Anti-siphon arrangement for hydraulic systems

What is claimed is: 1. An anti-siphon arrangement for a hydraulic system including a reservoir, the anti-siphon arrangement comprising: a first flow path that provides hydraulic communication between the reservoir and an area disposed at least partly at an elevation below a fluid level of the reservoir, the first flow path including a first anti-siphon portion extending at least partly above the fluid level of the reservoir; a second flow path that provides hydraulic communication between the reservoir and the area, the second flow path including a second anti-siphon portion extending at least partly above the fluid level of the reservoir; a first valve configured to enter an open state based on fluid pressure in the first anti-siphon portion of the first flow path regardless of fluid level in the second anti-siphon portion of the second flow path and, when in the open state, to allow gas to flow from at least one gas source to the first anti-siphon portion of the first flow path; and a second valve configured to enter an open state based on fluid pressure in the second anti-siphon portion of the second flow path regardless of fluid level in the first anti-siphon portion of the first flow path and, when in the open state, to allow gas to flow from the at least one gas source to the second anti-siphon portion of the second flow path; wherein the first valve when in the open state prevents fluid to siphon from the reservoir to the area through the first flow path; and the second valve when in the open state prevents fluid to siphon from the reservoir to the area through the second flow path. 2. The anti-siphon arrangement of claim 1 , wherein at least one of the first and second valves is configured as an electrohydraulic valve. 3. The anti-siphon arrangement of claim 1 , wherein at least one of the first and second valves is configured as a check valve, the check valve being arranged to close when a respective at least one of the first and second flow paths is pressurized, and open when the respective at least one of the first and second flow paths is not pressurized. 4. The anti-siphon arrangement of claim 1 , wherein the hydraulic system includes a first pump configured to move fluid from the reservoir to the area and a second pump configured to move fluid from the area to the reservoir; and wherein the first and second valves are configured to open when the first and second pumps, respectively, are not operating. 5. The anti-siphon arrangement of claim 1 , wherein the reservoir is a fluid sump and the area is included in a transmission case for an axle arrangement. 6. A hydraulic manifold to prevent siphoning of fluid from a reservoir, the hydraulic manifold comprising: a manifold body configured to be mounted to a wall of the reservoir at least partly above a fluid level of the reservoir; a first valved arrangement included at least partly within the manifold body, the first valved arrangement including a first flow path intersection and a first valve configured, when in an open state, to allow gas to flow from at least one gas source to the first intersection; wherein the first flow path intersection joins at least a first flow path connected to a first port in the manifold body, a second flow path connected to a second port in the manifold body, and a third flow path that connects the first intersection to the at least one gas source, the first valve configured to block flow along the third flow path when in a closed state; and a second valved arrangement included at least partly within the manifold body, the second valved arrangement including a second flow path intersection and a second valve configured, when in an open state, to allow gas to flow from the at least one gas source to the second intersection; wherein the second flow path intersection joins at least a fourth flow path connected to a third port in the manifold body, a fifth flow path connected to a fourth port in the manifold body, and a sixth flow path that connects the second intersection to the at least one gas source, the second valve configured to block flow along the sixth flow path when in a closed state; wherein a first reservoir flow path connects the reservoir to the first port and a first additional flow path connects the second port to at least one area disposed below the fluid level of the reservoir, and the first valve when in an open state prevents fluid to siphon from the reservoir to the area via the first reservoir flow path; and wherein a second reservoir flow path connects the reservoir to the third port and a second additional flow path connects the fourth port to the at least one area, and the second valve when in an open state prevents fluid to siphon from the reservoir to the area via the second reservoir flow path. 7. The hydraulic manifold of claim 6 , wherein at least one of the first and second valves is configured as an electrohydraulic valve. 8. The hydraulic manifold of claim 6 , wherein the third and sixth flow paths meet at a third intersection included in the manifold body. 9. The hydraulic manifold of claim 6 , wherein gas from the at least one gas source flows to the first and second intersections via a common port in the manifold body. 10. The hydraulic manifold of claim 6 , further comprising: a third valved arrangement included at least partly within the manifold body, the third valved arrangement including: a third intersection that joins at least: a seventh flow path connected to a fifth port in the manifold body, an eighth flow path connected to a sixth port in the manifold body, and a ninth flow path that connects the third intersection to the at least one gas source; and a third valve arranged to controllably block flow along the ninth flow path, the third valve, when configured in an open state, allowing gas to flow from the at least one gas source into the third intersection; wherein a third reservoir flow path connects the reservoir to the fifth port, and a third additional flow path connects the sixth port to the at least one area, and the third valve when in an open state prevents fluid to siphon from the reservoir via the third reservoir flow path. 11. The hydraulic manifold of claim 6 , wherein a first pump is configured to pump fluid from the reservoir to the area via, in order, the first flow path and the second flow path. 12. The hydraulic manifold of claim 6 , wherein a first pump is configured to pump fluid from the reservoir to the area via, in order, the first flow path and the second flow path; further wherein a second pump is configured to pump fluid from the area to the reservoir via, in order, the fourth flow path and the fifth flow path. 13. The hydraulic manifold of claim 6 , wherein at least one of the first and second valves is configured as a check valve, the check valve being arranged to close when a respective at least one of the first and second intersections is pressurized by a pump, and to open when the pump is not operating. 14. The hydraulic manifold of claim 13 , wherein the check valve is oriented within the manifold body to block fluid flow in an upward direction, when closed. 15. The hydraulic manifold of claim 6 , wherein the reservoir is a fluid sump for a transmission of a sprayer vehicle. 16. The hydraulic manifold of claim 15 , wherein the area is included in a transmission case for the transmission. 17. A hydraulic system to prevent siphoning of fluid, the hydraulic system comprising: a fluid sump; a transmission case; a charge flow path extending between the fluid sump and the transmission case, the charge fl