Float arm support

What is claimed is: 1. A float arm support system comprising: a float arm supporting an active member, the float arm being pivotable about a first axis; a skid shoe to bear against and follow local ground contours of the underlying terrain while supporting the active member of the float arm above the underlying terrain, the skid shoe being coupled to the float arm between the first axis and the active member; a powered actuator operably coupled to the skid shoe to vertically move the skid shoe to adjust a spacing at which the skid shoe supports the active member of the float arm relative to the underlying terrain; a frame pivotably supporting the float arm for rotation about the first axis; a first linkage having a first portion pivotably connected to the skid shoe and a second portion pivotally connected to the float arm about a; and a second linkage having a first portion pivotably connected to the skid shoe, a second portion pivotably connected to the powered actuator and a third portion pivotally connected to one of the float arm and the frame, wherein the first portion of the first linkage is pivotally connected to the skid shoe for pivotal movement about a second axis different than the first axis , wherein the second portion of the first linkage is pivotably connected to the float arm for pivotal movement about a third axis different than the second axis and different than the first axis, the third axis being forward the second axis between the second axis and the active member, wherein the first linkage forms a second skid shoe and wherein the skid shoe and the second skid shoe are movable to a retracted position in which the skid shoe and the second skid shoe are substantially coplanar. 2. The float arm support system of claim 1 , wherein the active member comprises a cutter bar and a reciprocatively supported knife and wherein the powered actuator is operably coupled to the skid shoe so as to vertically adjust a spacing between the skid shoe and the cutter bar. 3. The float arm support system of claim 2 , wherein the skid shoe is pivotable in a concurrently upward and forward direction towards the cutter bar to move the skid shoe to a position closer to the cutter bar. 4. The float arm support system of claim 3 , wherein the cutter bar remains parallel to the underlying terrain when the skid shoe is pivoting in the concurrently upward and forward direction. 5. The float arm support system of claim 1 , wherein the third portion is between the first portion and the second portion. 6. The float arm support system of claim 1 , wherein the skid shoe and the second skid shoe each comprise a plate having a face to bear against and follow local ground contours of the underlying terrain. 7. The float arm support system of claim 1 , wherein the float arm comprises a downwardly projecting structural support member and wherein the second linkage is V-shaped, the second linkage receiving the downwardly projecting structural support member in response to the skid shoe being retracted. 8. The float arm support system of claim 7 , wherein the skid shoe comprises a support bracket and wherein the second linkage and the support bracket nest in response to the skid shoe being retracted. 9. The float arm support system of claim 1 , wherein the powered actuator comprises a cylinder-piston assembly having a first portion pivotably connected to the sec is formed and linkage and a second portion pivotally connected to the float arm between the first axis and the active member. 10. The float arm support system of claim 1 , wherein the third portion is pivotably connected to the float arm. 11. The float arm support system of claim 1 , wherein the third portion is pivotably connected to the frame. 12. The float arm support system of claim 1 further comprising a scissor jack pivotably coupling the skid shoe to the frame, wherein the powered actuator selectively raises and lowers the scissor jack to adjust a spacing at which the skid shoe supports the cutter bar relative to the underlying terrain. 13. The float arm support system of claim 1 , wherein the float arm projects in a direction forward the first axis and forward of the skid shoe and wherein the float arm is connected to the active member forwardly beyond and spaced from the skid shoe. 14. A method comprising: movably supporting a float arm carrying an active member about a first axis; and increasing a spacing between the float arm and the active member relative to underlying terrain by vertically lowering a skid shoe carried by the float arm with a powered actuator, wherein the skid shoe is connected to the float arm by a first linkage pivotably connected between the float arm and the skid shoe and a second linkage pivotably connected between the float arm and the skid shoe and wherein the vertical lowering of the skid shoe is by the powered actuator directly connected to the second linkage to pivot the second linkage. 15. A harvester head comprising: a support assembly pivotably supported about a first axis and supporting a cutter bar and a reciprocatively supported knife; a skid shoe to bear against and follow local ground contours of the underlying terrain while supporting the cutter bar above the underlying terrain, the skid shoe being pivotable about a second axis parallel to the first axis between the first axis and the cutter bar; and a powered actuator operably coupled to the skid shoe to selectively pivot the skid shoe about the second axis so as to vertically adjust a spacing between the skid shoe and the cutter bar to adjust a spacing at which the skid shoe supports the cutter bar relative to the underlying terrain, wherein the skid shoe is coupled to the support assembly by: a first linkage having a first portion pivotably connected to the skid shoe and a second portion pivotally connected to the support assembly; and a second linkage having a first portion pivotably connected to the skid shoe, a second portion pivotably connected to the powered actuator and a third portion pivotally connected to the support assembly.