Sectioned meter box assembly

The invention claimed is: 1. A metering system for distributing an agricultural product in a field, comprising: a drive shaft configured to be coupled to a drive input and to be driven in rotation by the drive input; a first meter box assembly having a first housing, a first metering shaft extending through a first plurality of meter rollers within the first housing, and a second metering shaft extending through a second plurality of meter rollers within the first housing; and a second meter box assembly having a second housing, a third metering shaft extending through a third plurality of meter rollers within the second housing, and a fourth metering shaft extending through a fourth plurality of meter rollers within the second housing; wherein each metering shaft is configured to be independently driven by the drive shaft; wherein the first meter box assembly comprises a first plurality of receptacles, each meter roller of the first and second pluralities of meter rollers is disposed within a respective receptacle of the first plurality of receptacles, and the first plurality of receptacles is disposed within the first housing; wherein the second meter box assembly comprises a second plurality of receptacles, each meter roller of the third and fourth pluralities of meter rollers is disposed within a respective receptacle of the second plurality of receptacles, and the second plurality of receptacles is disposed within the second housing. 2. The metering system of claim 1 , wherein the first meter box assembly comprises a bearing assembly disposed between the first metering shaft and the second metering shaft. 3. The metering system of claim 1 , wherein the drive shaft comprises a plurality of drive sprockets, and each drive sprocket is configured to drive a respective driven sprocket of a corresponding metering shaft. 4. The metering system of claim 3 , comprising a chain extending between each drive sprocket and the respective driven sprocket. 5. The metering system of claim 1 , comprising a respective clutch for each metering shaft, each clutch being selectively engageable to transmit torque between the drive shaft and a respective metering shaft. 6. The metering system of claim 1 , wherein each metering shaft is configured to be selectively disengaged from the drive shaft to block agricultural product from being metered by a respective plurality of meter rollers. 7. The metering system of claim 1 , comprising control circuitry configured to selectively control rotation of the metering shafts. 8. The metering system of claim 7 , comprising a spatial locating system configured to provide a geographical position of the metering system to the control circuitry. 9. The metering system of claim 8 , wherein the control circuitry is configured to control rotation of each metering shaft based upon the geographical position of the metering system obtained from the spatial locating system. 10. The metering system of claim 9 , wherein the spatial locating system comprises a Global Positioning System receiver. 11. A metering system for distributing an agricultural product in a field, comprising: a drive shaft assembly configured to be coupled to a drive input and to be driven in rotation by the drive input; and a meter box assembly having a housing, a first metering shaft extending through a first plurality of meter rollers within the housing, and a second metering shaft extending through a second plurality of meter rollers within the housing, wherein the first and second metering shafts are configured to be independently driven by the drive shaft assembly; wherein the meter box assembly comprises a plurality of receptacles, each meter roller of the first and second pluralities of meter rollers is disposed within a respective receptacle of the plurality of receptacles, and the plurality of receptacles is disposed within the housing. 12. The metering system of claim 11 , comprising a first clutch configured to transmit torque to the first metering shaft and a second clutch configured to transmit torque to the second metering shaft. 13. The metering system of claim 11 , wherein clutch comprises an electric clutch. 14. A method for metering agricultural product from an agricultural product metering system, comprising: selectively rotating a first plurality of meter rollers coupled to a first metering shaft in a first housing of a first meter box assembly, wherein each meter roller of the first plurality of meter rollers is disposed within a respective receptacle of a first plurality of receptacles, and the first plurality of receptacles is disposed within the first housing; and selectively rotating a second plurality of meter rollers coupled to a second metering shaft in the first housing of the first meter box assembly, wherein each meter roller of the second plurality of meter rollers is disposed within a respective receptacle of the first plurality of receptacles; wherein the first plurality of meter rollers and the second plurality of meter rollers are configured to rotate independently from one another. 15. The method of claim 14 , comprising selectively rotating the first and second pluralities of meter rollers based upon a geographical position of the metering system obtained from a spatial locating system. 16. The method of claim 15 , wherein the spatial locating system comprises a Global Positioning System receiver. 17. The method of claim 14 , comprising selectively rotating the first and second pluralities of meter rollers based upon a manual selection. 18. The method of claim 14 , comprising: selectively rotating a third plurality of meter rollers coupled to a third metering shaft in a second housing of a second meter box assembly, wherein each meter roller of the third plurality of meter rollers is disposed within a respective receptacle of a second plurality of receptacles, and the second plurality of receptacles is disposed within the second housing; and selectively rotating a fourth plurality of meter rollers coupled to a fourth metering shaft in the second housing assembly of the second meter box assembly, wherein each meter roller of the fourth plurality of meter rollers is disposed within a respective receptacle of the second plurality of receptacles; wherein the first plurality of meter rollers, the second plurality of meter rollers, the third plurality of meter rollers, and the fourth plurality of meter rollers are configured to rotate independently from one another.