A planting method for morels is disclosed, including the following steps of: (1) preparing spawn; (2) flipping the spawn; (3) managing the humidity; and (4) fruiting for harvesting. The planting method is simple, is easy to learn and promote, has a high yield, and requires few spawn, thereby reducing planting costs and product costs.

A planting method for morels is disclosed, including the following steps of: (1) preparing spawn; (2) flipping the spawn; (3) managing the humidity; and (4) fruiting for harvesting. The planting method is simple, is easy to learn and promote, has a high yield, and requires few spawn, thereby reducing planting costs and product costs.

The present disclosure relates to a technology for providing high-quality treatment recipes that are optimized to the cultivation environment and to the disease or pest problem that has occurred. A platform server and method for providing disease and pest treatment recipes according to an embodiment of the present disclosure includes: an information collector configured to receive the image of a crop and information on the cultivation environment; an image analyzer configured to identify the disease or pest problem based on the image of the crop; and a recipe recommender configured to search a multiple number of treatment recipes from a recipe database based on the identified disease or pest problem and the information on the cultivation environment and provide the searched treatment recipes together with suitability ratings to a user.

A steam sprayer for delivering steam onto and beneath a field surface is provided. The steam sprayer comprises a support frame having a plurality of steam spraying nozzles mounted thereto and oriented substantially downwardly for spraying steam onto and beneath the field surface. At least a steam generator is connected to the steam spraying nozzles for providing steam thereto. A water heating tank is connected to each of the at least a steam generator for providing heated water at a substantially constant pressure thereto, Compressed air is provided to the water heating tank for pressurizing the water heating tank. Power is provided to the water heating tank and each of the at least a steam generator.

A manually controlled and operable self-propelled seed bed sterilization system and method is provided for preventing undesirable weeds from growth in the seed bed. The system includes a wheel driven shuttle vehicle having a hot water reservoir, a hot water applicator manifold housing, a dual-function pump and a controllable valve. A self-contained mobile hot water supply vehicle is further provided for use in combination with the shuttle vehicle and has a water heater with inlet and outlet hose connections to permit water flow from the reservoir of the shuttle vehicle to the water heater and back to the reservoir in a continuous flow path. The burner of the water heater is controlled to heat the water to a high temperature in the range of about 205-207 degrees F. but below the boiling point of water not to create steam. The shuttle vehicle is self-contained and is displaced over the seed bed at a constant drive speed by an electric motor driven by a gas generator. One operator guides the shuttle vehicle over the seed bed and displaces the vehicle when required to be positioned over other seed beds by the use of handle bars.

A manually controlled and operable self-propelled seed bed sterilization system and method is provided for preventing undesirable weeds from growth in the seed bed. The system includes a wheel driven shuttle vehicle having a hot water reservoir, a hot water applicator manifold housing, a dual-function pump and a controllable valve. A self-contained mobile hot water supply vehicle is further provided for use in combination with the shuttle vehicle and has a water heater with inlet and outlet hose connections to permit water flow from the reservoir of the shuttle vehicle to the water heater and back to the reservoir in a continuous flow path. The burner of the water heater is controlled to heat the water to a high temperature in the range of about 205-207 degrees F. but below the boiling point of water not to create steam. The shuttle vehicle is self-contained and is displaced over the seed bed at a constant drive speed by an electric motor driven by a gas generator. One operator guides the shuttle vehicle over the seed bed and displaces the vehicle when required to be positioned over other seed beds by the use of handle bars.

The present invention provides systems and methods for treating agricultural particulates, such as seeds, beans, granular and powder agricultural products, and the like, with a treatment agent, such as steam, as the agricultural products move forward along a pathway created by an auger, in a chamber, enclosed by an aligned celling and floor, and oppositely disposed lateral walls.

A planting method for morels is disclosed, including the following steps of: (1) preparing spawns; (2) flipping the spawns; (3) managing the humidity; and (4) fruiting for harvesting. The planting method is simple, is easy to learn and promote, has a high yield, and requires few spawns, thereby reducing planting costs and product costs.

Methods of propagating Arbuscular Mycorrhizal Fungi (AMF) are described that do not require the addition of, or presence of, any detectable live host plant material or live plant root material. The method comprises addition of water and optionally exposure to sunlight. It was surprisingly found that soil devoid of any detectable live host plant material, including host plant roots, is capable of supporting AMF reproduction, though it is widely believed that AMF are obligate symbionts requiring live plant roots for colonization to reproduce. Described methods optionally include active removal of living host plant material from the soil prior to AMF inoculation. Optionally, phosphorous compounds are added to the soil prior to inoculation. It was found that addition of phosphorous compounds, such as phosphite, to the soil enhances the growth of AMF spores by as much as three-fold over controls having no added phosphorous compounds.

Methods of propagating Arbuscular Mycorrhizal Fungi (AMF) are described that do not require the addition of, or presence of, any detectable live host plant material or live plant root material. The method comprises addition of water and optionally exposure to sunlight. It was surprisingly found that soil devoid of any detectable live host plant material, including host plant roots, is capable of supporting AMF reproduction, though it is widely believed that AMF are obligate symbionts requiring live plant roots for colonization to reproduce. Described methods optionally include active removal of living host plant material from the soil prior to AMF inoculation. Optionally, phosphorous compounds are added to the soil prior to inoculation. It was found that addition of phosphorous compounds, such as phosphite, to the soil enhances the growth of AMF spores by as much as three-fold over controls having no added phosphorous compounds.