Abstract:
Potato is a cool season crop with an optimal growth temperature between 17 and 21ºC, and it also very sensitive to
drought stress. All climate scenarios indicate that the global climate is changing and will continue to change in the near
future. The main challenges from climate change to agriculture and food production are the more frequent and severe
drought and floods as well as adverse effects of high growth temperatures. The total global yield in the regions currently
cropped with potato was calculated to decline up to 32% without adaptation to climate change. The breeding of heat and
drought tolerant potato cultivars is one of the most feasible and practical approaches to cope with global warming.
However, breeders are generally focused on development of heat or drought tolerant potato cultivars instead of dual
tolerance to both stresses. Previous studies indicate that tolerance mechanism for heat and drought is different in potato.
Screening of many breeding lines against heat and drought stress under field conditions during early generations is not
feasible for many breeding programs due to high cost and labor requirements. Therefore, rapid and reliable screening
methods are needed to evaluate large populations in early generations. Biotechnological tools offer some advantages to
breeders for screening large populations especially against biological stress factors, but no sound achievements obtained
for abiotic stress factors in potato up to now. Currently our research group has several projects to develop novel
screening tools to identify heat and drought tolerant genotypes.
