A system including a foliage displacement system. The foliage displacement system can include a support structure and two or more surfaces movably coupled to the support structure and configured to move between an open configuration of the foliage displacement system and a closed configuration of the foliage displacement system. The two or more surfaces can be configured to move foliage of a plant toward a center of the plant such that crops of the plant that underlie the foliage are exposed when the foliage displacement system moves from the open configuration to the closed configuration. Other embodiments are provided.

A system including a foliage displacement system. The foliage displacement system can include a support structure and two or more surfaces movably coupled to the support structure and configured to move between an open configuration of the foliage displacement system and a closed configuration of the foliage displacement system. The two or more surfaces can be configured to move foliage of a plant toward a center of the plant such that crops of the plant that underlie the foliage are exposed when the foliage displacement system moves from the open configuration to the closed configuration. Other embodiments are provided.

In one example, an agricultural system is provided and includes a first component and a second component. The first component includes a network interface for receiving an agricultural prescription over a network. The agricultural prescription is comprised of at least one agricultural characteristic and at least one agricultural action. The second component is in communication with the first component and configured to receive the agricultural prescription from the first component. The second component is configured to output the at least one agricultural action. In one example, an agricultural system is provided and includes an agricultural device and an agricultural communication device including a network interface for receiving an agricultural prescription over a network. The agricultural prescription is comprised of at least one agricultural characteristic and at least one agricultural action. The agricultural device is configured to output the agricultural action.

In one example, an agricultural system is provided and includes a first component and a second component. The first component includes a network interface for receiving an agricultural prescription over a network. The agricultural prescription is comprised of at least one agricultural characteristic and at least one agricultural action. The second component is in communication with the first component and configured to receive the agricultural prescription from the first component. The second component is configured to output the at least one agricultural action. In one example, an agricultural system is provided and includes an agricultural device and an agricultural communication device including a network interface for receiving an agricultural prescription over a network. The agricultural prescription is comprised of at least one agricultural characteristic and at least one agricultural action. The agricultural device is configured to output the agricultural action.

The present invention generally relates to deuterium-enriched aldehydes, compositions comprising deuterium-enriched aldehydes, and methods for slowing the rate of aldehyde autoxidation. In one aspect, the present invention provides a composition comprising a compound of structure 1: ##STR00001##
wherein: there are at least 610.sup.18 molecules of the aldehyde and R.sub.x is hydrogen, wherein the deuterium isotope in R.sub.x is in an amount greater than 0.10 percent of the hydrogen atoms present in R.sub.x.

The present invention generally relates to deuterium-enriched aldehydes, compositions comprising deuterium-enriched aldehydes, and methods for slowing the rate of aldehyde autoxidation. In one aspect, the present invention provides a composition comprising a compound of structure 1: ##STR00001##
wherein: there are at least 610.sup.18 molecules of the aldehyde and R.sub.x is hydrogen, wherein the deuterium isotope in R.sub.x is in an amount greater than 0.10 percent of the hydrogen atoms present in R.sub.x.

A harvester monitoring system configured to determine one or more parameters associated with harvested items, the system comprising: a camera module having a field of view and configured to generate image data associated with the harvested items; a mounting bracket configured to secure the camera module to a harvester such that a conveyor of the harvester is within the field of view of the camera module; a location sub-system configured to determine and output location data representative of a geographical location of the harvester monitoring system; and a processing unit configured to receive the image data and the location data, to determine one or more parameters associated with the harvested items, and to record the one or more parameters in association with the location data on a computer readable medium.

A harvester monitoring system configured to determine one or more parameters associated with harvested items, the system comprising: a camera module having a field of view and configured to generate image data associated with the harvested items; a mounting bracket configured to secure the camera module to a harvester such that a conveyor of the harvester is within the field of view of the camera module; a location sub-system configured to determine and output location data representative of a geographical location of the harvester monitoring system; and a processing unit configured to receive the image data and the location data, to determine one or more parameters associated with the harvested items, and to record the one or more parameters in association with the location data on a computer readable medium.

A modeling framework for evaluating the impact of weather conditions on farming and harvest operations applies real-time, field-level weather data and forecasts of meteorological and climatological conditions together with user-provided and/or observed feedback of a present state of a harvest-related condition to agronomic models and to generate a plurality of harvest advisory outputs for precision agriculture. A harvest advisory model simulates and predicts the impacts of this weather information and user-provided and/or observed feedback in one or more physical, empirical, or artificial intelligence models of precision agriculture to analyze crops, plants, soils, and resulting agricultural commodities, and provides harvest advisory outputs to a diagnostic support tool for users to enhance farming and harvest decision-making, whether by providing pre-, post-, or in situ-harvest operations and crop analyses.

A modeling framework for evaluating the impact of weather conditions on farming and harvest operations applies real-time, field-level weather data and forecasts of meteorological and climatological conditions together with user-provided and/or observed feedback of a present state of a harvest-related condition to agronomic models and to generate a plurality of harvest advisory outputs for precision agriculture. A harvest advisory model simulates and predicts the impacts of this weather information and user-provided and/or observed feedback in one or more physical, empirical, or artificial intelligence models of precision agriculture to analyze crops, plants, soils, and resulting agricultural commodities, and provides harvest advisory outputs to a diagnostic support tool for users to enhance farming and harvest decision-making, whether by providing pre-, post-, or in situ-harvest operations and crop analyses.