Dual function basecutters

What is claimed is: 1. A basecutter for a sugarcane harvester, the basecutter comprising: a cutting spindle; a transport spindle; at least one power source configured to rotate the cutting spindle and the transport spindle, in order to harvest sugarcane; one or more cutting blades for cutting sugarcane, the one or more cutting blades being attached to the cutting spindle; and one or more transport devices for moving cut sugarcane into the sugarcane harvester, the one or more transport devices being attached to the transport spindle; wherein one of the cutting spindle and the transport spindle is configured to rotate within a bore through the other of the cutting spindle and the transport spindle; and wherein the cutting spindle and the transport spindle are configured to rotate in opposite directions. 2. The basecutter of claim 1 , further comprising: a basecutter gearbox having at least one input interface and first and second output interfaces, the first output interface being configured to rotate the cutting spindle, and the second output interface being configured to rotate the transport spindle; wherein the at least one power source is configured to provide rotational power to the basecutter gearbox via the at least one input interface; wherein the basecutter gearbox is configured to transmit power received at the at least one input interface to the first and second output interfaces, in order to rotate the first and second output interfaces at different speeds. 3. The basecutter of claim 2 , wherein the basecutter gearbox includes first and second input interfaces; and wherein a first power source is configured to provide rotational power to the first input interface; wherein a second power source is configured to provide rotational power to the second input interface; wherein rotational power received at the first input interface causes the first output interface to rotate the cutting spindle; and wherein rotational power received at the second input interface causes the second output interface to rotate the transport spindle. 4. The basecutter of claim 2 , further comprising: a second cutting spindle; a second transport spindle; one or more additional cutting blades for cutting sugarcane, the one or more additional cutting blades being attached to the second cutting spindle; and one or more additional transport devices for moving cut sugarcane into the sugarcane harvester, the one or more additional transport devices being attached to the second transport spindle; wherein the basecutter gearbox further includes first and second additional output interfaces, the first additional output interface being configured to rotate the second cutting spindle, and the second additional output interface being configured to rotate the second transport spindle; wherein the basecutter gearbox is further configured to transmit power received at the at least one input interface to the first and second additional output interfaces, in order to rotate the first and second additional output interfaces at different speeds. 5. The basecutter of claim 4 , wherein the basecutter gearbox is configured to rotate the first output interface and the first additional output interface at a first common speed and to rotate the second output interface and the second additional output interface at a second common speed, whereby the one or more cutting blades and the one or more additional cutting blades are rotated at a common cutting speed and the one or more transport devices and the one or more additional transport devices are rotated at a common transport speed. 6. The basecutter of claim 1 , wherein the cutting spindle is rotated in a first rotational direction, whereby cutting force applied by the one or more cutting blades to the sugarcane urges the sugarcane away from a feed train of the sugarcane harvester; and wherein the transport spindle is rotated in a second rotational direction different from the first rotational direction, whereby the one or more transport devices urge cut sugarcane toward the feed train. 7. The basecutter of claim 1 , wherein the one or more transport devices include one or more of a carrying disk and a transport paddle. 8. The basecutter of claim 7 , wherein the carrying disk includes one or more transport arms extending, at least in part, radially outward from the transport spindle. 9. The basecutter of claim 1 , wherein the one or more transport devices include one or more transport spokes extending, at least in part, radially outward from the transport spindle. 10. A method for controlling a basecutter of a sugarcane harvester, the basecutter including a cutting spindle, a transport spindle, at least one power source configured to rotate the cutting spindle and the transport spindle in order to harvest sugarcane, one or more cutting blades attached to the cutting spindle, and one or more transport devices attached to the transport spindle, the method comprising: determining, by one or more controllers, a cutting speed for the one or more cutting blades and a transport speed for the one or more transport devices, the cutting speed being different from the transport speed; controlling the at least one power source, by the one or more controllers, to rotate the cutting spindle at the cutting speed; controlling the at least one power source, by the one or more controllers, to rotate the transport spindle at the transport speed; controlling the at least one power source to rotate the cutting spindle at the cutting speed in a first direction; and controlling the at least one power source to rotate the transport spindle at the transport speed in a second direction different from the first direction. 11. The method of claim 10 , wherein the basecutter further includes a basecutter gearbox having at least one input interface and first and second output interfaces, the first output interface being configured to rotate the cutting spindle, and the second output interface being configured to rotate the transport spindle; wherein the at least one power source is configured to provide rotational power to the basecutter gearbox via the at least one input interface; wherein the basecutter gearbox is configured to transmit power received at the at least one input interface to the first arid second output interfaces, in order to rotate the first and second output interfaces at different speeds. 12. The method of claim 11 , wherein the basecutter gearbox includes first and second input interfaces and the at least one power source includes first and second power sources, the method further comprising: controlling the first power source to provide rotational power to the first input interface; and controlling the second power source to provide rotational power to the second input interface; wherein rotational power received at the first input interface causes the first output interface to rotate the cutting spindle; and wherein rotational power received at the second input interface causes the second output interface to rotate the transport spindle. 13. The method of claim 11 , wherein the basecutter further includes a second cutting spindle, a second transport spindle, one or more additional cutting blades attached to the second cutting spindle, and one or more additional transport devices attached to the second transport spindle; wherein the basecutter gearbox further includes first and second additional output interfaces, the first additional output interface being configured to rotate the second cutting spindle, and the second additional output interface being configured to rotate the second transport spindle; wherein th