7 New Deposit Model f or EB L T he E B L com pl ex i s m ost comparabl e t o t he La c de s I l es C ompl ex st r i k i ng l y si m i l ar g eo l og y st r uctur es g eo ph y si cal si g na t ures an d m i ne r al i z atio n st y l es T he t otal pa st an d present r eso urces at LD I ex cee d 200 m i l l i on t on ne s w i t h g r ad es r an g i ng f r om 1 g t t o 6 g t P d an d r ep r ese ntin g ov er 10 m i l l i on con t ai ne d ou nce s of P d T he m ai n LD I ore z on es onl y occu py an area of on l y 0 5 k m 2 Li k e LD I t he E B L proj ect ha s cl ea r po t en t i al f or surf ac e r eso urces i n t he 15 25 g t P d eq ui v al en t r an g e N S R 6 0t on ne t ha t cou l d be ex t r acted i n open pi t s M ore i m po r t an t l y t he r e are sev eral po ssi bl e v ert i cal f ee de r st r uctur es at E B L an y of w hi ch cou l d ho st t he same t y pe of hi g he r g r ad e P d r i ch sul f i de r eso urces t ha t ha v e been t he m ai n r ev en ue g en erat or at LD I T he m aj or st r uctur es at E B L see l ef t r ep r ese nt a cumul ativ e l en g t h of 30 k m v ersu s t he 1 k m l en g t h of t he LD I de po si t t he ne w g eo ph y si cal prog r am ha s al r ea dy hi g hl i g hted sev eral st r uctur e r el ated an omal i es EBL I n tr u si on 5 k m H os t Intrus i on L D I P d de pos i t W es t l o be E as t l o be R o b y P i t A bo ve Pla n m a p c o m p a r is o n o f size o f E BL in tr u s io n a n d th e h o s t int r u s io n to t h e LDI Pd d e p o s it a t s a m e s c a le Belo w E BL int r u s io n a n d m a jo r f a u lt s tr u c tu r e s