Blue Eagle Lithium Inc. provided a detailed overview on its initial property. The company's Property covers 4,000 acres (1,619 hectares) within Railroad Valley, Nevada, approximately 100 miles (161 km) northeast of Tonopah, Nye County, Nevada and can be accessed directly from U.S. Route 6. Railroad Valley is one of the trapped drainage basins in North America and was first identified as Lithium rich by the US Geological Survey with the potential to host lithium-bearing brines in its extensive subterranean aquifers beneath the valley floor. As an enclosed, fault-bounded basin valley, centered by a dry lakebed (aka playa) with significant amounts of evaporation and with documented soil samples containing elevated concentrations yielding up to 500 ppm Li2O, Railroad Valley exhibits all the major ingredients for a potential Lithium discovery. Railroad Valley fits the current geological model and understanding of lithium brine deposit occurrences, (as defined by US Geological Survey Open File 2013-1006), and is considered analogous to nearby Clayton Valley, which hosts North America’s only Lithium producing mine owned by Albemarle Corp. and in production since 1966. Furthermore, the company’s highly prospective green-field brine target area features many of the similarities to Clayton Valley and it believes that an extensive exploration program is warranted. Within Railroad Valley, the Company’s Property is focused within the deep Southern Gravity Low and within the zone of high electrical conductivity. Unlike Clayton Valley, however, this region of Railroad Valley is a relatively unexplored virgin resource that offers opportunities to expand its footprint without competition for water rights and fractious competition from established companies. Furthermore, the size of Railroad Valley is significantly larger than that of Clayton Valley, thus offering the Company substantial potential upside as it progresses forward. Railroad Valley is essentially the only oil and gas region of any consequence in the state of Nevada. It was home to the first oil and gas field discovered in Nevada, one of the most productive wells in United States history, still in production today. As a result of its historic activity, hundreds of well logs and seismic data are available to provide clues to the basin’s structure and geologic picture in light of current lithium brine-formation theories. Many of the wells drilled have penetrated brines, but very few have been analyzed for Lithium. The presence of this data is unique to Railroad Valley and offers a distinctive advantage for a discovery over other prospective Lithium projects, including those within Clayton Valley. Blue Eagle's Railroad Valley Property highlights include: Located within a large Gravity Low identified within a closed basin (i.e. Clayton Valley Model) and within a region of elevated electrical conductivity. US Geological Survey surface samples exhibit significant concentration of Lithium in the Railroad Valley. The highly anomalous Lithium in the sediment samples is coincident with a salt lake /discrete gravity low and a deep basin containing a thick sequence of saturated sedimentary formations is possible. Host evaporates surrounded by volcanic rocks so called rhyolite ash tuff giving a known source for Lithium and near surface waters cropping out in the southern gravity low area. Railroad Valley shares several geological similarities with nearby Lithium-producing Clayton Valley, as it is an enclosed fault-bounded basin valley, centered by a dry lakebed (playa), and exposed to evaporation. Hydro studies show a positive influx of ground waters with little exiting the basin. Railroad Valley represents a larger land acreage (that is > 2x) and playa catchment area (that is > 3x) than the Clayton Valley. Historic and modern oil exploration and development data indicate that favorable geologic formations and brines are present and the seismic from these activities can provide relatively inexpensive and effective data to aid in its exploration program. Limited competition and favorable market for water rights. Cheaper mining costs than traditional hard rock mining (brine is universally accepted as the most cost-effective type of Lithium resource to process as it dramatically reduced exploration and production time). Close to established infrastructure (power, transportation, skilled workers, heavy equipment, drilling/mining contractors), and mining-friendly jurisdiction.