Several studies have documented variation in potato germplasm for heat tolerance of leaf tissue. Most researchers have relied on screening for heat stress by exposing excised leaf tissue (grown under non-stress condition) to a short-term (minutes-hours) of acute heat stress (37-55C). It is well known that plants vary in their ability to acclimate to heat stress know as priming. This priming can enable plant to survive subsequent temperatures that are lethal to plants grown under non-stress condition. Our recent studies show that potato plants under prolonged heat stress (35/25C, day/night, for 3-5 weeks) newly developed leaves (acclimated) can maintain health under heat stress by modifying anatomy and physiology. These results show that potato plants have the ability to acclimate to heat stress that results in increased heat tolerance. In the present study, we screened to potato germplasm for heat tolerance of leaf tissue before and after heat acclimation. Ion leakage after exposure of excised leaf tissue to 50C, was used as a screening assay and a reduction in this leakage was used to assess the heat acclimation ability. Wide variety of potato germplasm including commercial cultivars and accessions of various wild species were screened. Our result show significant genotypic variations in acclimated and non-acclimated heat tolerance. Furthermore, the heat acclimation ability appears to be independent of non- acclimated heat tolerance. For example, certain clones of the species Solanum commersonnii had similar non-acclimated heat tolerance but large variation in acclimated tolerance was found among various clones of this species. Similar results were obtained for different clones of Solanum microdontum and Solanum kurtzianum. As expected, the cultivars Zarewo, DTO and Papa Cacho were found to have higher non-acclimated heat tolerance than the others, but Papa Cacho had the highest heat acclimation ability. Our results suggest that non-acclimated heat tolerance and acclimated heat tolerance are under separate genetic control and that selection for both non-acclimated and acclimated heat tolerance may be useful for successful breeding for heat tolerance of potato leaf tissue.
