A dosing station comprises a receiving area for receiving a module and a sampling system for acquiring water from the module, analyzing the water and determining a refill recipe based on one or more parameters of the water. The dosing station includes a nutrient dispenser arranged to dispense at least one nutrient into the module according to the refill recipe. The recipe can be based on the type of plants in the module, the age of the plant and/or the physical condition of the plants. The dosing station can change refill recipes for each module within an agricultural facility based on one or more parameters to optimize the nutrient supply for all plants within the agricultural facility.

Systems and methods for application of active ingredients to plants such as cannabinoid-producing plants (e.g., plants in the genus Cannabis) are generally described. Certain aspects of this disclosure relate to systems for treating cannabinoid-producing plants (e.g., plants of the genus Cannabis such as those containing Cannabis sativa, Cannabis indica, or combinations thereof) involving fluidic communication between the plants and a source of a cyclopropene (e.g., in an enclosure). In some embodiments, cannabinoid-producing plants (e.g., plants of the genus Cannabis) are exposed to a cyclopropene (e.g., 1-methylcyclopropene in a gas phase). Some embodiments involve such exposure inducing potentially desirable phenomena with the plants, such as growth of male sex organs on female plants and/or enhancement of plant biomass.

Systems and methods for application of active ingredients to plants such as cannabinoid-producing plants (e.g., plants in the genus Cannabis) are generally described. Certain aspects of this disclosure relate to systems for treating cannabinoid-producing plants (e.g., plants of the genus Cannabis such as those containing Cannabis sativa, Cannabis indica, or combinations thereof) involving fluidic communication between the plants and a source of a cyclopropene (e.g., in an enclosure). In some embodiments, cannabinoid-producing plants (e.g., plants of the genus Cannabis) are exposed to a cyclopropene (e.g., 1-methylcyclopropene in a gas phase). Some embodiments involve such exposure inducing potentially desirable phenomena with the plants, such as growth of male sex organs on female plants and/or enhancement of plant biomass.

The present disclosure provides novel compositions and methods of forming those compositions by complexing a micronutrient with at least two organic acids, preferably in the presence of a base to form an aqueous formulation. Compositions comprising the complexed micronutrient are tank mix compatible and can be used to deliver a water-soluble source of the particular micronutrient to plants (e.g., corn plants), with foliar application being particularly preferred.

An agricultural implement wear monitoring system that monitors a first component of an agricultural implement. A sensor detects and emits a signal indicative of a first geometric dimension of the first component and/or a second geometric dimension of the first component relative to a second component. A controller couples to the sensor. The controller monitors the first geometric dimension and/or the second geometric dimension, and in response to a detected change in the first geometric dimension and/or the second geometric dimension determines a remaining service life of the first component.

An autonomous ground maintenance system comprising a vehicle comprising a chassis supported upon a ground surface by ground support members, a container supported by the chassis, the container defining a discharge outlet operable to disperse treating material held within the container to a target area of the ground surface, a gate adapted to selectively open and close the discharge outlet, a sensor adapted to identify the target area, and an electronic controller supported by the chassis, the controller being in communication with the sensor and the gate. The controller is adapted to position the chassis at a location proximate the target area such that the discharge outlet is capable of delivering the treating material to the target area and energize the gate to open the discharge outlet.

An autonomous ground maintenance system comprising a vehicle comprising a chassis supported upon a ground surface by ground support members, a container supported by the chassis, the container defining a discharge outlet operable to disperse treating material held within the container to a target area of the ground surface, a gate adapted to selectively open and close the discharge outlet, a sensor adapted to identify the target area, and an electronic controller supported by the chassis, the controller being in communication with the sensor and the gate. The controller is adapted to position the chassis at a location proximate the target area such that the discharge outlet is capable of delivering the treating material to the target area and energize the gate to open the discharge outlet.

A cultivation method based on an optimization of a plant nitrogen fertilizer disclosure amount includes: selecting plants to be planted in this batch, recording a number of the plants planted this time, and preparing different parts of nitrogen fertilizer for individual plants, each part of the nitrogen fertilizer being 10 g; and planting the same batch of plants every Monday with an interval of one week and fertilizing the planted plants in the second week after planting. According to the cultivation method based on the optimization of the plant nitrogen fertilizer disclosure amount, by adopting a mode of more tests and less planting, consumed plant seedlings are correspondingly reduced when a worker calculates an optimal fertilizer disclosure amount, thus effectively avoiding excessive waste, making a cost of a subsequent use cheaper, bringing a help to a whole experiment, and enabling people to use the method more conveniently.

A computer implemented method for generating digital models of relative crop yield based on nitrate values in the soil is provided. In an embodiment, nitrate measurements from soil during a particular portion of a crop's development and corresponding crop yields are received by an agricultural intelligence computing system. Based, at least in part, on the nitrate measurements and corresponding crop yields, the system determines maximum yields for each location of a plurality of locations. The system then converts each crop yield value into a relative crop yield by dividing the crop yield value by the maximum crop yield for the location. Using the relative crop yields and the corresponding nitrate values in the soil, the system generates a digital model of relative crop yield as a function of nitrate in the soil during the particular portion of the crop's development. When the system receives nitrate measurements from soil in a particular field during the particular portion of a crop's development, the system computes a relative yield value for the particular field using the model of relative crop yield.

A computer implemented method for generating digital models of relative crop yield based on nitrate values in the soil is provided. In an embodiment, nitrate measurements from soil during a particular portion of a crop's development and corresponding crop yields are received by an agricultural intelligence computing system. Based, at least in part, on the nitrate measurements and corresponding crop yields, the system determines maximum yields for each location of a plurality of locations. The system then converts each crop yield value into a relative crop yield by dividing the crop yield value by the maximum crop yield for the location. Using the relative crop yields and the corresponding nitrate values in the soil, the system generates a digital model of relative crop yield as a function of nitrate in the soil during the particular portion of the crop's development. When the system receives nitrate measurements from soil in a particular field during the particular portion of a crop's development, the system computes a relative yield value for the particular field using the model of relative crop yield.