Bicycle damping enhancement system

What is claimed is: 1. A bicycle, comprising: a bicycle frame; a wheel having an outer circumferential surface for contacting a terrain surface; and a damping system for damping movement of the wheel relative to the bicycle frame, the damping system comprising: a damper tube; and an inertia valve assembly, the inertia valve assembly comprising an inertia mass positionable in open and closed positions, wherein in the closed position a flow of damping fluid from the damper tube is more restricted than in the open position, and wherein at least a portion of the inertia valve assembly is disposed adjacent the wheel and closer to a rotational axis of the wheel than the outer circumferential surface of the wheel and the inertia valve assembly is fluidly coupled to the damper tube by a hose. 2. The bicycle of claim 1 , wherein the inertia valve assembly is not in direct contact with the damper tube. 3. The bicycle of claim 1 , wherein the inertia valve assembly is positioned rearward of the damper tube. 4. The bicycle of claim 1 , wherein the inertia valve assembly is coupled to a wheel member of the bicycle. 5. The bicycle of claim 4 , wherein the wheel member comprises an upper arm member. 6. The bicycle of claim 1 , wherein the damping system comprises a soft damping rate when, the inertia mass is in the open position and a stiff damping rate when the inertia mass is in the closed position. 7. The bicycle of claim 1 , wherein any significant translational motion of wheel relative to the bicycle frame is prevented when the inertia mass is in the closed position. 8. The bicycle of claim 1 , wherein the inertia valve assembly comprises a refill port that permits damping fluid to move from the inertia valve assembly to the damper tube. 9. The bicycle of claim 8 , wherein the refill port permits damping fluid to pass through an opening of the inertia mass. 10. A bicycle, comprising: a bicycle frame; a wheel having an outer circumferential surface for contacting a terrain surface; and a damping system for damping movement of the wheel relative to the bicycle frame, the damping system comprising: a damper tube; and an inertia valve assembly, the inertia valve assembly comprising an inertia mass positionable in open and closed positions, wherein in the closed position a flow of damping fluid from the damper tube is more restricted than in the open position, and wherein the inertia valve assembly is coupled to a wheel member of the bicycle such that the inertia valve assembly is exterior to the damper tube. 11. The bicycle of claim 10 , wherein the inertia valve assembly is not in direct contact with the damper tube. 12. The bicycle of claim 10 , wherein the inertia valve assembly is positioned rearward of the damper tube. 13. The bicycle of claim 10 , wherein the inertia valve assembly is fluidly coupled to the damper tube by a hose. 14. The bicycle of claim 10 , wherein the wheel member comprises an upper arm member. 15. The bicycle of claim 10 , wherein at least a portion of the inertia valve assembly is disposed adjacent the wheel and closer to a rotational axis of the wheel than the outer circumferential surface of the wheel. 16. The bicycle of claim 10 , wherein the damping system comprises a soft damping rate when the inertia mass is in the open position and a stiff damping rate when the inertia mass is in the closed position. 17. The bicycle of claim 10 , wherein any significant translational motion of wheel relative to the bicycle frame is prevented when the inertia mass is in the closed position. 18. The bicycle of claim 10 , wherein the inertia valve assembly comprises a refill port that permits damping fluid to move from the inertia valve assembly to the damper tube. 19. The bicycle of claim 18 , wherein the refill port permits damping fluid to pass through an opening of the inertia mass.