Abiotic stresses increasingly threaten existing ecological and agricultural systems across the
globe. Plant roots perceive these stresses in the soil and adapt their architecture …

Hydraulic failure resulting from drought‐induced embolism in the xylem of plants is a key
determinant of reduced productivity and mortality. Methods to assess this vulnerability are …

Stomata play a significant role in the Earth's water and carbon cycles, by regulating gaseous
exchanges between the plant and the atmosphere. Under drought conditions, stomatal …

Understanding how plants survive drought and cold is increasingly important as plants
worldwide experience dieback with drought in moist places and grow taller with warming in …

Global warming is expected to dramatically accelerate forest mortality as temperature and
drought intensity increase. Predicting the magnitude of this impact urgently requires an …

Leaf hydraulic supply is crucial to maintaining open stomata for CO2 capture and plant
growth. During drought-induced dehydration, the leaf hydraulic conductance (K leaf) …

The time scale of stomatal closure and xylem cavitation during plant dehydration, as well as
the fate of embolized organs, are under debate, largely due to methodological limitations in …

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Given increasing water deficits across numerous ecosystems world‐wide, it is urgent to
understand the sequence of failure of leaf function during dehydration. We assessed …

Anthropogenic activities such as uncontrolled deforestation and increasing greenhouse gas
emissions are responsible for triggering a series of environmental imbalances that affect the …