The present invention relates to a method for modulating plant processes said method being characterized in that a plant is fed with an eco-friendly, plant- and/or algae-derived, biostimulant composition comprising exogenous small RNA molecules. In particular, the method of the invention can be used for modulating physiological or pathological plant processes, such plant growth, plant productivity, fruit quality, quality of produce, plant yield, plant response to abiotic stress and plant resistance to diseases or to infections.

In a solution cultivation method for a low potassium vegetable, an entire cultivation period from seeding to harvesting is divided into a first cultivation period and a second cultivation period depending on the vegetable to be cultivated. In the first cultivation period, the vegetable is cultivated in a first culture solution containing a first fertilizer for solution cultivation which contains potassium. In the second cultivation period, the vegetable is cultivated in a second culture solution containing a second fertilizer for solution cultivation which does not substantially contain potassium. During the second cultivation period, an air flow is applied at a controlled speed to the growing point of the vegetable.

In a solution cultivation method for a low potassium vegetable, an entire cultivation period from seeding to harvesting is divided into a first cultivation period and a second cultivation period depending on the vegetable to be cultivated. In the first cultivation period, the vegetable is cultivated in a first culture solution containing a first fertilizer for solution cultivation which contains potassium. In the second cultivation period, the vegetable is cultivated in a second culture solution containing a second fertilizer for solution cultivation which does not substantially contain potassium. During the second cultivation period, an air flow is applied at a controlled speed to the growing point of the vegetable.

Container for aquatic plants, which can be filled with water, the side walls and bottom of which comprise an outer wall and a bottom wall, respectively, in each instance, followed, toward the interior of the container, by an intermediate layer that consists of an insulating material. On the inside of the container, the insulating material is completely covered with a water-tight plastic film, in the manner of a tub, or by a water-tight basin composed of transparent glass. On the bottom of the tub or of the basin and/or in a plant pot situated in the container, there is a plant culture medium that makes growth of aquatic plants possible, and preferably winter-hardy and/or non-winter-hardy aquatic plants are disposed in the container, which is filled with water.

An open plant cultivation device has a container, a medium layer, a plant, and a separation layer. The container has an inner side surface, a sterile accommodation space, and an open growing space. The medium layer is disposed in the sterile accommodation space. The separation layer is disposed on the medium layer and adjacent to the inner side surface. The sterile accommodation space and the open growing space are isolated by the separation layer. A method for preparing an open plant cultivation device includes: putting a container in a sterile space; feeding a medium colloid into the container and immersing a part of a plant in the medium colloid; solidifying the medium into a medium layer; disposing a separation layer onto the medium layer to form the open plant cultivation device. The present invention has the open growing space and the effect of protecting the medium layer from contamination.

Process for making a foam suitable as plant growth medium by reacting a polyisocyanate, a polyether polyol mixture and water at an isocyanate index of 90-150 wherein the polyol mixture used comprises at least 2 polyols and wherein the polyol mixture comprises less than 50% by weight oxyethylene calculated on the weight of the polyol mixture.

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 growing medium for use in plugging pest orifices includes a bulking agent and a water-retentive polymer blended together and compressed at a volume-to-volume ratio greater than 3:1, wherein the growing medium is at least 50% superabsorbing polymer.

An aquaponic system, having at least one farming section; each farming section has an aquaculture unit, a vegetable farming unit and a water circulation unit; the aquaculture unit has an outer tank and an aquaculture tank inside the outer tank; the vegetable farming unit has a vegetable farming column and a water collection tank at a bottom part thereof; the water circulation unit has a filter tank, a water pump, and at least one guiding pipe extending from the aquaculture tank to the vegetable farming column; a water inlet of the filter tank is connected with a water outlet of the aquaculture tank; a water outlet of the filter tank is connected with a water inlet of the aquaculture tank; one end of the water pump is connected with the water collection tank, another end of the water pump is connected with the aquaculture tank.

Ancillary embodiments and modifications to a homogenizer unit (“PPH”), and methods of use directed to purification of biogas or other raw methane streams. The apparatus includes a homogenizer body, one or more stream inlets (for the raw methane), one or more chilled water inlets, a mixing zone where the water stream is commingled with the raw methane stream, and a venturi immediately downstream from the mixing zone such that the commingled streams are pulled into the venturi resulting in homogenization. The PPH components are insulated to maintain the chilled water of the various streams at a cooled, below ambient temperature, increasing dissolution of the contaminant gases into the chilled water, and producing a purified methane stream including little or no H.sub.2S and CO.sub.2.