Climate change is expected to increase the frequency and severity of droughts. These
events, which can cause significant perturbations of terrestrial ecosystems and potentially …

Agricultural intensification has had long-lasting negative legacies largely because of
excessive inputs of agrochemicals (eg, fertilizers) and simplification of cropping systems (eg …

Climate change is pushing species outside of their evolved tolerances. Plant populations
must acclimate, adapt, or migrate to avoid extinction. However, because plants associate …

Climate change increases the frequency and intensity of drought events, affecting soil
functions including carbon sequestration and nutrient cycling, which are driven by growing …

The increasing frequency of extreme weather events highlights the need to understand how
soil microbiomes respond to such disturbances. Here, metagenomics was used to …

Abiotic stress poses a severe danger to agriculture since it negatively impacts cellular
homeostasis and eventually stunts plant growth and development. Abiotic stressors like …

With the warming global climate, drought stress is considered to be the most important
abiotic factor limiting plant growth and yield in the world. Drought stress has serious impacts …

Abstract Main Conclusion The responses of plants to different abiotic stresses and
mechanisms involved in their mitigation are discussed. Production of osmoprotectants …

Drought is one of the most complex hydrological and climate disasters, causing damage to
ecosystem structure and function. Ecosystem resilience is considered a key concept for …

Atmospheric dryness, as indicated by vapor pressure deficit (VPD), has a strong influence
on forest greenhouse gas exchange with the atmosphere. In this study, we used long‐term …