Interactions of culture vessels, media volume, culture density, and carbon dioxide levels on lettuce and spearmint shoot growth in vitro

Abstract

 The influence of culture chamber capacity, medium volume and culture density on the growth yields of lettuce (Lactuca sativa L.) and spearmint (Mentha spicata L.) shoots were determined in an environment containing either 350 or 10,000 μmol mol^–1 CO₂ after 8 weeks of incubation. High positive correlations occurred between the culture vessel capacity and spearmint fresh weight, leaf number, root number, and shoot number. Similarly, high positive correlations occurred between culture vessel capacity and lettuce fresh weight, leaf number, and root number. Higher fresh weights, leaf numbers, and root numbers were obtained from lettuce and spearmint shoots when cultured in 1-quart Mason jars containing 100- or 150-ml aliquots of medium compared to jars containing 25- or 50-ml aliquots of medium within an environment containing either 350 or 10,000 μmol mol^–1 CO₂. High culture density decreased growth yields, and this phenomenon could only be slightly off-set by the employment of an elevated CO₂ environment or larger culture vessels.