Abstract: A mobile platform structured and operable to perform: in-field phenotype and/or genotype data acquisition; image data acquisition; tissue sampling; selection and/or counting of plants growing in a plot; plant height measurement; product and treatment application to plants growing in the plot (e.g., prescriptive and localized insecticide products); sampling of soil where such plants are growing; removal of weeds in such plots; and real-time analysis of all such data and/or samples acquired/collected. Additionally, when combined with location positioning technology and path planning, such a vehicle is further structured and operable to re-enter a field numerous times throughout a season to accurately and repeatably monitor growing conditions, plant response or prescriptive application of a product.

Abstract: The current disclosure describes an automated high-throughput seed sorting system for separating seed via oil and/or moisture content using novel nuclear magnetic resonance (NMR) systems and methods. The disclosed systems and methods for measuring the oil and/or moisture content of a single seed in a low-field time domain NMR instrument are superior in sample throughput and signal-to-noise ratio to conventional NMR systems and methods (free induction decay or spin echo) for single seed oil/moisture measurement.

Abstract: The current disclosure describes an automated high-throughput small object sorting system for separating small object via oil and/or moisture content using novel nuclear magnetic resonance (NMR) systems and methods. The disclosed systems and methods for measuring the oil and/or moisture content of a single small object in a low-field time domain NMR instrument are superior in sample throughput and signal-to-noise ratio to conventional NMR systems and methods (free induction decay or spin echo) for single small object oil/moisture measurement.

Abstract: The current disclosure describes an automated high-throughput seed sorting system for separating seed via oil and/or moisture content using novel nuclear magnetic resonance (NMR) systems and methods. The disclosed systems and methods for measuring the oil and/or moisture content of a single seed in a low-field time domain NMR instrument are superior in sample throughput and signal-to-noise ratio to conventional NMR systems and methods (free induction decay or spin echo) for single seed oil/moisture measurement.

Abstract: In various embodiments, the present disclosure provides a method of generating crop biometric information in field conditions that includes scanning top surfaces of various plant crown structures of a plurality of plants in one or more rows of plants within a field to collect scan data of the crown structures. Additionally, the method includes 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. The method further includes extracting, from the high spatial resolution 3-dimensional field contour map, biometric information relating to the plants in each of one or more selected rows of the scanned rows of plants.

Abstract: The current disclosure describes an automated high-throughput small object sorting system for separating small object via oil and/or moisture content using novel nuclear magnetic resonance (NMR) systems and methods. The disclosed systems and methods for measuring the oil and/or moisture content of a single small object in a low-field time domain NMR instrument are superior in sample throughput and signal-to-noise ratio to conventional NMR systems and methods (free induction decay or spin echo) for single small object oil/moisture measurement.

Abstract: In various embodiments, the present disclosure provides a method of generating crop biometric information in field conditions that includes scanning top surfaces of various plant crown structures of a plurality of plants in one or more rows of plants within a field to collect scan data of the crown structures. Additionally, the method includes 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. The method further includes extracting, from the high spatial resolution 3-dimensional field contour map, biometric information relating to the plants in each of one or more selected rows of the scanned rows of plants.

Abstract: The present disclosure generally relates to a high throughput system, apparatus, and methods useful for efficiently analyzing experimental liquid formulations applied to plants. In various embodiments, the high throughput system includes a liquid formulation dispensing subsystem (LFDS). The LFDS includes an automated moveable sample plate platform for holding at least one sample plate. Each sample plate includes a plurality of wells containing plant specimens. The LFDS is operable to sequentially position select ones of the wells at a well target location. Once a selected well is positioned at the target location, a micro-sprayer assembly, including at least one liquid formulation applicator, applies discrete amounts of a liquid formulation to the plant specimens within each selected well.

Abstract: The present disclosure generally relates to a high throughput system, apparatus, and methods useful for efficiently analyzing experimental liquid formulations applied to plants. In various embodiments, the high throughput system includes a liquid formulation dispensing subsystem (LFDS). The LFDS includes an automated moveable sample plate platform for holding at least one sample plate. Each sample plate includes a plurality of wells containing plant specimens. The LFDS is operable to sequentially position select ones of the wells at a well target location. Once a selected well is positioned at the target location, a micro-sprayer assembly, including at least one liquid formulation applicator, applies discrete amounts of a liquid formulation to the plant specimens within each selected well.