Abstract: The invention provides compositions and methods for inhibiting nematode damage to plants. The compositions comprise acid extracts or alcohol extracts from juglone-producing members of the Juglandaceae. The methods comprise applying the compositions of the invention to soil contacting roots of nematode-susceptible plants.

Abstract: The invention provides compositions and methods for inhibiting nematode damage to plants. The compositions comprise acid extracts or alcohol extracts from juglone-producing members of the Juglandaceae. The methods comprise applying the compositions of the invention to soil contacting roots of nematode-susceptible plants.

Abstract: The invention provides compositions and methods for inhibiting nematode damage to plants. The compositions comprise acid extracts or alcohol extracts from jugloneproducing members of the Juglandaceae. The methods comprise applying the compositions of the invention to soil contacting roots of nematode-susceptible plants.

Abstract: This invention provides novel methods for improving plant quality and yield in the presence of pathogens. The method increases the levels of pathogenesis-related proteins, such as PR1, phenylalanine ammonia lyase, or plant cell wall proteins such as hydroxyproline-rich glycoproteins, in a plant by contacting the plant with a plant systemic inducer and a reactive oxygen species wherein the amount of the reactive oxygen species is sufficient to increase the amount of the pathogenesis-related protein above the level induced by the plant systemic inducer in the absence of the reactive oxygen species. A preferred reactive oxygen species is peracetic acid; a preferred plant systemic inducer is salicylic acid.

Abstract: This invention provides novel methods for improving plant quality and yield in the presence of pathogens. The method increases the levels of pathogenesis-related proteins, such as PR1, phenylalanine ammonia lyase, or plant cell wall proteins such as hydroxyproline-rich glycoproteins, in a plant by contacting the plant with a plant systemic inducer and a reactive oxygen species wherein the amount of the reactive oxygen species is sufficient to increase the amount of the pathogenesis-related protein above the level induced by the plant systemic inducer in the absence of the reactive oxygen species. A preferred reactive oxygen species is peracetic acid; a preferred plant systemic inducer is salicylic acid.

Abstract: This invention provides novel methods for improving plant quality and yield in the presence of pathogens. The method increases the levels of pathogenesis-related proteins, such as PR1, phenylalanine ammonia lyase, or plant cell wall proteins such as hydroxyproline-rich glycoproteins, in a plant by contacting the plant with a plant systemic inducer and a reactive oxygen species wherein the amount of the reactive oxygen species is sufficient to increase the amount of the pathogenesis-related protein above the level induced by the plant systemic inducer in the absence of the reactive oxygen species. A preferred reactive oxygen species is peracetic acid; a preferred plant systemic inducer is salicylic acid.

Abstract: This invention provides novel methods for improving plant quality and yield in the presence of pathogens. The method increases the levels of pathogenesis-related proteins, such as PR1, phenylalanine ammonia lyase, or plant cell wall proteins such as hydroxyproline-rich glycoproteins, in a plant by contacting the plant with a plant systemic inducer and a reactive oxygen species wherein the amount of the reactive oxygen species is sufficient to increase the amount of the pathogenesis-related protein above the level induced by the plant systemic inducer in the absence of the reactive oxygen species. A preferred reactive oxygen species is peracetic acid; a preferred plant systemic inducer is salicylic acid.

Abstract: This invention provides for compositions and methods for sterilizing soil using oxygen radicals. The soil is treated with an aqueous solution of an activated oxygen species after pretreatment with a water soluble phenolic complex including a divalent cation having redox potential, a cation redox reducing agent. The combination of the activated oxygen species and water soluble phenolic complex is sufficient to reduce soil microorganisms by at least 40% without leaving an accumulative toxic residue.