Location History:
- Phoenix, AZ (US) (1992)
- Tucson, AZ (US) (1992)
Company Filing History:
Years Active: 1992
Title: Innovations in Cotton Hybridization by James M. Olvey
Introduction
James M. Olvey is a notable inventor based in Phoenix, AZ, who has made significant contributions to the field of agricultural biotechnology. He holds a total of 3 patents that focus on innovative methods for hybridizing cotton plants. His work aims to enhance cotton production through advanced genetic techniques.
Latest Patents
One of Olvey's latest patents is a method of hybridizing cotton, which involves rendering cotton plants male sterile while maintaining substantial female fertility. This is achieved by treating the plants with a gametocidally effective amount of a novel compound. The compound's formula includes specific elements that facilitate the formation of sterile plant flowers, which can then be pollinated by a second variety of cotton plant to produce hybrid cotton seeds.
Another significant patent is the process for the hybridization of cotton, which discloses methods for achieving male sterility through the application of isothiazole plant growth regulators. This process ensures that female sterility or loss of reproductive vigor is minimized. The hybridization is further enhanced by monitoring the degree of burning of cotton bracts, allowing for precise control over the hybridization process.
Career Highlights
James M. Olvey is associated with University Patents, Inc., where he continues to develop and refine his innovative techniques in cotton hybridization. His work has the potential to revolutionize cotton farming by improving yield and resilience against environmental challenges.
Collaborations
Olvey collaborates with Harold L. Lindaberry, leveraging their combined expertise to advance research in agricultural innovations.
Conclusion
James M. Olvey's contributions to cotton hybridization through his patented methods demonstrate his commitment to enhancing agricultural practices. His innovative approaches are paving the way for more efficient cotton production, which is crucial for meeting global textile demands.