Downhole tools and methods for selectively accessing a tubular annulus of a wellbore

What is claimed is: 1. A downhole tool adapted for use in a tubular string to selectively treat one or more hydrocarbon production zones, comprising: an upper end and a lower end adapted for interconnection to the tubular string; a catch mechanism positioned proximate to said lower end and adapted to selectively catch or release a ball traveling through said tubular string; a sleeve which travels in a longitudinal direction between a first position and a second position, and which is actuated based on an internal pressure in said tubular string, said sleeve preventing a flow of a treatment fluid in a lateral direction into an annulus of a wellbore while in said first position, and permitting the flow of said treatment fluid in the lateral direction through at least one port in said second position; a flange interconnected to the sleeve and comprising a weep hole, the weep hole configured to allow fluid flow to either an upper fluid reservoir and a lower fluid reservoir, wherein the lower fluid reservoir has a greater diameter than the upper fluid reservoir, said weep hole further configured to travel between a first position adjacent the upper fluid reservoir and a second position adjacent the lower fluid reservoir, wherein said sleeve travels at an increased rate when the flange is positioned adjacent the lower fluid reservoir: and a locking mechanism positioned proximate to said catch mechanism, wherein when said catch mechanism is engaged with said locking mechanism, said sleeve is in said second position and said treatment fluid cannot be pumped downstream of said catch mechanism in said tubular string. 2. The downhole tool of claim 1 , wherein said catch mechanism comprises a collet assembly which allows said ball to pass if said pressure in said tubular string is above a predetermined level. 3. The downhole tool of claim 2 , wherein said collet assembly comprises a plurality of extensions forming a first diameter at a proximal end and a second diameter at a distal end, said first diameter greater than said second diameter. 4. The downhole tool of claim 3 , wherein said second diameter is configured to expand to an increased diameter slightly greater than or equal to a diameter of said ball based on said internal pressure in said tubular string, wherein said ball passes said catch mechanism. 5. The downhole tool of claim 1 , further comprising an actuator mechanism adjacent to said sleeve adapted to urge said sleeve from said second position to said first position. 6. The downhole tool of claim 1 , wherein said ball is comprised of a degradable material which disintegrates over a predetermined period of time. 7. The downhole tool of claim 1 , further comprising a latch mechanism which retains said sleeve in said second position which allows the substantially unrestricted flow of fluid through said tubular string during the production of fluids from said hydrocarbon production zones. 8. The downhole tool of claim 1 , wherein said sleeve is actuated between said first position and said second position by maintaining said pressure for a predetermined period of time. 9. A downhole tool adapted for use in a tubular string to selectively treat one or more hydrocarbon production zones, comprising: an upper end and a lower end adapted for interconnection to a tubular string; a catch mechanism positioned proximate to said lower end and adapted to selectively catch or release a ball traveling through said tubular string; a sleeve which travels in a longitudinal direction between a first position and a second position, and which is actuated based on an internal pressure in said tubular string, said sleeve preventing a flow of a treatment fluid in a lateral direction into an annulus of said wellbore while in said first position, and permitting the flow of said treatment fluid in the lateral direction through at least one port in said second position; a flange interconnected to the sleeve and comprising a weep hole, the weep hole configured to allow fluid flow to either an upper fluid reservoir and a lower fluid reservoir, wherein the lower fluid reservoir has a greater diameter than the upper fluid reservoir, and further wherein said sleeve travels at an increased rate when the flange is positioned adjacent the lower fluid reservoir; and a locking mechanism positioned proximate to said catch mechanism, wherein when said catch mechanism is engaged with said locking mechanism, said sleeve is in said second position and said treatment fluid cannot be pumped downstream of said catch mechanism in said tubular string. 10. A method for treating a plurality of hydrocarbon production zones at different locations in one or more geologic formations, comprising: providing a wellbore with an upper end, a lower end and a plurality of producing hydrocarbon zones positioned therebetween; positioning a string of production tubing in the wellbore, said string of production tubing having an upper end and a lower end; providing a plurality of selective opening tools in said production string, each of said selective opening tools having: a catch mechanism adapted to selectively catch or release a ball traveling through said production string; a sleeve which travels in a longitudinal direction between a first position and a second position and which is actuated based on an internal pressure in said production string, said sleeve preventing a flow of a treatment fluid in a lateral direction into an annulus of the wellbore while in said first position, and permitting the flow of the treatment fluid in the lateral direction through at least one port in said second position; a flange interconnected to the sleeve and comprising a weep hole, the weep hole configured to allow fluid flow to either an upper fluid reservoir and a lower fluid reservoir, wherein the lower fluid reservoir has a greater diameter than the upper fluid reservoir, and further wherein said sleeve travels at an increased rate when the flange is positioned adjacent the lower fluid reservoir; and a locking mechanism positioned proximate to said catch mechanism, wherein when said catch mechanism is engaged with said locking mechanism, said sleeve is in said second position and said treatment fluid cannot be pumped downstream of said catch mechanism in said production string; pumping a treatment fluid containing a ball through the production string at a predetermined first pressure until said ball engages a catch mechanism of a first selective opening tool positioned proximate to a first of said plurality of producing hydrocarbon zones; maintaining said first pressure in said production string for a pre-determined period of time to displace said catch mechanism of said first tool and engage a locking mechanism of said first tool, wherein a sleeve of said first tool is in a second position; pumping the treatment fluid into said first producing hydrocarbon zone; reducing the pressure in said production string, wherein said catch mechanism of said first tool disengages from said locking mechanism and said sleeve returns to a first position; pumping the treatment fluid at a predetermined second pressure until said ball engages and passes through said catch mechanism of said first selective opening tool, said second pressure higher than said first pressure; reducing the treatment fluid pressure to said first pressure to position said ball in a catch mechanism of a second selective opening tool positioned proximate to a second of said plurality of producing hydrocarbon zones, wherein said catch mechanism engages a locking mechanism of said second tool, and wherein a sleeve of said second tool is in a second position; and pumping the treatment fluid into said second producing hydrocarbo