Abstract: A method for reducing resources for selecting seed to be produced in commercial quantities or for research is disclosed. Samples of seed which are candidates for selection are collected and given an identifier. Specific tissue or structure from candidate seed is removed. A test or analysis is performed on the candidate seed or the removed tissue or structure. Results of the test or analysis are recorded and correlated to the seed's identifier. The results are evaluated and a decision is made whether to select a candidate seed for commercial production or for research. Time, space, and labor associated with growing plants in an experimental plot or greenhouse and taking tissue samples from growing plants is saved.

Abstract: An apparatus for reducing resources for selecting seed to be produced in commercial quantities or for research is disclosed. Samples of seed which are candidates for selection are collected and given an identifier. Specific tissue or structure from candidate seed is removed. A test or analysis is performed on the candidate seed or the removed tissue or structure. Results of the test or analysis are recorded and correlated to the seed's identifier. The results are evaluated and a decision is made whether to select a candidate seed for commercial production or for research. Time, space, and labor associated with growing plants in an experimental plot or greenhouse and taking tissue samples from growing plants is saved.

Abstract: A method for reducing resources for selecting seed to be produced in commercial quantities or for research is disclosed. Samples of seed which are candidates for selection are collected and given an identifier. Specific tissue or structure from candidate seed is removed. A test or analysis is performed on the candidate seed or the removed tissue or structure. Results of the test or analysis are recorded and correlated to the seed's identifier. The results are evaluated and a decision is made whether to select a candidate seed for commercial production or for research. Time, space, and labor associated with growing plants in an experimental plot or greenhouse and taking tissue samples from growing plants is saved.

Abstract: A method for automated handling, positioning and orienting of an ear of corn includes methods for altering a portion of an ear of corn. Optionally included are one or more stations for automatically processing, testing, sampling and preparing the ear of corn for processing, testing or sampling and an automated transport means for automatically moving ears of corn from station to station using alterations made to the ear of corn.

Abstract: A method for reducing resources for selecting seed to be produced in commercial quantities or for research is disclosed. Samples of seed which are candidates for selection are collected and given an identifier. Specific tissue or structure from candidate seed is removed. A test or analysis is performed on the candidate seed or the removed tissue or structure. Results of the test or analysis are recorded and correlated to the seed's identifier. The results are evaluated and a decision is made whether to select a candidate seed for commercial production or for research. Time, space, and labor associated with growing plants in an experimental plot or greenhouse and taking tissue samples from growing plants is saved.

Abstract: An apparatus for reducing resources for selecting seed to be produced in commercial quantities or for research is disclosed. Samples of seed which are candidates for selection are collected and given an identifier. Specific tissue or structure from candidate seed is removed. A test or analysis is performed on the candidate seed or the removed tissue or structure. Results of the test or analysis are recorded and correlated to the seed's identifier. The results are evaluated and a decision is made whether to select a candidate seed for commercial production or for research. Time, space, and labor associated with growing plants in an experimental plot or greenhouse and taking tissue samples from growing plants is saved.

Abstract: An apparatus and system for automated handling, positioning and orienting of an ear of corn includes apparatuses and systems for altering a portion of an ear of corn. Optionally included are one or more stations for automatically processing, testing, sampling and preparing the ear of corn for processing, testing or sampling and an automated transport means automatically moving ears of corn from station to station using alterations made to the ear of corn.

Abstract: An apparatuses, methods and systems for creating, handling and collecting seed portions are highly beneficial. The apparatus includes a carrier having one or more carrying positions adapted to carry a seed. The carrying positions having a seed orienter adapted to orient the seed relative to the carrying position in the carrier for creating seed portions therefrom. The method includes taking a carrier having one or more carrying positions, orienting a seed relative to the carrying position in the carrier, ablating the seed with a seed ablation device, and communicating seed portions through a manifold into a compartment layer. The system includes a seed manifold adapted to dock thereon a seed carrier having pre-positioned and pre-oriented seed therein. Seed and seed portions removed from the seed in the carrier are communicated into a collector and compartment layer respectively using the seed manifold.

Abstract: A method and apparatus for containing, protecting, isolating, and individually identifying sets of one or more articles in a plurality of compartments such that information related to the sets can be easily and efficiently linked to the set. In an example of the apparatus, the apparatus has a compartment layer, a sealant layer, and indicia which may individually identify compartments. In another example, a method includes taking a compartment layer and sealant layer, loading compartments with sets of one or more articles, closing the compartment layer with the sealant layer, and identifying each compartment for each seed or portion thereof with a positionally-addressable ordered array of indicia on at least one of the layers of the package.

Abstract: An apparatuses, methods and systems for creating, handling and collecting seed portions are highly beneficial. The apparatus includes a carrier having one or more carrying positions adapted to carry a seed. The carrying positions having a seed orienter adapted to orient the seed relative to the carrying position in the carrier for creating seed portions therefrom. The method includes taking a carrier having one or more carrying positions, orienting a seed relative to the carrying position in the carrier, ablating the seed with a seed ablation device, and communicating seed portions through a manifold into a compartment layer. The system includes a seed manifold adapted to dock thereon a seed carrier having pre-positioned and pre-oriented seed therein. Seed and seed portions removed from the seed in the carrier are communicated into a collector and compartment layer respectively using the seed manifold.

