Cold tolerance in tomato. II. Early seedling growth of Lycopersicon spp.

Hypocotyl and root growth elongation of etiolated seedlings was measured non-destructively for the wild tomato accessions LA 460 ( Lycopersicon chilense Dun.), PI 126435, PI 127831 and PI 127832 ( L. peruvianum Mill.) and controls PI 120256 and T3 ( L. esculentum Mill.) on slant boards at 10, 15 and 20°C. Both hypocotyl and root elongation over time were fitted by a logistic growth function with three parameters estimated for each seedling by non-linear least squares regression. Analysis of variance of these equation parameters indicated linear decreases of both hypocotyl and root growth rate parameters with temperature. All four wild accessions maintained greater hypocotyl growth rate parameters at 10°C than the fast-germinating cultivated accession PI 120256, but not significantly greater than T3. Hypocotyl growth rates of the wild accessions were less inhibited at 10°C relative to 20°C than were either cultivated accession. These results suggest that these wild accessions have greater chilling tolerance than cultivated controls for early seedling growth, and may have potential use for genetically improving emergence times for tomatoes sown in cold soil.