An antiseptic composition for use as a topical skin sanitizer or as a surface disinfectant includes Populus tremuloides Bark Extract and/or Ribes Nigum Fruit Extract in an amount of from about 0.1 to about 50 weight percent effective as a broad spectrum antiseptic and antimicrobial agent. The composition includes an aqueous medium and/or one or more oils. The amount of the aqueous medium is from 45 to about 95 weight percent. The amount of oils is from 0.03 to about 50 weight percent. The composition may also include up to about 1 weight percent of one or more soothing agents; up to about 5 weight percent of one or more thickeners; and up to about 38 weight percent of one or more emulsifiers. The composition does not contain alcohols, chlorinated compounds, iodine, or phenols.

The present invention is a plant growth promoter containing one or more seed shell components of plant selected from Palmae Elaeis, Leguminosae Faboideae, Juglandaceae, Rosaceae Prunus, and Oleeae.

The present invention is a plant growth promoter containing one or more seed shell components of plant selected from Palmae Elaeis, Leguminosae Faboideae, Juglandaceae, Rosaceae Prunus, and Oleeae.

Use of an adaptogen for the treatment and/or control and/or prevention of a disease or infestation of a plant by application of said adaptogen to the plant, wherein: (i) the adaptogen is Blad or a variant thereof and the location of the disease or infestation is in a region of the plant which is different to the region where the adaptogen is applied; or (ii) the adaptogen is skopobiota which is used to inoculate said plant or part thereof;
and preferably said adaptogen is in the form of a composition.

Use of an adaptogen for the treatment and/or control and/or prevention of a disease or infestation of a plant by application of said adaptogen to the plant, wherein: (i) the adaptogen is Blad or a variant thereof and the location of the disease or infestation is in a region of the plant which is different to the region where the adaptogen is applied; or (ii) the adaptogen is skopobiota which is used to inoculate said plant or part thereof;
and preferably said adaptogen is in the form of a composition.

A, a method of coating a facial mask is disclosed: providing a container; adding chlorophyll in a range of 1000 mg to 5000 mg into the container; providing organic glycerin to the chlorophyll to form a first mixture; providing salt to the first mixture to form a second mixture; providing a plurality of natural stabilizers to the second mixture to form a third mixture with a certain viscosity based on a facial mask; providing drying agents to the third mixture to form a fourth mixture; providing water to the fourth mixture to form a fifth mixture; providing sodium copper to the fifth mixture to form a sixth mixture; providing isotonic water to the sixth mixture to form a seventh mixture; providing alfalfa to the seventh mixture to form an eighth mixture; providing kosher vegetable glycerin to the eighth mixture to form a ninth mixture; providing the facial mask to be soaked in the ninth mixture for a plurality of hours; drying the facial mask for at least an hour to form a coating on the facial mask; placing the coated facial mask over a face a person wherein the person breathes in Oxygen; and activating the chlorophyll and the organic glycerin when the person breathes out CO2 through the facial mask to prevent a virus from infecting the person.

A, a method of coating a facial mask is disclosed: providing a container; adding chlorophyll in a range of 1000 mg to 5000 mg into the container; providing organic glycerin to the chlorophyll to form a first mixture; providing salt to the first mixture to form a second mixture; providing a plurality of natural stabilizers to the second mixture to form a third mixture with a certain viscosity based on a facial mask; providing drying agents to the third mixture to form a fourth mixture; providing water to the fourth mixture to form a fifth mixture; providing sodium copper to the fifth mixture to form a sixth mixture; providing isotonic water to the sixth mixture to form a seventh mixture; providing alfalfa to the seventh mixture to form an eighth mixture; providing kosher vegetable glycerin to the eighth mixture to form a ninth mixture; providing the facial mask to be soaked in the ninth mixture for a plurality of hours; drying the facial mask for at least an hour to form a coating on the facial mask; placing the coated facial mask over a face a person wherein the person breathes in Oxygen; and activating the chlorophyll and the organic glycerin when the person breathes out CO2 through the facial mask to prevent a virus from infecting the person.

A method for oxygen regenerating of a facial mask is disclosed: providing sterile containers; providing organic chlorophyll and vegetable glycerin to form a first mixture in the container; providing iodized salt to the first mixture to form a second mixture; providing isotonic water to the second mixture to form a third mixture; providing Alfalfa to the third mixture to form a fourth mixture; providing non-iodized kosher salt to the fourth mixture to form a fifth mixture; and providing double distilled water to the fifth mixture to form a sixth mixture.

A method for oxygen regenerating of a facial mask is disclosed: providing sterile containers; providing organic chlorophyll and vegetable glycerin to form a first mixture in the container; providing iodized salt to the first mixture to form a second mixture; providing isotonic water to the second mixture to form a third mixture; providing Alfalfa to the third mixture to form a fourth mixture; providing non-iodized kosher salt to the fourth mixture to form a fifth mixture; and providing double distilled water to the fifth mixture to form a sixth mixture.

Disclosed herein are compostions and methods for improving or enhancing pathogen resistance in legume plants. Compositions comprising polypeptides encoded by legume-derived nucleotide-binding site-leucine-rich repeat (NB-LRR) genes are useful in improving resistance in legumes to Asian soybean rust. Methods of using NB-LRR genes can be used to make a transgenic resistant legume plant.