Abstract: An apparatuses, methods and systems for creating, handling and collecting seed portions are highly beneficial. The apparatus includes a carrier having one or more carrying positions adapted to carry a seed. The carrying positions having a seed orienter adapted to orient the seed relative to the carrying position in the carrier for creating seed portions therefrom. The method includes taking a carrier having one or more carrying positions, orienting a seed relative to the carrying position in the carrier, ablating the seed with a seed ablation device, and communicating seed portions through a manifold into a compartment layer. The system includes a seed manifold adapted to dock thereon a seed carrier having pre-positioned and pre-oriented seed therein. Seed and seed portions removed from the seed in the carrier are communicated into a collector and compartment layer respectively using the seed manifold.

Abstract: Apparatuses, methods, and systems for reconfiguring some or all content from one or more first containers into a second container are provided. In an example of the apparatus, the apparatus has a dispensing system having a dispenser to dispense content from one container into another, and a delivery system adapted to reconfigure the dispensed content from the one container into another container. In another example, a method includes dispensing selected contents from one container and reconfiguring the dispensed contents from the one container into another. In another example, the system includes a controller, a machine controlled by the controller, wherein the machine has a pair of container handlers, a content dispenser, and a content delivery system. The controller is adapted to control the machine using a selection criterion to operate the content dispenser to dispense selected content from one container to move with the delivery system into another container.

Abstract: Apparatuses, methods, and systems for reconfiguring some or all content from one or more first containers into a second container are provided. In an example of the apparatus, the apparatus has a dispensing system having a dispenser to dispense content from one container into another, and a delivery system adapted to reconfigure the dispensed content from the one container into another container. In another example, a method includes dispensing selected contents from one container and reconfiguring the dispensed contents from the one container into another. In another example, the system includes a controller, a machine controlled by the controller, wherein the machine has a pair of container handlers, a content dispenser, and a content delivery system. The controller is adapted to control the machine using a selection criterion to operate the content dispenser to dispense selected content from one container to move with the delivery system into another container.

Abstract: A method for reducing resources for selecting seed to be produced in commercial quantities or for research is disclosed. Samples of seed which are candidates for selection are collected and given an identifier. Specific tissue or structure from candidate seed is removed. A test or analysis is performed on the candidate seed or the removed tissue or structure. Results of the test or analysis are recorded and correlated to the seed's identifier. The results are evaluated and a decision is made whether to select a candidate seed for commercial production or for research. Time, space, and labor associated with growing plants in an experimental plot or greenhouse and taking tissue samples from growing plants is saved.

Abstract: A method, apparatus, and system for coating, singulating, aligning, ablating, and indexing a number of seeds for testing is described. The apparatus has a carrier designed to hold seeds in a predetermined alignment for ablating a seed sample from a seed portion, the seed portions are indexed to the seed samples. The carrier is then located on the apparatus which delivers the seed samples from the carrier to a collector for laboratory testing.

Abstract: A method for reducing resources for selecting seed to be produced in commercial quantities or for research is disclosed. Samples of seed which are candidates for selection are collected and given an identifier. Specific tissue or structure from candidate seed is removed. A test or analysis is performed on the candidate seed or the removed tissue or structure. Results of the test or analysis are recorded and correlated to the seed's identifier. The results are evaluated and a decision is made whether to select a candidate seed for commercial production or for research. Time, space, and labor associated with growing plants in an experimental plot or greenhouse and taking tissue samples from growing plants is saved.

Abstract: A method and apparatus for containing, protecting, isolating, and individually identifying sets of one or more articles in a plurality of compartments such that information related to the sets can be easily and efficiently linked to the set. In an example of the apparatus, the apparatus has a compartment layer, a sealant layer, and indicia which may individually identify compartments. In another example, a method includes taking a compartment layer and sealant layer, loading compartments with sets of one or more articles, closing the compartment layer with the sealant layer, and identifying each compartment for each seed or portion thereof with a positionally-addressable ordered array of indicia on at least one of the layers of the package.

Abstract: A method and apparatus for containing, protecting, isolating, and individually identifying sets of one or more articles in a plurality of compartments such that information related to the sets can be easily and efficiently linked to the set. In an example of the apparatus, the apparatus has a compartment layer, a sealant layer, and indicia which may individually identify compartments. In another example, a method includes taking a compartment layer and sealant layer, loading compartments with sets of one or more articles, closing the compartment layer with the sealant layer, and identifying each compartment for each seed or portion thereof with a positionally-addressable ordered array of indicia on at least one of the layers of the package.

Abstract: Apparatus, methods, and systems for high throughput, useful sampling of seed, wherein viability is optionally maintained, are disclosed. Seed from one generation in a plant advancement experiment is individually sampled by removal and collection of tissue from the seed. The tissue is then processed to derive one or more biochemical, genetic, or phenotypic characteristic of the seed before a decision is made whether to utilize that seed further in a plant advancement experiment or other plant research and development. In some embodiments of the method, the sampling is controlled to remove a useful amount of tissue for analytical purposes without significant effect on viability potential of the sampled seed. In some embodiments, the sampling is controlled to deter contamination of the sample. In some embodiments, the seed is automatically positioned and oriented to facilitate efficient and accurate sampling.

Abstract: Apparatus, methods, and systems for high throughput, useful sampling of seed, wherein viability is optionally maintained, are disclosed. Seed from one generation in a plant advancement experiment is individually sampled by removal and collection of tissue from the seed. The tissue is then processed to derive one or more biochemical, genetic, or phenotypic characteristic of the seed before a decision is made whether to utilize that seed further in a plant advancement experiment or other plant research and development. In some embodiments of the method, the sampling is controlled to remove a useful amount of tissue for analytical purposes without significant effect on viability potential of the sampled seed. In some embodiments, the sampling is controlled to deter contamination of the sample. In some embodiments, the seed is automatically positioned and oriented to facilitate efficient and accurate sampling.