A quilted composite sheet containing seeds makes growing microgreens and other crops simple. Each sheet is a layered composite of multiple materials including seed, grow substrate and seed cover. A user can spread a seed quilt over the surface to be planted, water, wait, and harvest.

A quilted composite sheet containing seeds makes growing microgreens and other crops simple. Each sheet is a layered composite of multiple materials including seed, grow substrate and seed cover. A user can spread a seed quilt over the surface to be planted, water, wait, and harvest.

The present invention concerns a Portland cement-free porous rigid mineral substrate made of alkali-activated pozzolans, a method for preparing the same, and use of said substrate to optimize plant germination and growth.

The present invention concerns a Portland cement-free porous rigid mineral substrate made of alkali-activated pozzolans, a method for preparing the same, and use of said substrate to optimize plant germination and growth.

The disclosure provides a method of screening tobacco germplasm for resistance to Alternaria alternata by ripening seedling leaves. The method includes ripening seedling leaves, spray inoculation, disease induction, and evaluation of disease resistance. Dense planting, fertilizer control, and potassium increment were used to forcibly ripening seedling leaves. A hospitable environment was simulated to induce disease in the ripened leaves. These treatments reduce differences in leaf maturity and avoid environmental changes. The technique of the disclosure provides greater accuracy and repeatability than the current technique of screening brown spot resistance, and offers the advantages of simple operation, reduced cost, space requirement, and labor intensity, high selection efficiency, and an accurate screening of tobacco phenotypes with resistance to brown spot, etc., used for large-scale screening of tobacco varieties with resistance to brown spot.

The disclosure provides a method of screening tobacco germplasm for resistance to Alternaria alternata by ripening seedling leaves. The method includes ripening seedling leaves, spray inoculation, disease induction, and evaluation of disease resistance. Dense planting, fertilizer control, and potassium increment were used to forcibly ripening seedling leaves. A hospitable environment was simulated to induce disease in the ripened leaves. These treatments reduce differences in leaf maturity and avoid environmental changes. The technique of the disclosure provides greater accuracy and repeatability than the current technique of screening brown spot resistance, and offers the advantages of simple operation, reduced cost, space requirement, and labor intensity, high selection efficiency, and an accurate screening of tobacco phenotypes with resistance to brown spot, etc., used for large-scale screening of tobacco varieties with resistance to brown spot.

To provide a vegetation sheet which requires no soil as a base of cultivation of Sunagoke grown seedlings and enables the cultivation of Sunagoke grown seedlings in a stable state even in a severe environment such as on a steep slope or in a strong wind. A vegetation sheet 1-1 comprises a surface layer 10 in which Sunagoke grown seedlings 30 are laid and a core layer 20 which allows rhizoids 30a of the Sunagoke grown seedlings 30 extending with growth to enter downward therein. The core layer 20 has a rough netlike structure which has spaces having an aperture size equal to or larger than the thickness of each rhizoid 30a so as to allow the rhizoids 30a to enter therethrough.

To provide a vegetation sheet which requires no soil as a base of cultivation of Sunagoke grown seedlings and enables the cultivation of Sunagoke grown seedlings in a stable state even in a severe environment such as on a steep slope or in a strong wind. A vegetation sheet 1-1 comprises a surface layer 10 in which Sunagoke grown seedlings 30 are laid and a core layer 20 which allows rhizoids 30a of the Sunagoke grown seedlings 30 extending with growth to enter downward therein. The core layer 20 has a rough netlike structure which has spaces having an aperture size equal to or larger than the thickness of each rhizoid 30a so as to allow the rhizoids 30a to enter therethrough.

In one embodiment, the present invention provides a degradable seed pod arranged to be delivered from a vehicle to a ground surface, the pod comprising a seed encased in a hardened material, the hardened material being composed and manufactured in a manner that shields the seed from damage when the pod experiences an impact force.

In one embodiment, the present invention provides a degradable seed pod arranged to be delivered from a vehicle to a ground surface, the pod comprising a seed encased in a hardened material, the hardened material being composed and manufactured in a manner that shields the seed from damage when the pod experiences an impact force.