Systems and methods for plant embryo orientation and replating

The invention claimed is: 1. A plant embryo orientation apparatus capable of placing a plant embryo in a desired orientation on a surface comprising: first and second vacuum nozzle assemblies, wherein each of the first and second nozzle assemblies comprises a respective first and second vacuum nozzle, each of the vacuum nozzles having respective distal ends, wherein each vacuum nozzle is configured to apply suction to retain a plant embryo against the distal end of the vacuum nozzle, and each vacuum nozzle is selectively rotatable between a release/retrieval position and an embryo transfer position in which the distal end of the first vacuum nozzle is positioned proximate the distal end of the second vacuum nozzle, at least one controller that is communicatively coupled to the first and second vacuum nozzles to control rotation of the vacuum nozzles of the first and second nozzle assemblies between the release/retrieval position and the embryo transfer position, at least one visualization system operably linked to the at least one controller, wherein the controller is configured to determine if the orientation of an embryo selected and retained by the first vacuum nozzle corresponds to a desired orientation, and wherein in response to determining the orientation of the embryo selected and retained by the first vacuum nozzle does not correspond to a desired orientation, activates an assembly to position the first and second vacuum nozzle in the embryo transfer position, transfers the embryo from the first vacuum nozzle to the second vacuum nozzle, and directs the second vacuum nozzle to place and release the embryo on a desired surface, and wherein in response to determining the orientation of the embryo selected and retained by the first vacuum nozzle corresponds to a desired orientation, directs the first vacuum nozzle to place and release the embryo on a desired surface without transferring the embryo from the first vacuum nozzle to the second vacuum nozzle. 2. The plant embryo orientation apparatus of claim 1 wherein in the release/retrieval position the vacuum nozzle is positioned on a vertical axis, and when in the embryo transfer position, the first and second vacuum nozzles are both positioned horizontally and configured for movement relative to each other along the same horizontal axis. 3. The plant embryo orientation apparatus of claim 1 , wherein each nozzle assembly further comprises a cartridge that is configured to selectively engage the vacuum nozzle of the nozzle assembly such that movement of the cartridge imparts a corresponding movement to the vacuum nozzle. 4. The plant embryo orientation apparatus of claim 1 , wherein each nozzle further comprises a guide tube that is configured to receive a portion of the vacuum nozzle. 5. The plant embryo orientation apparatus of claim 1 , wherein each nozzle assembly further comprises a vacuum tube, wherein the cartridge defines a vacuum port configured to receive suction from a vacuum source and a blow-off port configured to receive positive pressure from a positive pressure source, and wherein the vacuum tube is positioned in communication with the vacuum port, the blow-off port, and the guide tube to provide suction and positive pressure to the vacuum nozzle of the nozzle assembly. 6. The plant embryo orientation apparatus of claim 1 , further comprising: a first robot having an arm coupled to the first nozzle assembly, wherein the arm of the first robot is configured for selective rotational movement to the first nozzle assembly; and a second robot having an arm coupled to the second nozzle assembly, wherein the arm of the second robot is configured for selective rotational movement to the second nozzle assembly. 7. The plant embryo orientation apparatus of claim 6 , wherein the first and second robots are communicatively coupled to the at least one controller. 8. A method of positioning an plant embryo in a desired orientation comprising: providing first and second vacuum nozzle assemblies, wherein each of the first and second nozzle assemblies comprises a respective first and second vacuum nozzle, each of the vacuum nozzles having a respective distal end, wherein each vacuum nozzle is configured to apply suction to retain an embryo against the distal end of the vacuum nozzle, and wherein each vacuum nozzle is selectively rotatable between a vertical axis for embryo release/retrieval and an embryo-transfer position in which the distal end of the first vacuum nozzle is positioned proximate the distal end of the second vacuum nozzle in order to effectuate transfer and reorientation of the embryo; selectively activating at least one actuator to position the first nozzle assembly in the embryo retrieval position; activating a vacuum source to apply suction through the vacuum nozzle of the first nozzle assembly to retain an embryo against the distal end of the vacuum nozzle of the first nozzle assembly; producing an image of the embryo; determining an orientation of the embryo retained against the distal end of the vacuum nozzle of the first nozzle assembly, and activating a controller to direct the embryo retained against the distal end of the vacuum nozzle of the first nozzle assembly to be transferred to the distal end of the vacuum nozzle of the second nozzle assembly if the embryo retained against the distal end of the vacuum nozzle of the first nozzle assembly was not in a desired orientation, or to direct the embryo retained against the distal end of the vacuum nozzle of the first nozzle assembly to be released upon a desired surface if the embryo retained against the distal end of the vacuum nozzle of the first nozzle assembly was in a desired orientation. 9. The method of claim 8 , further comprising using the controller to compare the orientation of the embryo to a desired orientation of the embryo. 10. The method of claim 8 , wherein, with the first nozzle assembly in the embryo release or transfer position, the controller activates a positive pressure source to apply positive pressure through the vacuum nozzle of the first nozzle assembly to detach the embryo from the distal end of the vacuum nozzle of the first nozzle assembly. 11. The method of claim 8 , wherein, with the first and second nozzle assemblies in the embryo-transfer position, the controller: activates a positive pressure source to apply positive pressure through the vacuum nozzle of the first nozzle assembly to detach the embryo from the distal end of the vacuum nozzle of the first nozzle assembly; and activates a vacuum source to apply suction through the vacuum nozzle of the second nozzle assembly to retain the embryo against the distal end of the vacuum nozzle of the second nozzle assembly. 12. The method of claim 11 , with the embryo retained against the distal end of the vacuum nozzle of the second nozzle assembly, the controller selectively activates at least one actuator to move the second nozzle assembly to the embryo release position. 13. The method of claim 12 , wherein, with the second nozzle assembly in the embryo release position, the controller activates a positive pressure source to apply positive pressure through the vacuum nozzle of the second nozzle assembly to detach the embryo from the distal end of the vacuum nozzle of the second nozzle assembly. 14. The method of claim 8 , wherein an image is used to identify singulated embryos on a screen removed from a fluid bath and to position the first nozzle assembly to retrieve a singulated embryo. 15. The method of claim 8 , wherein the plant embryo is a haploid plant embryo. 16. The method of claim 1