System and method for underground blasting

What is claimed is: 1. A system for blasting a geological formation to form therein a tunnel having a perimeter wall enclosing an interior space, the system comprising: a series of perimeter boreholes disposed in such geological formation in a pattern corresponding to such perimeter wall, with explosive charges disposed in respective ones of the perimeter boreholes; a series of interior boreholes disposed in such geological formation interiorly of the perimeter boreholes, with explosive charges disposed in respective ones of the interior boreholes; electronic delay perimeter detonators having shock tube fuses are disposed only in respective ones of the perimeter boreholes in signal-transfer communication with the explosive charges contained in the associated perimeter boreholes, and pyrotechnic delay interior detonators having shock tube fuses are disposed only in respective ones of the interior boreholes in signal-transfer communication with the explosive charges contained in the associated interior boreholes; the fuses of both the perimeter detonators and the interior detonators being connected in signal-transfer communication with a non-electric trunkline, whereby to initiate both the perimeter detonators and the interior detonators by an initiation signal transmitted via the trunkline. 2. The system of claim 1 comprising a single non-electric trunkline to which the fuses of the electronic delay detonators and the pyrotechnic delay detonators are connected. 3. The system of claim 2 wherein the non-electric trunkline comprises detonating cord. 4. The system of claim 1 wherein the non-electric trunkline comprises detonating cord. 5. A method for blasting a geological formation to form therein a tunnel having a perimeter wall enclosing an interior space, the method comprising the following steps: drilling a series of perimeter boreholes into the geological formation in a pattern corresponding to such perimeter wall; placing explosive charges in respective ones of the perimeter boreholes; drilling a series of interior boreholes into the geological formation interiorly of the perimeter boreholes; placing explosive charges in respective ones of the interior boreholes; emplacing electronic delay perimeter detonators having shock tube fuses only into respective ones of the perimeter boreholes in signal-transfer communication with the explosive charges contained in the respective perimeter boreholes; emplacing pyrotechnic delay interior detonators having shock tube fuses only into respective ones of the interior boreholes in signal-transfer communication with the explosive charges contained in the respective interior boreholes; connecting the fuses of both the perimeter detonators and the interior detonators in signal-transfer communication with a non-electric trunkline; and initiating both the perimeter detonators and the interior detonators by sending an initiation signal via the trunkline to the detonator fuses. 6. The method of claim 5 further comprising connecting the fuses of the perimeter detonators and the interior detonators to the same single, non-electric trunkline. 7. The method of claim 6 comprising utilizing detonating cord as the non-electric trunkline. 8. The method of claim 5 comprising utilizing detonating cord as the non-electric trunkline.