The Effects of Heat Wave Temperature Patterns on Arabidopsis Thaliana

Arabidopsis thaliana ecotype Col-0, a model organism in plant physiology, was studied in conjunction with heat wave temperature patterns, here defined as a multi-day pattern of oscillating high maximum daily temperatures and normal temperatures. The study was run with an experimental design, involving the construction of two plant growth chambers, of which one was set to maintain a constant temperature around 23º Celsius. The other was set to vary in maximum temperature according to a heat wave definition based upon climate data from Columbia, Missouri, the native region of the studied ecotype of A. thaliana. Seeds were placed on fertilized soil and watered daily throughout the process of their growth, and they were moved into the growth chambers after sprouting under sunlight. Data was collected regarding each plant's developmental stage throughout plant growth, and biomass data was collected at the end of each individual's growth. Overall, an effect on the plants was found when the control and experimental groups were compared. The experimental group showed increased plant mortality and slowed plant development. This study has implications for the field of environmental science, climate research, and biology in that it may impact both the study of plant growth and planting seasons in agriculture. These results suggest potential for future studies into the genetic differences between plants that thrive under each set of conditions. These results are in agreement with other evidence of the negative effects of climate change on ecosystems.