An apparatus for applying a desired amount of mechanical abrasion to plants and selective cutting of undesirable plant material is provided. The apparatus includes a base, a brush and an elevation device for maintaining the base at desirable height. The base has a first longitudinal axis and a plurality of grooves, the grooves being oriented approximately perpendicular to the first longitudinal axis. The brush has a second longitudinal axis and a plurality of bristles and/or blades extending outwardly from the second longitudinal axis. The brush is attached to the apparatus such that the second longitudinal axis is substantially parallel to the first longitudinal axis and the brush is rotatable about the second longitudinal axis. The brush is spaced from the base such that the plurality of bristles engage the plurality of grooves. The base is adjustable enabling the operator to move the base closer or further from the rotating brush/blades.

An inbred corn line, designated XLH74, the plants and seeds of the inbred corn line XLH74, methods for producing a corn plant, either inbred or hybrid, produced by crossing the inbred corn line XLH74 with itself or with another corn plant, and hybrid corn seeds and plants produced by crossing the inbred line XLH74 with another corn line or plant and to methods for producing a corn plant containing in its genetic material one or more transgenes and to the transgenic corn plants produced by that method. This invention also relates to inbred corn lines derived from inbred corn line XLH74, to methods for producing other inbred corn lines derived from inbred corn line XLH74 and to the inbred corn lines derived by the use of those methods.

An apparatus and method for electromagnetic treatment of plants, animals, and humans comprising: configuring at least one waveform according to a mathematical model having at least one waveform parameter, said at least one waveform to be coupled to a target pathway structure; choosing a value of said at least one waveform parameter so that said at least waveform is configured to be detectable in said target pathway structure above background activity in said target pathway structure; generating an electromagnetic signal from said configured at least one waveform; and coupling said electromagnetic signal to said target pathway structure using a coupling device.

The present invention provides a novel method of manufacturing germinated plant seeds suitable for producing a large amount of phytoalexin, a method of manufacturing raw material seeds for germination induction for use in manufacture of the above germinated plant seeds, an extract composition of the germinated plant seeds and a screening method for a plant seed candidate for use in producing a target substance. The method of manufacturing raw material seeds for germination induction comprises a pre-treatment step of maintaining plant seeds under atmosphere conditions of a carbon dioxide concentration of 400 ppm or more and/or an oxygen concentration of 19 vol % or less continuously for 5 hours or more.

A dynamic detection device for the growth of a potted crop, includes a detection platform and a rotating shaft. A first cantilever frame is fixed at an upper portion of the rotating shaft; a laser ranging sensor is mounted at a tail end of the first cantilever frame; a second cantilever frame is fixed at a lower portion of the rotating shaft, and a pressure sensor is mounted at a tail end of the second cantilever frame. The detection platform has several bases; weight information crop is collected via a load sensor; stem diameter and plant height information crop is collected via the pressure sensor, a photoelectric encoder and the laser ranging sensor; and growth information crop is described through information fusion, which can improve the efficiency and continuously monitor dynamic change information about the growth of a target crop in a growth process.

Systems and methods for generation of images of a particular type from images of a different type are disclosed. In an embodiment, an agricultural intelligence computer system receives a first plurality of images of a first type and a second plurality of images of a second type. The first and second types may refer to variances in resolution, frequency ranges of frequency bands, and/or types of frequency bands used to generate the images. Based on the first plurality of images and the second plurality of images, the agricultural intelligence computer system generates a feature set dictionary comprising mappings from features of the first plurality of images to features of the second plurality of images. When the agricultural intelligence computer system receives a particular image of the first type, the agricultural intelligence computer system uses the received image and the feature set dictionary to generate an image of the second type.

The present invention relates to a collapsible support structure and its method of use. The support structure has a vertical support with a water inlet and tip with one or more holes. The vertical support in one arrangement is separable into a first and second portion that is connected by inserting the first portion into a receiving end of the second portion. Connection members connect horizontal supports to the vertical support. The horizontal supports extend perpendicularly outward from the vertical body due their friction fit connection, which allows for their unaided extension. The method of use includes attaching a water source to the water inlet to pressurize water within the vertical support that projects water from the tip. In turn, the vertical support is easily inserted into the ground, where it is left in place until the ground dries to the vertical support providing additional rigidity and support.

A method of cultivating aquatic product and plant contains steps of: (A) Preparing a cultivation tank with cultivation water; (B) Aerating the cultivation water; (C) Drawing overflow water in a top of the cultivation tank and foul water in a bottom of the cultivation tank into a protein separator and a first ultrafiltration unit; (D) Collecting bubbled fluid from the protein separator and concentrated waste fluid from the first ultrafiltration unit into a collection chamber; (E) Pumping the cultivation wastewater into a second ultrafiltration unit and filtering the cultivation wastewater by using ultrafiltration films of the second ultrafiltration unit; (F) Discharging cloudy high-protein concentration fluid into a first gathering bucket; (G) Pumping filtered fluid filtered by the plurality of ultrafiltration films of the second ultrafiltration unit into a Nano-filtration unit; and (H) Flowing the recyclable water into the cultivation tank from the recycle tank.

A modular hydroponic growth system is presented which supports a variety of plant growth with flexible conditions. The modularity is supported in part by quick-connect systems which allow liquids and air to be brought to and from subunits in an efficient manner. An advanced HVAC system allows for fresh air to be brought down one wall and stale air to be extracted from an opposing wall. The system allows for automation through the use of intelligent trolleys.

A self-watering system for a potted plant or potted flower is disclosed that includes an outer pot, comprising an inside surface, and outer surface, and a riser, platform or raised surface having a tailored height and coupled with the inside surface of the outer pot; a reservoir, wherein the reservoir is bounded by the inside surface of the outer pot and the riser, platform or raised surface; and a wick having a first end and a second end, wherein the first end is designed to be inserted into the bottom of an inner pot and the second end is designed to rest in the reservoir. A method of using a self-watering system is also disclosed. Wicking and hydration system for organic or conventionally grown plants and flowers has been developed and is described herein that is: a) adjustable to the particular plant or flower, b) reusable, and in some instances may be recyclable or biodegradable, thus reducing waste, c) relatively simple to use and clean.