The impact of heat stress due to climate change is particularly well characterized on the
plant aboveground and more specifically in the reproductive parts of crops. However, fewer …

The environment is continually challenging plants, and in response they use various coping
strategies, such as adaptation of their growth. Thermomorphogenesis is a specific growth …

Heat stress events are resulting in a significant negative impact on global food production.
The dynamics of cellular, molecular and physiological homoeostasis in aboveground parts …

Climate change could alter plant aboveground and belowground resource allocation.
Compared with shoots, we know much less about how roots, especially root system …

Prolonged cold stress has a strong effect on plant growth and development, especially in
subtropical crops such as maize. Soil temperature limits primary root elongation, mainly …

Root exudates play an essential role in helping plants to cope with abiotic stress. However,
the modulation of root exudation profiles under multiple stress conditions is still poorly …

Root exudation is involved in the recruitment of beneficial microorganisms by trophic
relationships and/or signalling pathways. Among beneficial microorganisms, Plant Growth …

Climate change is threatening crop productivity worldwide and new solutions to adapt crops
to these environmental changes are urgently needed. Elevated temperatures driven by …

Elevated growth temperatures are negatively affecting crop productivity by increasing yield
losses. The modulation of root traits associated with improved response to rising …

Climate change is increasing the frequency of extreme heat events that aggravate its
negative impact on plant development and agricultural yield. Most experiments designed to …