Data - Climate change impacts on Lactuca sativa.xlsx

Plant species are adapted to survive under specific ranges of temperature, water availability, and atmospheric CO₂ concentration. Climate change-induced shifts in these environmental conditions have the potential to significantly affect nearly all terrestrial plants. A number of studies have explored the impacts of changing one or two of the conditions listed above, but few have examined the combined effects of all three. To study the cumulative influences of the three environmental conditions, 350 Mānoa lettuce (<i>Lactuca sativa</i>) plants were grown in indoor growth chambers. Within the chambers, plants were grown under varying degrees of CO₂ concentration, water availability, and temperature for 21 days. At the end of this period, the leaf mass (biomass) of each plant was cut, dried, and weighed. Percent mortality and nitrogen content were also measured. Across all combinations of temperature and water availability, elevated CO₂ concentrations were associated with increased biomass production and survival rates. Survival and biomass decreased under high temperatures and both high and low water availability. The combination of environmental conditions that produced the largest amount of biomass was 750 ppm CO₂, 80% of soil water capacity, and 24 °C while the treatment that produced the least amount was ambient CO₂, 60% of soil water capacity, and 36 °C. Nitrogen content increased under high temperatures and water availability. These results suggest that although increased atmospheric CO₂ levels have the potential to promote lettuce growth, lettuce yield is still likely to decrease in many regions due to the negative effects of high temperatures, drought, and flooding.<br>