Grow tower processing for controlled environment agriculture system

1 . A crop production system for controlled environment agriculture, comprising: a vertical grow tower conveyance system comprising one or more grow lines; a plurality of grow towers, each of the plurality of grow towers vertically attached to, and moveable along, a respective one of the one or more grow lines, wherein each of the plurality of grow towers includes a plurality of grow sites extending at least along one face thereof; and a grow tower conveyance mechanism operative to move the one or more grow towers along a respective grow line from a first end to a second end; a horizontal conveyor to convey grow towers to one or more processing stations; and an automated laydown station comprising a first robot including an end effector adapted to releasably grasp a grow tower, and control logic operative to cause the first robot to pick the grow tower from a pick location in a vertical orientation, rotate the grow tower to a horizontal orientation and place the tower on the horizontal conveyor; wherein the end effector comprises a beam, a first gripper attached to a first end of the beam, and a second gripper attached to a second end of the beam, wherein the first and second grippers are configured to releasably grasp a grow tower. 2 . The crop production system of claim 1 further comprising a harvester station comprising a crop harvesting machine, and a feeder mechanism to receive a grow tower in a horizontal orientation from the horizontal conveyor and feed the grow tower through the crop harvesting machine in a horizontal orientation. 3 . (canceled) 4 . The crop production system of claim 1 wherein the first robot comprises a robotic arm movable in six axes. 5 . The crop production system of claim 1 wherein the vertical grow tower conveyance system is substantially encapsulated in a controlled growth environment. 6 . The crop production system of claim 5 further comprising an unload transfer conveyor comprising a plurality of carriages disposed on a track; and wherein the unload transfer conveyor is configured to convey carriages carrying grow towers releasably attached thereto from the one or more grow lines in the controlled growth environment to a pick location reachable by the first robot of the automated laydown station. 7 . The crop production system of claim 2 further comprising a washing station comprising a second feeder mechanism to receive a grow tower in a horizontal orientation and feed the grow tower through the washing station in a horizontal orientation; a transplanter station comprising a third feeder mechanism to receive a grow tower in a horizontal orientation and feed the grow tower through the transplanter station in a horizontal orientation; a plurality of conveyors arranged to convey grow towers to and from respective ones of the harvester station, the washing station and the transplanter station, wherein the plurality of conveyors include a first conveyor arranged to feed a grow tower to the harvester station, a second conveyor arranged to feed a grow tower to the washing station, a third conveyor arranged to feed a grow tower to the transplanter station, and a fourth conveyor arranged to feed a grow tower from the transplanter station to a pickup location. 8 . The crop production system of claim 7 further comprising a loading transfer conveyor comprising a plurality of carriages disposed on a track; and wherein the loading transfer conveyor is configured to convey carriages carrying grow towers releasably attached thereto from a stop location to the one or more grow lines; and an automated pickup station comprising a second robot including an end effector adapted to releasably grasp a grow tower, and control logic operative to cause the second robot to grasp a grow tower from the pickup location in a horizontal orientation, rotate the grow tower to a vertical orientation and attach the grow tower to a carriage of the loading transfer conveyor at the stop location. 9 . The crop production system of claim 7 further comprising a horizontal tower buffer disposed between the harvester station and the washing station, the horizontal tower buffer configured to buffer a plurality of grow towers processed by the harvester station and to provide a buffered grow tower to the washing station to thereby operationally decouple the harvester station from the washing station. 10 . The crop production system of claim 7 further comprising a horizontal tower buffer disposed between the washing station and the transplanter station, the horizontal tower buffer configured to buffer a plurality of grow towers processed by the washing station and to provide a buffered grow tower to the transplanter station to thereby operationally decouple the washing station from the transplanter station. 11 . The crop production system of claim 1 wherein each of the plurality of grow towers comprises a hook attached to the top of the grow tower, wherein the hook is configured to engage the grow line. 12 . The crop production system of claim 11 wherein each of the one or more grow lines includes a groove region to which the hook of a grow tower slidably attaches. 13 . The crop production system of claim 1 wherein each of the plurality of grow towers comprises a first plurality of plug containers arranged along a first face of the grow tower. 14 . The crop production system of claim 13 wherein each of the plurality of grow towers comprises a second plurality of plug containers arranged along a second face of the grow tower, wherein the second face is opposite to the first face. 15 . The crop production system of claim 6 wherein the unload transfer conveyor is operative to selectively route grow towers to a select one of a plurality of pre-harvest buffers for pick up by the automated laydown station. 16 . A crop production system for controlled environment agriculture, comprising: a vertical grow tower conveyance system comprising one or more grow lines; a plurality of grow towers, each of the plurality of grow towers vertically attached to, and moveable along, a respective one of the one or more grow lines, wherein each of the plurality of grow towers includes a plurality of grow sites extending at least along one face thereof; a grow tower conveyance mechanism operative to move the one or more grow towers along a respective grow line from a first end to a second end; and a transfer mechanism adapted to attach a grow tower to the first end of a select grow line of the one or more grow lines; a loading transfer conveyor comprising a plurality of carriages disposed on a track; and wherein the loading transfer conveyor is configured to convey carriages carrying grow towers releasably attached thereto from a stop location to the one or more grow lines; and an automated pickup station comprising a first robot including an end effector adapted to releasably grasp a grow tower, and control logic operative to cause the first robot grasp a grow tower from a pickup location in a horizontal orientation, rotate the grow tower to a vertical orientation and transfer the grow tower to a carriage of the loading transfer conveyor; wherein the end effector comprises a beam, a first gripper attached to a first end of the beam, and a second gripper attached to a second end of the beam, wherein the first and second grippers are configured to releasably grasp a grow tower. 17 . The crop production system of claim 16 further comprising a transplanter station comprising a transplanting machine, and a feeder mechanism to receive a grow tower in a horizontal orientation