiled into an access database, validated and imported into Micromine. A total of 47 aircore holes (ESKC 1-47) for 626m were drilled. Holes were spaced 200m or 400m along traverses with each traverse m apart. Drill hole collars were surveyed onto baselines. Geology was recorded in 1m increments however the geological log of hole ESKC 1 was not recorded in the report. 200 samples were taken for possible XRD (mineralogy) analysis at Amdel Laboratories, of these 146 samples were suitable and recorded in the report. Samples were limited to zones of high brightness which is conventional; this means aluminous clay with a low brightness from iron staining (as little as 0.3% Fe will affect brightness to below commercial quality) was logged separately and remained un-sampled. This iron staining does not significantly affect the acid based process for aluminous clay to alumina, thus this project is considered by AMMG to be of economic interest. 21 bulk samples were composited, sieved to recover the minus 2 micron fraction and tested for brightness, viscosity, particle size and XRD. A before and after assay exists for a sample taken at a dam (406470E, N AMG84 z51), which shows the Al 2 O 3 % of the material is 20.86% and upgrades to 36.96% when the +2 micron size fraction is removed. No other assay data exists in the report. Assays used in the resource estimation were conservatively estimated from the XRD data using the following formula. Data supplied in XRD results= Aluminous clay% Quartz% Mica% Goethite% Other%

8 By using density information (Aluminous clay = 1.60 Quartz = 2.65 Mica = 2.80 Else (includes unidentified minerals) = 4.30) it is possible to calculate the percent by weight for aluminous clay per sample using the formula: % of Aluminous clay x Density of Mineral X 100 = Wt% of Aluminous clay (Aluminous clay% x Quartz% x Mica%x2.8 + Microcline%* Else%*4.30) Ignoring possible Al 2 O 3 contained in the mica, the amount of aluminous clay based Al 2 O 3 can be determined. The amount of Al 2 O 3 in Aluminous clay can be taken as 39.1% Al 2 O 3, thus Wt% Aluminous clay x Al 2 O 3 content of aluminous clay (39.1%) = Al 2 O 3 % of Sample By using this formula grade values of Al 2 O 3 were able to be computed for use in the resource estimation. AMMG believes this data to be conservative because; Al 2 O 3 content contained in Mica and Microcline cannot be determined and is thus left out of the resource. There is very little change chemically within weathered granite and fresh rock granite; it is known the material at this location should be ~20% Al 2 O 3 when assayed. Percentage of Else uses the high density of Goethite (4.30) which gives the most influence to this unidentified fraction by weight (thus alumina is computed at a lower grade than it conceivably could by using a lower density) 1. Geological Modelling Using the lithology recorded and total magnetic intensity data released through the Exploration Incentive Scheme it was possible to model the aluminous clay horizon. Three wireframes were modelled to determine the volume of aluminous clay present: a dolerite dyke (intersected in one drill hole and interpreted using magnetics) cuts through the drilling separating the aluminous clay horizon into two, Aluminous Clay Nth and Aluminous Clay Sth. The aluminous clay horizon is modelled using material logged as aluminous clay, Ferruginous aluminous clay and clay. WMC logged these units separately to reflect the changes in brightness.

9 For the aluminous clay to alumina processing technology, brightness is irrelevant, therefore all three lithologies can be considered as a resource. Figure 3. Looking east with a 20x vertical exaggeration showing wireframes and lithology data Figure 4. Looking east with a 20x vertical exaggeration showing wireframes and lithology data

10 2. Resource Estimation Because of the type of deposit and the amount of sample points the resource grade and density was estimated by simple averaging within both aluminous clay wireframes. AMMG believes that this method is suitable for this bulk commodity and uncertainty has been reflected in the resource classification. Density was calculated by averaging through each wireframe the results of the following formula: (Contained Mineral % X Mineral Density) /100 Where mineral refers to each mineral identified in the sample (Aluminous clay, Quartz, Microcline, Mica, Else) The results of the modelling were as follows: Wireframe Name Volume Tonnes SG Alumina (Al 2 O 3 ) Aluminous clay Nth 38,198,264 85,140, % Aluminous clay Sth 27,975,642 61,929, % TOTAL 66,173, ,070, % Table 3. Results of resource estimation (inferred) Due to the nature of the data and the methodology for estimation this resource should be classified as inferred under JORC (2004).