Implement control system having a manual override

The invention claimed is: 1. An implement control system comprising: a supply conduit configured to receive fluid from a fluid source; a return conduit configured to output the fluid to a reservoir; a first inlet configured to fluidly couple to a manual control valve; a second inlet configured to fluidly couple to the manual control valve; a first manual control conduit fluidly coupled to the first inlet and configured to provide fluid flow to cause a cylinder to raise a ground engaging tool relative to a soil surface; a second manual control conduit fluidly coupled to the second inlet and configured to provide fluid flow to cause the cylinder to lower the ground engaging tool relative to the soil surface; an automatic control valve assembly fluidly coupled to the supply conduit and the return conduit, wherein the automatic control valve assembly is configured to utilize fluid flow from the supply conduit to cause the cylinder to raise the ground engaging tool relative to the soil surface and to utilize fluid flow from the supply conduit to cause the cylinder to lower the ground engaging tool relative to the soil surface while an automatic control mode is active; a pressure sensor fluidly coupled to the first manual control conduit and configured to output a signal indicative of a fluid pressure within the first manual control conduit; and a controller comprising a memory and a processor, wherein the controller is communicatively coupled to the automatic control valve assembly and the pressure sensor, the controller is configured to control the automatic control valve assembly based on a position of the ground engaging tool relative to the soil surface to control the position of the ground engaging tool relative to the soil surface while the automatic control mode is active, and the controller is configured to deactivate the automatic control mode in response to the fluid pressure within the first manual control conduit exceeding a threshold pressure. 2. The implement control system of claim 1 , comprising a position sensor configured to output a second signal indicative of the position of the ground engaging tool relative to the soil surface. 3. The implement control system of claim 1 , wherein the controller is configured to activate the automatic control mode in response to determining that the position of the ground engaging tool is within a threshold distance from a target ground engaging tool position. 4. The implement control system of claim 1 , wherein the controller is configured to activate the automatic control mode in response to the fluid pressure within the first manual control conduit being below a second threshold pressure, determining that the position of the ground engaging tool is substantially constant, and receiving a third signal from a user interface indicative of activation of the automatic control mode. 5. The implement control system of claim 1 , wherein the automatic control valve assembly comprises a raise control valve and a lower control valve, the raise control valve is configured to control fluid flow from the supply conduit to a first end of the cylinder to cause the cylinder to raise the ground engaging tool relative to the soil surface, and the lower control valve is configured to control fluid flow from the supply conduit to a second end of the cylinder to cause the cylinder to lower the ground engaging tool relative to the soil surface. 6. The implement control system of claim 5 , wherein the automatic control valve assembly comprises a raise return valve and a lower return valve, the raise return valve is configured to selectively facilitate fluid flow from the second end of the cylinder to the return conduit while the raise control valve is active, and the lower return valve is configured to selectively facilitate fluid flow from the first end of the cylinder to the return conduit while the lower control valve is active. 7. The implement control system of claim 1 , comprising a cylinder control valve configured to control fluid flow from the supply conduit to the cylinder and to control fluid flow from the cylinder to the return conduit, wherein the automatic control valve assembly is configured to control the cylinder control valve to control the position of the ground engaging tool relative to the soil surface. 8. An implement control system, comprising: a supply conduit configured to receive fluid from a fluid source; a return conduit configured to output the fluid to a reservoir; a cylinder control valve fluidly coupled to the supply conduit and the return conduit, wherein the cylinder control valve is configured to fluidly couple to a first end of a cylinder and to a second end of the cylinder, the cylinder control valve has a first position configured to block fluid flow between the supply conduit and the first and second ends of the cylinder and between the return conduit and the first and second ends of the cylinder, the cylinder control valve has a second position configured to facilitate fluid flow between the supply conduit and the first end of the cylinder and between the return conduit and the second end of the cylinder to drive the cylinder to raise a ground engaging tool relative to a soil surface, the cylinder control valve has a third position configured to facilitate fluid flow between the supply conduit and the second end of the cylinder and between the return conduit and the first end of the cylinder to drive the cylinder to lower the ground engaging tool relative to the soil surface, the cylinder control valve includes a raise actuator configured to drive the cylinder control valve to the second position, and the cylinder control valve includes a lower actuator configured to drive the cylinder control valve to the third position; a first inlet configured to fluidly couple to a manual control valve; a second inlet configured to fluidly couple to the manual control valve; a first manual control conduit configured to establish a fluid connection between the first inlet and the raise actuator of the cylinder control valve; a second manual control conduit configured to establish a fluid connection between the second inlet and the lower actuator of the cylinder control valve; an automatic control valve assembly fluidly coupled to the supply conduit, the return conduit, the raise actuator of the cylinder control valve, and the lower actuator of the cylinder control valve, wherein the automatic control valve assembly is configured to control the cylinder control valve; a pressure sensor fluidly coupled to the first manual control conduit and configured to output a signal indicative of a fluid pressure within the first manual control conduit; and a controller comprising a memory and a processor, wherein the controller is communicatively coupled to the automatic control valve assembly and to the pressure sensor, the controller is configured to control the automatic control valve assembly based on a position of the ground engaging tool relative to the soil surface to control the position of the ground engaging tool relative to the soil surface, and the controller is configured to instruct the automatic control valve assembly to block fluid flow from the supply conduit to the raise actuator and the lower actuator of the cylinder control valve in response to the fluid pressure within the first manual control conduit exceeding a threshold pressure. 9. The implement control system of claim 8 , wherein the automatic control valve assembly comprises a raise control valve and a lower control valve, the raise control valve is configured to control fluid flow from the supply conduit to the raise actuator of the cylinder control valve, and the lower control valve is configured to control fluid