The present disclosure provides compositions and methods to promote improved delivery of volatile compounds to produce. As a result, the present disclosure provides more efficient and uniform delivery of volatile compounds and more effective control of spoilage organisms located on or near the stored produce.

The present disclosure provides compositions and methods to promote improved delivery of volatile compounds to produce. As a result, the present disclosure provides more efficient and uniform delivery of volatile compounds and more effective control of spoilage organisms located on or near the stored produce.

The present disclosure relates to methods for using benzoxaborole compounds in combination with preservative gases, such as carbon dioxide or sulfur dioxide, as an antimicrobial that synergistically controls pathogens of agricultural crops.

The present disclosure relates to methods for using benzoxaborole compounds in combination with preservative gases, such as carbon dioxide or sulfur dioxide, as an antimicrobial that synergistically controls pathogens of agricultural crops.

The present disclosure relates to methods for using benzoxaborole compounds in combination with preservative gases, such as carbon dioxide or sulfur dioxide, as an antimicrobial that synergistically controls pathogens of agricultural crops.

The present disclosure relates to methods for using benzoxaborole compounds in combination with preservative gases, such as carbon dioxide or sulfur dioxide, as an antimicrobial that synergistically controls pathogens of agricultural crops.

The present disclosure relates to methods for using benzoxaborole compounds in combination with preservative gases, such as carbon dioxide or sulfur dioxide, as an antimicrobial that synergistically controls pathogens of agricultural crops.

The present disclosure relates to methods for using benzoxaborole compounds in combination with preservative gases, such as carbon dioxide or sulfur dioxide, as an antimicrobial that synergistically controls pathogens of agricultural crops.

Termicidal compositions to control insects consisting of cold pressed orange oil with a high concentration D-Limonene of at least 80% and consisting of an acrylic lacquer, for protective repellents against termite infestation, are provided. The preferred termicidal compositions to control insects consist of cold pressed orange oil with a high concentration D-Limonene of at least 80%, an acrylic lacquer, boric acid, and water.

Termicidal compositions to control insects consisting of cold pressed orange oil with a high concentration D-Limonene of at least 80% and consisting of an acrylic lacquer, for protective repellents against termite infestation, are provided. The preferred termicidal compositions to control insects consist of cold pressed orange oil with a high concentration D-Limonene of at least 80%, an acrylic lacquer, boric acid, and water.