Multiple seed-type planting system with on-row selective delivery

We claim: 1. A planter for planting multiple types of seed in a single planting pass during row-crop planting of an agricultural field, comprising: a frame supporting multiple row units; a bulk storage system for separately storing seeds of multiple types on the planter; an on-row storage system selectively receiving seed from the bulk storage system and separately storing the seeds of the multiple seed types at the row units; a flow path at least partially interconnecting the bulk storage system and the on-row storage system for selectively carrying a selective one of the multiple types of seeds from the bulk storage system toward the on-row storage system; a diverter in communication with the flow path for selectively diverting the selective one of the multiple types of seeds in the flow path to a corresponding one of multiple compartments at the row unit for storage; and a seed meter at each of the multiple row units selectively receiving the seeds of the multiple types from the on-row storage system and releasing the seeds for planting of an agricultural field. 2. The planter of claim 1 further comprising a row unit reservoir at each row unit arranged to direct seeds into an interior space of the seed meter, and wherein each of the multiple compartments has an outlet facing an inlet of the row unit reservoir and arranged such that all of the elements of the multiple compartments of the on-row storage system feed into the inlet of the row unit reservoir. 3. The planter of claim 1 further comprising at least one seed-level sensor in each of the multiple compartments of the on-row storage system for determining an amount of seeds in each of the multiple compartments of the on-row storage system. 4. The planter of claim 3 wherein at each of the multiple row units, the multiple compartments of the on-row storage system are defined in a single mini-hopper. 5. The planter of claim 4 wherein each mini-hopper has an inlet end arranged relatively further from the seed meter and an outlet end arranged relatively closer to the seed meter and wherein the diverter includes a gate system arranged between the inlet end of the mini-hopper and the bulk storage system with the gate system configured to selectively direct seeds from the bulk storage system into one of the multiple compartments of the on-row storage system. 6. The planter of claim 5 wherein the gate system includes at least one gate movable to define flow paths to different ones of the multiple compartments of the on-row storage system for directing seeds of the different types to respective ones of the multiple compartments of the on-row storage system. 7. The planter of claim 5 wherein the gate system includes multiple gates arranged at the inlet end of the mini-hopper and wherein the multiple gates are actuatable to selectively restrict or permit flow of seeds of the multiple types into respective ones of the multiple compartments of the on-row storage system. 8. The planter of claim 7 wherein each of the multiple gates is actuatable to restrict flow into the respective compartment of the on-row storage system by covering an opening at the inlet end of the mini-hopper to block a flow path into the respective compartment of the on-row storage system and to permit flow into the respective compartment of the on-row storage system by uncovering an opening at the inlet end of the mini-hopper to define a flow path into the respective compartment of the on-row storage system. 9. The planter of claim 7 wherein each of the multiple gates is actuatable within a seed feeding tube for selectively defining a flow path from the seed feeding tube into the multiple compartments of the on-row storage system. 10. The planter of claim 5 wherein the mini-hopper is configured to selectively release seeds from the multiple compartments through multiple openings defined at the outlet end of the mini-hopper. 11. The planter of claim 10 further comprising multiple rollers respectively arranged at the multiple openings defined at the outlet end of the mini-hopper, wherein the multiple rollers are rotatable to deliver metered amounts seed from the multiple compartments of the on-row storage system. 12. The planter of claim 11 wherein each of the multiple rollers delivers seeds into a common opening of the row unit reservoir. 13. The planter of claim 12 further comprising at least one seed-level sensor arranged in the row unit reservoir for determining an amount of seeds in the row unit reservoir. 14. A planter for planting multiple types of seed in a single planting pass during row-crop planting of an agricultural field, comprising: a frame supporting multiple row units; a bulk storage system with multiple compartments for separately storing seeds of multiple types on the planter; an on-row storage system receiving the seeds from bulk storage system and separately storing the seeds of the multiple types in multiple compartments of the on-row storage system at each of the row units; a seed conveyance system delivering seed from the multiple compartments of the bulk storage system to the multiple compartments of the on-row storage system, the seed conveyance system including a flow path at least partially interconnecting the bulk storage system and the on-row storage system for selectively carrying a selected one of the multiple types of seeds from the bulk storage system toward the on-row storage system; a diverter in communication with the flow path for selectively diverting the selected one of the multiple types of seeds in the flow path to a corresponding one of multiple compartments at the row unit for storage; a seed metering system selectively receiving the seeds of the multiple types from the multiple compartments of the on-row storage system and releasing the seeds for planting of an agricultural field; seed-level sensors arranged in the multiple compartments of the on-row storage system for determining an amount of seeds in each of the multiple compartments of the on-row storage system; and a control system operably connected to the seed-level sensors and configured to selectively release seeds of one of the multiple types from the multiple compartments of the on-row storage system into the seed metering system. 15. The planter of claim 14 further comprising a row unit reservoir arranged between the on-row storage system and the seed metering system with at least one seed-level sensor operably connected to the control system and arranged in the row unit reservoir for determining an amount of seeds in the row unit reservoir and wherein the control system selectively releases seeds from the on-row storage system into the seed metering system based on the amount of seeds in the row unit reservoir determined by the at least one seed-level sensor of the row unit reservoir. 16. The planter of claim 15 wherein the diverter includes a gate system arranged in communication with the flow path, wherein the gate system is configured to selectively direct seeds from the bulk storage system into one of the multiple compartments of the on-row storage system, and wherein the control system controls the seed conveyance system and the gate system based on the amount of seeds in the one of the multiple compartments determined by the seed-level sensors arranged in the multiple compartments of the on-row storage system. 17. The planter of claim 15 further comprising multiple rollers between the multiple compartments of the on-row storage system and the seed metering system and controlled by the control system to selectively release seed from the mu