Abstract
Commercial ornamental plant growers require consistent flowering to adequately fulfill the needs of the industry in the global markets. Combining traditional plant breeding practices with contemporary technology-based solutions, such as eco-friendly methods and AI-focused models, is the way forward for plant flowering and production optimization to attain quality and sustainability. This review discusses the various factors that can be harnessed to modulate plant flowering. These include the major genetic flowering control mechanisms in ornamental plants, such as the key flowering time genes like Flowering Locus T (FT) and CO (CONSTANS) that make up genetic circuits responding to various factors such as hormones (e.g. ABA, gibberellins), as well as key environmental signals like light/dark and temperature. In tandem, the application of plant hormones, like auxins and gibberellins, provides a hormonal approach to enhance flower formation and yield physiologically. Furthermore, innovative improvements such as genetic editing through tools like overexpression or CRISPR/Cas9 and smart systems with sensors that measure parameters and automate controls are now crucial to improving outcomes. However, challenges still exist, including genetic variability and resource limitations, highlighting the necessity for adaptive approaches to sustainable horticulture. Combining these traditional and modern approaches will improve flowering traits and realize the cultural value of ornamental crops in the changing world economy.