The present invention discloses an inferior-eliminating and superior-selecting breeding method for synergistically improving wheat yield and quality. A method for breeding target wheat varieties with improved yield and quality is provided herein, which combines the advantages of pedigree method and hybrid method, and provides a method for selection of all generations using molecular marker in combination with phenotype identification, and for selection of each generation according to different standards. Different from the derivative system method, the method reserves the traceability of line history and genetic relationship and the characteristics of simple operation and abundant genetic diversity of the hybrid method. The parents have clear backgrounds before combination and the selection process is simple and easy to operate, with clear goal, especially for those with no breeding experiences, it is easy to master and provides technical support for the rapid breeding of new varieties of high-quality and high-yield wheat.

A hand held device for land management is described for a user of the device to provide agricultural information relating to a field, wherein the agricultural information includes information on at least one crop. A transmitter of the device transmits information including the agricultural information relating to the field. A receiver of the device receives agricultural data that includes best practices for the growing of the at least one crop. A processing unit of the device determines agricultural management information on the basis of the agricultural data. An output unit of the device outputs the agricultural management information to the user of the device.

An automated method for sampling seeds generally includes removing material from a seed at an automated sampling station and then, after removing the material from the seed, detecting, by at least one sensor, movement of the seed out of the automated sampling station. The automated method may also include, after removing the material from the seed, transferring the seed from the automated sampling station to a seed container and transferring the material removed from the seed from the automated sampling station to a sample container.

An automated method for sampling seeds generally includes removing material from a seed at an automated sampling station and then, after removing the material from the seed, detecting, by at least one sensor, movement of the seed out of the automated sampling station. The automated method may also include, after removing the material from the seed, transferring the seed from the automated sampling station to a seed container and transferring the material removed from the seed from the automated sampling station to a sample container.

A system for sorting seeds based on their resistance to a stress is disclosed. Batches of purified seeds sorted using the system are also disclosed.

A system for sorting seeds based on their resistance to a stress is disclosed. Batches of purified seeds sorted using the system are also disclosed.

Provided herein is a non plant-pathogenic strain that can stably exhibit a bacterial plant disease control effect at the actual site of crop production, and that can be safely used as a biopesticide against plant. A bacterial plant disease control agent using such a strain is also provided, among others. In the present invention, viable bacteria of a strain belonging to genus Mitsuaria, which was not known to have a control effect against bacterial plant disease, or a culture containing the viable bacteria of such a strain are used as an active component, and the invention provides bacterial plant disease control agents such as a vegetable wilt disease control agent, and a canker control agent.

Provided herein is a non plant-pathogenic strain that can stably exhibit a bacterial plant disease control effect at the actual site of crop production, and that can be safely used as a biopesticide against plant. A bacterial plant disease control agent using such a strain is also provided, among others. In the present invention, viable bacteria of a strain belonging to genus Mitsuaria, which was not known to have a control effect against bacterial plant disease, or a culture containing the viable bacteria of such a strain are used as an active component, and the invention provides bacterial plant disease control agents such as a vegetable wilt disease control agent, and a canker control agent.

The present invention relates to an apparatus and method for seed ablation. In accordance with the method of seed ablation, the apparatus is adapted to expose a heat source to a plurality of seeds while the seeds are in motion. Exposing of the heat source to the moving seed allows ablation of the seeds for de-awning and removing of the appendages of the seeds. In a particular arrangement the seeds are exposed to rotational movement within a centrifugal drum to form a rotating stream of seeds. A torch which reaches into the drum provides a flame directed to the stream of seeds for exposing the seeds to the flame. This allows the ablation of the seed awns and appendages over time as seeds enter into contact with the flame.

The present invention relates to an apparatus and method for seed ablation. In accordance with the method of seed ablation, the apparatus is adapted to expose a heat source to a plurality of seeds while the seeds are in motion. Exposing of the heat source to the moving seed allows ablation of the seeds for de-awning and removing of the appendages of the seeds. In a particular arrangement the seeds are exposed to rotational movement within a centrifugal drum to form a rotating stream of seeds. A torch which reaches into the drum provides a flame directed to the stream of seeds for exposing the seeds to the flame. This allows the ablation of the seed awns and appendages over time as seeds enter into contact with the flame.