Climate change calls for designing new strategies for growing crops under harsh conditions and combined with the forecasted world demographic growth raises a major challenge for society to provide sufficient amounts of high nutritional and sensory quality food crops. TomGEM aims to design new strategies to maintain yields stability of fruit and vegetables produced at harsh temperature conditions, using the tomato as a reference fleshy fruit crop. TomGEM considers all developmental processes contributing to yield, including flower initiation, pollen fertility and fruit set and implements trans-disciplinary approaches to investigate the impact of high temperature on these traits. TomGEM applies a multi-actor approach involving tomato producers and breeders to provide new targets, innovative breeding and management strategies to foster breeding of new tomato cultivars with improved yield under suboptimal temperature conditions. TomGEM associates in a coordinated effort the basic investigation of the mechanisms of heat tolerance related to yield, the exploration of available genetic resources to select best genotypes and the search for optimal cultural practices adapted to heat. The project relies on the active collaboration between scientists, breeders and producers. The project also aims to assess the effect of high temperature on the nutrional and post-harvest behaviour of tomato fruit. Overall, the tailed multidisciplinary work plan in TomGEM applied to the heat tolerant tomato genotypes combined with the multilevel dissection of the key processes limiting tomato productivity under high temperatures lead to a better knowledge of complex plant-environment interactions. Maintaining yield crop stability in the face of climate change requires a better understanding of the genetic and physiological factors that impact yield trait at high temperature. This knowledge is anticipated to open new avenues to design innovative strategies for generating new genetic material displaying heat tolerance. The setup of optimal cultural practices is also required to better adapt to changing environmental conditions.