Date of Graduation
5-2025
Document Type
Thesis
Degree Name
Bachelor of Science
Degree Level
Undergraduate
Department
Horticulture
Advisor/Mentor
Dr. Ryan Dickson
Committee Member
Dickson, Ryan
Second Committee Member
Bertucci, Matt
Third Committee Member
Rom, Curt
Abstract
Mean daily temperature effects on plant development rates and quality were evaluated for compact container-grown tomato (Solanum lycopersicum). Compact tomato varieties ‘Siam’ and ‘Red Velvet’ were grown in greenhouses at 18 to 26 °C (Experiment 1) and 20 to 30 °C (Experiment 2) under supplemental high-pressure sodium lighting and 16-hour photoperiod. The number of days to first open flower, first ripe fruit, and from flower to ripe fruit were measured and development rates calculated by taking the reciprocal (e.g. 1/days). Temperature effects were predicted by fitting a linear (for first open flower) and a nonlinear exponential function (for first ripe fruit and between first open flower and ripe fruit) which included base temperature (Tmin) and maximum developmental rate (Rmax) parameters. Plant quality attributes were measured in Experiment 2. As temperature increased, the time to flower and fruit decreased (i.e. developmental rates increased) for both varieties. Estimated Tmin was 8.7 °C for ‘Siam’ and 11.4 °C for ‘Red Velvet’ whereas Rmax was similar between varieties (0.030 at fruit, and 0.037 from flower to fruit). ‘Siam’ and ‘Red Velvet’ grown at ≈25 °C had a relatively short crop time, compact canopy, adequate fruit size, and a high number of fruits per plant at finish. Compact tomatoes are new crops being grown by greenhouse floriculture operations for ornamental and edible value, and the information from this study can help growers schedule these crops to meet critical market windows and determine the impacts of changing growing temperature on crop timing and quality.
Keywords
Floriculture; Edibles; Flowering; Fruiting; Lycopersicum; Scheduling
Citation
Humphrey, M. (2025). Quantifying Temperature Effects on Developmental Rate and Plant Quality of Compact Container-grown Tomato (Solanum lycopersicum). Horticulture Undergraduate Honors Theses Retrieved from https://scholarworks.uark.edu/hortuht/11
