Add to ORKGPotato plants (Solanum tuberosum L., cv. Sebago) responded similarly to high temperatures and low irradiance by diverting dry matter to the shoots rather than the tubers, and changes were noted in a range of morphological characteristics. It is proposed that the effect of both high temperature and low irradiance is brought about by the increased production of a growth substance, possibly gibberellin, which inhibits tuber formation, and that tuber yield is determined by the balance between temperature and irradiance
Potato (Solanum tuberosum L.) plants are highly vulnerable to heat stress. Even moderately elevated ...
Climate warming is subjecting plants to heat stress, which can affect their physiological processes ...
Although significant work has been undertaken regarding the response of model and crop plants to hea...
The responses of potato plants (Solanum tuberosum L., cv. Sebago) to high temperatures (32 day/28 C ...
Tuber formation in intact potato plants (Solanum tuberosum L. cv. Sebago) was reduced by high shoot ...
The role of the terminal and axillary buds, as presumptive organs of gibberellin synthesis, in the c...
Potato is the most important non-cereal crop for world food security. It is adapted to mild conditio...
Warm temperatures (35°C day/30°C night) which inhibit tuberization in potato (Solanum tuberosum L., ...
Laboratory experiments were carried out in the laboratory of Raw Materials for Food Agronomic and Li...
Because of its importance in the human diet, potato growth and development have received considerabl...
Potato is adapted to mild climates, but climate change may increase its exposure to more high temper...
Growing small seedling tubers from true seed, comparable with mini tubers, in controlled conditions ...
Research on the influence of different temperatures and exposition time on potato tuber sprouting wa...
The mechanism of potato (Solanum tuberosum L.) thermotolerance has been the focus of intensive resea...
An experiment, including potato cultivars Gloria (very early), Marfona (mid-early) and Agria (late),...
Potato (Solanum tuberosum L.) plants are highly vulnerable to heat stress. Even moderately elevated ...
Climate warming is subjecting plants to heat stress, which can affect their physiological processes ...
Although significant work has been undertaken regarding the response of model and crop plants to hea...
The responses of potato plants (Solanum tuberosum L., cv. Sebago) to high temperatures (32 day/28 C ...
Tuber formation in intact potato plants (Solanum tuberosum L. cv. Sebago) was reduced by high shoot ...
The role of the terminal and axillary buds, as presumptive organs of gibberellin synthesis, in the c...
Potato is the most important non-cereal crop for world food security. It is adapted to mild conditio...
Warm temperatures (35°C day/30°C night) which inhibit tuberization in potato (Solanum tuberosum L., ...
Laboratory experiments were carried out in the laboratory of Raw Materials for Food Agronomic and Li...
Because of its importance in the human diet, potato growth and development have received considerabl...
Potato is adapted to mild climates, but climate change may increase its exposure to more high temper...
Growing small seedling tubers from true seed, comparable with mini tubers, in controlled conditions ...
Research on the influence of different temperatures and exposition time on potato tuber sprouting wa...
The mechanism of potato (Solanum tuberosum L.) thermotolerance has been the focus of intensive resea...
An experiment, including potato cultivars Gloria (very early), Marfona (mid-early) and Agria (late),...
Potato (Solanum tuberosum L.) plants are highly vulnerable to heat stress. Even moderately elevated ...
Climate warming is subjecting plants to heat stress, which can affect their physiological processes ...
Although significant work has been undertaken regarding the response of model and crop plants to hea...