The present invention provides media, kits, systems, and methods for achieving large scale pistachio production within a short time via bioculture, large scale yam production within a short time via bioculture, high multiplication rate of plants including cannabis via in vitro micropropagation, high induction rates of somatic embryos from later buds in bamboo, reduced production of phenolic compounds in plants, high production of virus-free plants, including potato, and large scale hemp production via culturing. The present invention for pistachio and yam production results in shorter tuber development phase and higher yield. In some embodiments, the present invention provides compositions, methods, and systems for the micropropagation and mass production of perennials, grasses, bamboos, cannabis and phyto-pharmaceutical plants as well as hemp plants. In some embodiments, the present invention provides compositions, methods, and systems for reducing the production of a phenolic by a plant, such as bamboo.

Compositions and process for removing mildew, mold and fungal growth from various surfaces, e.g., metal comprising powder and/or granule chemicals, consisting essentially of a combination of inorganic and organic active ingredients, including corrosion inhibitors, surfactants, activators, buffer reagents with or without water.

Compositions and process for removing mildew, mold and fungal growth from various surfaces, e.g., metal comprising powder and/or granule chemicals, consisting essentially of a combination of inorganic and organic active ingredients, including corrosion inhibitors, surfactants, activators, buffer reagents with or without water.

Compositions and process for removing mildew, mold and fungal growth from various surfaces, e.g., metal comprising powder and/or granule chemicals, consisting essentially of a combination of inorganic and organic active ingredients, including corrosion inhibitors, surfactants, activators, buffer reagents with or without water.

A stable aqueous composition of sodium chlorite and a hydrated borate donor having a pH of greater than 9.0 and the weight percent ratio of sodium chlorite (reported as NaClO.sub.2) to hydrated borate donor (reported as the sum of H.sub.2O+B.sub.2O.sub.3) is less than 1.5:1 respectfully. A method of remediating an aqueous system using the stable aqueous composition.

A stable aqueous composition of sodium chlorite and a hydrated borate donor having a pH of greater than 9.0 and the weight percent ratio of sodium chlorite (reported as NaClO.sub.2) to hydrated borate donor (reported as the sum of H.sub.2O+B.sub.2O.sub.3) is less than 1.5:1 respectfully. A method of remediating an aqueous system using the stable aqueous composition.

This invention relates to disinfectant compositions comprising a first active ingredient comprising a source of acetyl radicals, and a second active ingredient comprising a source of peroxygen, the composition being soluble in water to provide a solution of peracetic acid.

This invention relates to disinfectant compositions comprising a first active ingredient comprising a source of acetyl radicals, and a second active ingredient comprising a source of peroxygen, the composition being soluble in water to provide a solution of peracetic acid.

This invention relates to disinfectant compositions comprising a first active ingredient comprising a source of acetyl radicals, and a second active ingredient comprising a source of peroxygen, the composition being soluble in water to provide a solution of peracetic acid.

A selenium-rich enhancer for plant cultivation and preparation and application thereof. The selenium-rich enhancer contains: an organic selenocyano-compound. The organic selenocyano-compound is selected from one or a combination of the compounds of the structure of Formula I or Formula II, Formula I: RSeCN, wherein, R is alkyl or aromatic groups; and Formula II: (RSeCN).sub.nA, wherein, R is alkyl or aromatic groups, n is an integer of 1-5, and A is a cation. The selenium-rich enhancer is employed to cultivate plants by utilizing the organic selenocyano-compound, and the survival rates, yields and organic selenium contents of plants are all improved. When pepper is planted by using that, the selenium content can reach more than 180 g/kg.