Planter row unit furrow depth sensing apparatus and method

What is claimed is: 1. A row unit for a seeding machine, the row unit comprising: a frame; a gauge wheel arm pivotally coupled to the frame; a gauge wheel coupled to the gauge wheel arm; and a position sensor assembly configured to detect a gap corresponding to a rotational position of the gauge wheel arm, the position sensor assembly including a sensing target surface, wherein the sensing target surface is at least one of an eccentric surface or a cam surface. 2. The row unit of claim 1 , wherein the position sensor assembly includes a non-contact position sensor positioned on and carried by the frame, the non-contact position sensor configured to detect a proximity of the sensing target surface across the gap. 3. The row unit of claim 2 , wherein the gauge wheel arm includes a bearing section having a surface, a portion of the bearing section surface defining the sensing target surface, such that as the gauge wheel arm pivots relative to the frame, a distance between the non-contact position sensor and the sensing target surface changes. 4. The row unit of claim 2 , wherein a distance between the sensing target surface and the non-contact position sensor changes as the gauge wheel arm is rotated. 5. The row unit of claim 2 , wherein the non-contact position sensor is a first sensor, and wherein the row unit includes a furrow opener and a second sensor to detect wear of the furrow opener. 6. The row unit of claim 2 , wherein the non-contact position sensor is a first sensor, and wherein the row unit includes a furrow following device and a second sensor to detect movement of the furrow following device relative to the frame. 7. The row unit of claim 2 , wherein the non-contact position sensor is an inductive proximity sensor. 8. The row unit of claim 1 , wherein a ferrous clip is releasably coupled to an end of the gauge wheel arm, the ferrous clip including the sensing target surface. 9. The row unit of claim 1 , wherein the gauge wheel arm is rotatable about a pivot axis, wherein the position sensor assembly includes a sensing element having a sensing surface that faces the pivot axis. 10. The row unit of claim 9 , wherein as the gauge wheel arm rotates, a tangency of the sensing target surface remains parallel to the sensing surface. 11. The row unit of claim 1 , further comprising a furrow opener, wherein the position sensor assembly includes a sensor to detect wear of the furrow opener. 12. The row unit of claim 1 , further comprising a controller in communication with the position sensor assembly, wherein the position sensor assembly provides outputs signals corresponding to a position of the gauge wheel arm, and wherein the controller is configured to provide an alert if the gauge wheel arm is missing, if the gauge wheel arm has remained in a same position for a predetermined period of time, if the gauge wheel arm is out of an expected position by a predetermined magnitude or for a predetermined duration of time or is oscillating about an axis of rotation greater than a predetermined frequency, or if a differential between the gauge wheel arm and a second gauge wheel arm is equal to or greater than a predetermined threshold. 13. The row unit of claim 1 , further comprising a furrow following device, wherein the position sensor assembly includes a sensor to detect movement of the furrow following device relative to the frame. 14. The row unit of claim 13 , wherein the furrow following device includes a seed firmer. 15. The row unit of claim 14 , wherein the seed firmer is coupled to the frame via a four-bar pivoting linkage. 16. The row unit of claim 1 , wherein the gauge wheel arm includes a bearing section having a portion which defines the sensing target surface. 17. The row unit of claim 16 , wherein the portion that defines the sensing target surface is a raised shoulder of the bearing section. 18. A gauge wheel arm for a row unit, the gauge wheel arm comprising: a bearing section for rotatably mounting the arm to a frame for rotation about a pivot axis; an arm portion extending from the bearing section; and a gauge wheel mounting portion at an end of the arm opposite the bearing section, wherein the bearing section has a surface, a portion of the bearing section surface defining a sensing target surface relative to the pivot axis. 19. The gauge wheel arm of claim 18 , wherein the bearing section includes a raised shoulder portion which defines the sensing target surface. 20. The gauge wheel arm of claim 18 , wherein a sensor target clip is releasably coupled to the bearing section, the sensor target clip defining the sensing target surface. 21. A row unit for a seeding machine, the row unit comprising: a frame; the gauge wheel arm of claim 18 pivotally coupled to the frame; and a gauge wheel coupled to the gauge wheel arm. 22. The row unit of claim 21 , wherein the gauge wheel arm is a first gauge wheel arm, and further comprising a second gauge wheel arm pivotally coupled to the frame. 23. The row unit of claim 22 , further comprising a position sensor assembly that includes a first sensor associated with the first gauge wheel arm and a second sensor associated with the second gauge wheel arm, wherein the first sensor is configured to detect a rotational position of the first gauge wheel arm and the second sensor is configured to detect a rotational position of the second gauge wheel arm. 24. The row unit of claim 23 , further comprising a controller configured to integrate and average signals from both the first sensor and the second sensor.