System and method of reacting to wheel slip in a traction vehicle

What is claimed is: 1. A vehicle traction control system for a vehicle having vehicle components including a prime mover, at least one wheel for providing tractive effort on a support surface and being capable of slipping, and a transmission having an input side operably coupled to the prime mover and an output side operably coupled to the at least one wheel, the traction control system comprising: a controller configured to react to wheel slip by automatically activating a plurality of reactions for reducing wheel slip, wherein each reaction of the plurality of reactions is activated in response to wheel slip reaching a corresponding reaction threshold, wherein the corresponding reaction thresholds are tiered in order of increasing value to define a predetermined order of activating each reaction of the plurality of reactions, and wherein the controller is configured to include an independent exit threshold associated with each reaction of the plurality of reactions such that the controller deactivates each reaction of the plurality of reactions in response to the wheel slip dropping to the respective exit threshold, wherein the exit thresholds are programmable or preprogrammable into the controller independently from the reaction thresholds. 2. The vehicle traction control system of claim 1 , wherein the reaction thresholds and exit thresholds are preprogrammed into the controller. 3. The vehicle traction control system of claim 1 , wherein the reaction thresholds and exit thresholds are user-selectable. 4. The vehicle traction control system of claim 1 , wherein the plurality of reactions include modulating at least two or more of torque distribution to at least one wheel, implement height, transmission torque, and engine speed. 5. The vehicle traction control system of claim 4 , wherein modulating the drive selection includes torque redistribution for redistributing torque to selected wheels, and modulating the implement includes lift and lower for adjusting a height of the implement. 6. The vehicle traction control system of claim 1 , wherein the controller is operable to receive input from a user to select one or more reactions of the plurality of reactions. 7. The vehicle traction control system of claim 1 , wherein the plurality of reactions includes a first reaction, a second reaction, and a third reaction, wherein the first reaction is activated by the controller to adjust one of the vehicle components in response to wheel slip reaching a first reaction threshold, wherein the second reaction is activated by the controller to adjust another of the vehicle components in response to wheel slip reaching a second reaction threshold, wherein the third reaction is activated by the controller to adjust another of the vehicle components in response to wheel slip reaching a third reaction threshold, and wherein the wheel slip of the third reaction threshold is greater than the wheel slip of the second reaction threshold is greater than the wheel slip of the first reaction threshold. 8. The vehicle traction control system of claim 1 , wherein the plurality of reactions include modulating an implement and one or more of modulating engine speed, modulating clutch pressure, and drive selection. 9. The vehicle traction control system of claim 1 , wherein the plurality of reactions programmable or preprogrammable into the controller at least include adjusting an implement height, modulating engine speed, modulating clutch pressure, and drive selection. 10. A method of automatically regulating wheel slip in a traction vehicle having a controller and vehicle components including a prime mover, at least one wheel for providing tractive effort on a support surface, and a transmission having an input side operably coupled to the prime mover and an output side operably coupled to the at least one wheel, the method comprising: automatically reacting to wheel slip by activating a first reaction and a second reaction for reducing wheel slip in a predetermined order; wherein automatically reacting to wheel slip includes activating the first reaction to adjust one of the vehicle components in response to wheel slip reaching a first reaction threshold, and activating the second reaction to adjust another of the vehicle components in response to wheel slip reaching a second reaction threshold, wherein the wheel slip of the second reaction threshold is greater than the wheel slip of the first reaction threshold, automatically deactivating the first reaction in response to the wheel slip dropping to a first exit threshold, and automatically deactivating the second reaction in response to wheel slip dropping to a second exit threshold, wherein the first and second exit thresholds are programmable or preprogrammable into the controller independently from the reaction thresholds. 11. The method of claim 10 , further comprising programming or preprogramming the first and second reaction thresholds and the first and second exit thresholds into the controller. 12. The method of claim 11 , further comprising allowing a user to select the predetermined order by way of a user interface. 13. The method of claim 10 , wherein the first and second reaction thresholds are tiered in order of increasing value to define the predetermined order of reaction activation. 14. The method of claim 10 , wherein activating the first reaction includes one of redistributing torque to selected wheels, adjusting a height of an implement, modulating transmission torque, or modulating engine speed. 15. The method of claim 14 , wherein activating the second reaction includes a different one of the redistributing torque to selected wheels, the adjusting a height of an implement, the modulating transmission torque, or the modulating engine speed. 16. The method of claim 10 , wherein activating the first reaction includes one of redistributing torque to selected wheels, adjusting a height of an implement, modulating transmission torque, or modulating engine speed, and wherein activating the second reaction includes a different one of redistributing torque to selected wheels, adjusting a height of an implement, modulating transmission torque, or modulating engine speed. 17. The method of claim 10 , further comprising: receiving input from a user, into a controller, selecting the first reaction and the second reaction for reducing wheel slip. 18. The method of claim 17 , further comprising tiering the selected reactions to select the predetermined order such that the controller activates each reaction sequentially in the predetermined order as selected. 19. A vehicle traction control system for a vehicle having vehicle components including a prime mover, at least one wheel for providing tractive effort on a support surface and being capable of slipping, and a transmission having an input side operably coupled to the prime mover and an output side operably coupled to the at least one wheel, the traction control system comprising: a controller operable to react to wheel slip by automatically activating a plurality of reactions for reducing wheel slip, wherein at least two reactions of the plurality of reactions adjust different vehicle components in response to wheel slip, wherein the plurality of reactions are tiered to respond to increasing wheel slip such that the controller is operable to activate each reaction sequentially in a predetermined order, the predetermined order being in order of increasing wheel slip, and wherein the controller is configured to include an independent exit threshold associated wit