Biometric measurement systems and methods

What is claimed is: 1. A method of generating crop biometric information in field conditions for use in crop analytics and breeding, said method comprising: providing a test plot of plants comprising a plurality of rows of plants that have been planted such that each row of plants comprises at least one specific selected genotype of plants and at least one of the rows of plants comprises plants of a selected genotype that is different than the selected genotype of the plants in at least one of the other rows; scanning top surfaces of various plant crown structures of a plurality of the plants in one or more of the rows of plants to collect scan data of the crown structures; converting the scan data into a high spatial resolution 3-dimensional field contour map; extracting, from the high spatial resolution 3-dimensional field contour map, biometric information relating to the plants in each of the one or more rows of the scanned plants; utilizing the extracted biometric information to determine information regarding at least one selected trait for each of the plants in the one or more rows of scanned plants; and utilizing the determined trait information to identify one or more plants in the test plot exhibiting the at least one selected trait, thereby identifying which of the specific selected genotypes of plants exhibit the at least one selected trait. 2. The method of claim 1 , wherein extracting biometric information comprises extracting plant height data relating to each of the plants in each of the one or more selected rows of plants from the high spatial resolution 3-dimensional field contour map. 3. The method of claim 1 , wherein extracting biometric information comprises extracting plant density data relating to each of the one or more selected rows or plants from the high spatial resolution 3-dimensional field contour map. 4. The method of claim 1 , wherein extracting biometric information comprises extracting canopy volume data relating to the plants in each of the one or more selected rows of plants from the high spatial resolution 3-dimensional field contour map. 5. The method of claim 1 , wherein scanning the top surfaces of the various plant crown structures comprises: oscillating an emitter/receiver head of a data collection device of a terrestrial mobile data collection system along a linear range of motion that is substantially orthogonal to the rows of plants as the data collection device is moved along the rows of plants, via the terrestrial mobile data collection system, wherein each oscillation includes a forward sweep of the emitter/receiver head along the linear range of motion and a backward sweep of the emitter/receiver head along the linear range of motion, the data collection device mounted to the terrestrial mobile data collection device and positioned above the plants; continuously emitting data collection signals from an emitter of the emitter/receiver head as the emitter/receiver head oscillates back and forth along the range of motion and the data collection device is moved along the rows of plants; receiving, at a receiver of the emitter/receiver head, the emitted data collection signals reflected from the top surfaces of the various plant crown structures or the ground from which the plants are growing; and deriving the scan data from the received reflected data collection signals, for each forward and backward sweep as the data collection scanning device is moved along the rows of plants. 6. The method of claim 5 , wherein converting the scan data into a high spatial resolution 3-dimensional field contour map comprises: converting the scan data derived from the received reflected data collection signals for each forward and backward sweep into a plurality of 2-dimensional data slices, via the processing device, each slice representative of a respective 2-dimensional field elevation profile of the scanned plants and a surface of the ground from which the plants are growing; and generating the high spatial resolution 3-dimensional field contour map utilizing the plurality of 2-dimensional data slices. 7. The method of claim 1 , wherein scanning the top surfaces of the various plant crown structures comprises capturing, via a 3-dimensional digital camera, a plurality of sets of light signals reflected from the top surfaces of the various plant crown structures or the ground within a field of view of a lens of the 3-dimensional digital camera, the sets of light signals captured at a selected interval as the 3-dimensional digital camera is moved along the rows of plants. 8. The method of claim 7 , wherein converting the scan data into a high spatial resolution 3-dimensional field contour map comprises deriving the scan data from the captured reflected light signals, in the form of a plurality of 3-dimensional reflected images of the top surfaces of the various plant crown structures or the ground within the field of view of the lens of the 3-dimensional digital camera; and generating the high spatial resolution 3-dimensional field contour map utilizing the plurality of 2-dimensional data slices. 9. A method of generating crop biometric information in field conditions for use in crop analytics and breeding using a terrestrial mobile data collection system, said method comprising: positioning a data collection device of the terrestrial mobile data collection system at a height that is greater than a height of all plants within a test plot comprising a plurality of rows of plants that have been planted such that each row of plants comprises at least one specific selected genotype of plants and at least one of the rows of plants comprises plants of a selected genotype that is different than the genotype of the plants in at least one of the other rows; moving the data collection device along the rows of plants in the test plot, via a mobile platform of the terrestrial mobile data collection system, with the data collection device remaining above the plants; scanning top surfaces of various plant crown structures of the plants in one or more of the rows and a surface of the ground from which the respective plants are growing, via the data collection device, to collect scan data of the crown structures as the data collection device is moved along the rows of plants, the crown structures of each plant comprising a canopy of each respective plant; converting the scan data into a high spatial resolution 3-dimensional field contour map that illustrates an aggregate 3-dimensional field contour of the scanned plants and the ground surface, via a processing device of the terrestrial mobile data collection system; extracting, from the high spatial resolution 3-dimensional field contour map, biometric information relating to the plants in each of the one or more rows of the scanned plants; utilizing the extracted biometric information to determine information regarding at least one selected trait for each of the plants in the one or more rows of scanned plants; and utilizing the determined trait information to identify one or plants in the test plot exhibiting the at least one selected trait, thereby identifying which of the specific selected genotypes of plants exhibit the at least one selected trait. 10. The method of claim 9 , wherein extracting biometric information comprises extracting plant height data relating to each of the plants in each of the one or more selected rows of plants from the high spatial resolution 3-dimensional field contour map. 11. The method of claim 9 , wherein extracting biometric information comprises extracting plant density data relating to each of the one or more selected rows or plants from the high spatial resolution 3-dimensional fie