The present invention relates to a system and method of cultivating Cordyceps, specifically, provided herein is a system of cultivating Cordyceps comprising: a Hepialus moth trapping device; a Hepialus moth eggs screening device, wherein the device is connected with the Hepialus moth trapping device; an ascospores-collecting device; a mycelia-preparing device; a conidia-preparing device; an infection device, wherein the device is connected with the ascospores-collecting device, the mycelia-preparing device and the conidia-preparing device; and a feeding device, wherein the device is connected with the Hepialus moth eggs screening device and the infection device. And also provided is a method of using the system to cultivate Cordyceps.

An agricultural yield pod or agricultural yield pad with holed root membrane overlay. The agricultural yield pod encloses soil and vegetation in the soil. The top of the agricultural yield pod is closed except for at least one water and nutrition port and at least one vegetation growth port (or neck). The trunk of the vegetation passes through the at least one vegetation growth port (or neck). The agricultural yield pad is closed by the holed root membrane overlay and contains soil and vegetation in the soil. The trunk of the vegetation passes through the holes in the holed root membrane overlay. Root direction channels 38 may be beneath the overlay.

A system for growing plants in an urban setting is provided. The system includes a container. The container is made of a watertight material. The container includes a base and a sidewall extending from the base forming a receptacle within. The present invention further includes a cell layer. The cell layer includes a horizontal base and a plurality of vertical extending cell walls forming a plurality of water cells therebetween. A porous layer covers the cell layer. The porous layer includes a plurality of pores permitting molecules the size of water and smaller to pass through. The cell layer covered with the porous layer are disposed within the receptacle. The cell layer is then covered with soil.

A method for processing raw coconut coir pith into fine particles and the use of such fine particles directly or in formulated form in agricultural, industrial and commercial applications.

An apparatus comprising means for collecting data measured from operation and/or a state of a forestry machine and/or describing an environment thereof, which date may consist of one or more parameters, means for processing the collected data, and means for influencing, on the basis of the processed data, one or more parameters controlling the operation of the forestry machine or for conveying feedback or an instruction or a prompt to a driver to change his or her control.

A system and method of tracking the position and status of plants or plant parts in a greenhouse or other growing area using identification tags such as RFID tags is disclosed.

A method of producing thymoquinone and/or thymohydroquinone in Monarda by growing Monarda with elevated levels of carvacrol and/or thymol in the fresh plant tissue and vigorous growth, harvesting the Monarda, leaving the Monarda to senensce in the presence of oxygen and extracting the thymoquinone and/or thymohydroquinone from the senesced tissue.

The invention relates to the field of watermelon grafting. In particular, double grafted watermelon seedlings and plants are provided and methods for producing such double grafted seedlings and plants.

The invention relates to a device for treating soil with electromagnetic radiation, comprising: a magnetron antenna (9) for generating microwave radiation with a relatively high frequency; a wave guide (16) connected to the output of the magnetron antenna (9); downward directed tubular members (18, 19) connected to the wave guide (16); a manifold (17) arranged between the two tubular members (18, 19) and the wave guide (16); a tuner unit (26) arranged on the wave guide (16); and cooling means (22, 22′, 22″) for cooling the electromagnetic radiation reflected by the soil. The invention also relates to a cable (24) provided with a single high-voltage cable and one or more low-voltage cables and/or a number of optical cables which are arranged in a shared cable. The invention finally relates to a method for disinfecting soil, wherein a magnetron (9) placed on a vehicle is moved over the soil, wherein the radiation reflected by the soil is minimized by tuning the wave guide (16) connected to the magnetron (9), and wherein the minimized reflected radiation is absorbed by a water load which is connected to one or two water tanks (22′, 22″) which are placed on the vehicle and which hold the temperature of the water within predetermined limits.

It is new in the art to mechanically expose Phragmites to continual rain water internal intrusion and retention. Man-made water reservoirs made from the Phragmites living stalk is a new mechanical removal method. Rapid destruction in one season of entire clones occurs with simply one or two cuttings and is effective in any season. Maintaining minimum ⅓ of stalk height leaves the ground shaded and water-logged continually inhibiting seedling growth and causing Phragmites destruction without soil disturbance. Phragmites coding does not have a repair system to overcome mid-section stalk cutting collecting water. It fails to send out new rhizomes as it sends new suckers from the top ligule instead. A second sucker is easily removed below the ligule and the stalk fails to support it's life and dies. Increased insect and fungal activity from the man-made water-logging Phragmites stalk reservoir further reduces Phragmites function and suppresses seedling growth.