Separably-driven rotor portions and associated method for threshing grain

What is claimed is: 1. A rotor for threshing grain, the rotor comprising: an auger portion configured to rotate about an axle, wherein the auger portion defines an auger inlet end and an auger outlet end, and wherein rotation of the auger portion serves to move harvested material to be threshed toward the auger outlet end; and a threshing portion comprising rasp bars that is substantially aligned with the auger portion and configured to rotate via a threshing drive mechanism, wherein the threshing portion defines a threshing inlet end and a threshing outlet end, wherein the threshing inlet end is configured to receive the harvested material to be threshed from the auger outlet end, and wherein the auger portion is selectively connected to the threshing portion via a clutch that can be selectively engaged to start the auger portion and selectively disengaged to stop the auger portion, and wherein the auger portion is stopped or slowed via the clutch to allow the auger portion to serve as a staging location for the harvested material prior to the advancement of the harvested material into the threshing portion. 2. The rotor of claim 1 , wherein the threshing drive mechanism is disposed proximate the threshing outlet. 3. The rotor of claim 1 , wherein the auger portion comprises an auger drive mechanism selectively connected to the threshing drive shaft. 4. The rotor of claim 1 , wherein the auger portion may be idled by selective disengagement of the clutch. 5. The rotor of claim 1 , further comprising a gear set so that the auger portion rotates at a speed less than a speed of rotation of the threshing portion. 6. The rotor of claim 5 , wherein the auger portion may be idled by selective disengagement of the clutch. 7. The rotor of claim 1 , wherein the auger portion serves as a staging location for the harvested material prior to the advancement of the harvested material into the threshing portion, and wherein the harvested material is deposited onto the auger portion. 8. A method for threshing grain, the method comprising: rotating an auger portion about an axle, wherein the auger portion defines an auger inlet and an auger outlet, the auger portion comprising an auger drive shaft end, and wherein rotation of the auger portion serves to move harvested material to be threshed from the auger inlet toward the auger outlet; and rotating a threshing portion via a threshing drive mechanism, wherein the threshing portion comprises rasp bars and comprises a threshing inlet and a threshing outlet, wherein the threshing inlet is configured to receive harvested material to be threshed from the auger outlet, and wherein the auger portion is selectively connected to the threshing portion via a clutch, and wherein the auger portion is stopped or slowed via the clutch to allow the auger portion to serve as a staging location for the harvested material prior to the advancement of the harvested material into the threshing portion. 9. The method of claim 8 , wherein the auger portion may be idled by selective disengagement of the clutch. 10. The method of claim 8 , wherein rotating the auger portion comprises rotating the auger portion via a gear set, and the auger portion rotates at a speed of rotation that is less than a speed of rotation of the threshing portion. 11. The method of claim 10 , wherein the auger portion may be idled by selective disengagement of the clutch. 12. The method of claim 8 , wherein the auger portion serves as a staging location for the harvested material prior to the advancement of the harvested material into the threshing portion, and wherein the harvested material is deposited onto the auger portion.