Rear steering hydraulic system

The invention claimed is: 1. A hydraulic system for controlling a pair of steerable caster wheels of an agricultural machine, the hydraulic system comprising: a pressure source configured to supply a flow of pressurized fluid; a tank configured to receive the fluid and supply the fluid to the pressure source; a left side actuator configured to control a left rear caster wheel; a right side actuator configured to control a right rear caster wheel; a left steering command valve, a right steering command valve, and a rear steering control valve; a supply pressure fluid circuit interconnecting the pressure source and the rear steering control valve in fluid communication; a command valve supply fluid circuit interconnecting the rear steering control valve with both the right steering command valve and the left steering command valve in fluid communication; a left side steering fluid circuit interconnecting the left side actuator and the left steering command valve in fluid communication; a right side steering fluid circuit interconnecting the right side actuator and the right steering command valve in fluid communication; a fluidic tie rod fluid circuit interconnecting both the left side actuator and the right side actuator with the rear steering control valve in fluid communication; a tank return fluid circuit interconnecting the rear steering control valve, the left steering command valve, the right steering command valve, and the tank in fluid communication; a pilot supply fluid circuit in fluid communication with the left steering command valve, the right steering command valve, and the rear steering control valve; a pilot return fluid circuit in fluid communication with the left steering command valve, the right steering command valve, the rear steering control valve, and the tank; a cross-valve fluid circuit interconnecting the left steering command valve and the right steering command valve in fluid communication; and wherein the rear steering control valve is a pilot actuated position control valve. 2. The hydraulic system set forth in claim 1 , wherein the rear steering control valve is controllable between a first state in which the fluidic tie rod fluid circuit and the tank return fluid circuit are connected in fluid communication and the supply pressure fluid circuit and the command valve supply fluid circuit are disconnected from fluid communication, and a second state in which the fluidic tie rod fluid circuit and the tank return fluid circuit are disconnected from fluid communication and the supply pressure fluid circuit and the command valve supply fluid circuit are connected in fluid communication. 3. The hydraulic system set forth in claim 2 , wherein the rear steering control valve is normally disposed in the first state and is controlled into the second state in response to an activation signal. 4. The hydraulic system set forth in claim 1 , further comprising a cross port pressure relief system interconnecting the left side steering fluid circuit, the right side steering fluid circuit, and the fluidic tie rod fluid circuit in fluid communication. 5. The hydraulic system set forth in claim 4 , wherein the cross port pressure relief system includes a left side pressure relief valve having a first port connected in fluid communication to the left side steering fluid circuit, and a second port connected in fluid communication to the fluidic tie rod fluid circuit. 6. The hydraulic system set forth in claim 5 , wherein the cross port pressure relief system includes a right side pressure relief valve having a first port connected in fluid communication to the right side steering fluid circuit, and a second port connected in fluid communication to the fluidic tie rod fluid circuit. 7. The hydraulic system set forth in claim 6 , wherein the second port of the left side pressure relief valve and the second port of the right side pressure relief valve are connected in fluid communication. 8. The hydraulic system set forth in claim 1 , wherein the left side actuator includes an inboard fluid port and an outboard fluid port, and the right side actuator includes an inboard fluid port and an outboard fluid port. 9. The hydraulic system set forth in claim 8 , wherein the left side steering fluid circuit is connected in fluid communication to the inboard fluid port of the left side actuator. 10. The hydraulic system set forth in claim 9 , wherein the right side steering fluid circuit is connected in fluid communication to the inboard fluid port of the right side actuator. 11. The hydraulic system set forth in claim 10 , wherein the outboard fluid port of the right side actuator and the outboard fluid port of the left side actuator are connected together and to the fluidic tie rod fluid circuit in fluid communication. 12. A hydraulic system for controlling a pair of steerable caster wheels of an agricultural machine, the hydraulic system comprising: a pressure source configured to supply a flow of pressurized fluid; a tank configured to receive the fluid and supply the fluid to the pressure source; a left side actuator configured to control a left rear caster wheel; a right side actuator configured to control a right rear caster wheel; a left steering command valve, a right steering command valve, and a rear steering control valve; a supply pressure fluid circuit interconnecting the pressure source and the rear steering control valve in fluid communication; a command valve supply fluid circuit interconnecting the rear steering control valve with both the right steering command valve and the left steering command valve in fluid communication; a left side steering fluid circuit interconnecting the left side actuator and the left steering command valve in fluid communication; a right side steering fluid circuit interconnecting the right side actuator and the right steering command valve in fluid communication; a fluidic tie rod fluid circuit interconnecting both the left side actuator and the right side actuator with the rear steering control valve in fluid communication; a tank return fluid circuit interconnecting the rear steering control valve, the left steering command valve, the right steering command valve, and the tank in fluid communication; a pilot supply fluid circuit in fluid communication with the left steering command valve, the right steering command valve, and the rear steering control valve; a pilot return fluid circuit in fluid communication with the left steering command valve, the right steering command valve, the rear steering control valve, and the tank; a cross-valve fluid circuit interconnecting the left steering command valve and the right steering command valve in fluid communication; and wherein the left steering command valve is a pilot actuated variable directional control valve moveable between a first state and a second state, wherein the left steering command valve is configured to disconnect fluid communication between the left side steering fluid circuit and the tank return fluid circuit, connect fluid communication between the pilot return fluid circuit and the cross-valve fluid circuit, and disconnect fluid communication between the command valve supply fluid circuit and the right side steering fluid circuit when disposed in the first state, and wherein the left steering command valve is configured to connect the left side steering fluid circuit and the tank return fluid circuit in fluid communication, close fluid communication to the pilot return fluid circuit, and connect the command valve supply fluid circuit with both the right side steering fluid circuit and the cross-valve fluid circuit in fluid communication when