Add to ORKGSummary The existence of an efficient but also safe hydraulic system seems to be essential for plant survival under water limiting conditions. To investigate any common pattern in this safety–efficiency trade-off, static (xylem anatomy and vulnerability to xylem cavitation) and dynamic (Kplant, soil to leaf hydraulic conductance and Wleaf, leaf water potential) hydraulic properties of nine Mediterranean species belonging to four functional groups (semi-deciduous malacophyllous, sclerophylls, deciduous and herbaceous) were studied across two altitude sites. Static parameters did not show any pattern, but a strong exponential relationship between Kplant and Wleaf was evident for all the studied species. Furthermore, each species is represente...
Water transport from soils to the atmosphere is critical for plant growth and survival. However, we ...
Survival and growth of woody species in the Mediterranean are mainly restricted by water availabilit...
1. The xylem pressure inducing 50% loss of hydraulic conductivity due to embolism (P50) is\ud widely...
Stable hydraulic conductivity in forest trees maintains healthy tree crowns and contributes to produ...
The leaf hydraulic system in plants is charged with supplying water to the sites of evaporation in o...
Interspecitïc variability,xylem hydraulic traits, stomatal regulation and intrinsic water use effici...
The root (KR) and shoot (KS) hydraulic conductances of seven different Quercus species, as well as t...
Terrestrial plants face a multitude of physiological and ecological trade-offs, and require a compro...
Coordination of water movement among plant organs is important for understanding plant water use str...
Summary: Hydraulic dysfunction in leaves determines key aspects of whole-plant responses to water st...
Three woody species typically encroaching the Karstic region of Trieste (Northeastern Italy) i.e. C...
WOS: 000220181600001Diurnal time course of the water relations of Ceratonia siliqua, Quercus coccife...
Coordination of stem and leaf hydraulic traits allows terrestrial plants to maintain safe water stat...
Drought stress is known to limit plant performance in Mediterranean-type ecosystems. We have investi...
Plant hydraulic architecture has been studied extensively, yet we know little about how hydraulic pr...
Water transport from soils to the atmosphere is critical for plant growth and survival. However, we ...
Survival and growth of woody species in the Mediterranean are mainly restricted by water availabilit...
1. The xylem pressure inducing 50% loss of hydraulic conductivity due to embolism (P50) is\ud widely...
Stable hydraulic conductivity in forest trees maintains healthy tree crowns and contributes to produ...
The leaf hydraulic system in plants is charged with supplying water to the sites of evaporation in o...
Interspecitïc variability,xylem hydraulic traits, stomatal regulation and intrinsic water use effici...
The root (KR) and shoot (KS) hydraulic conductances of seven different Quercus species, as well as t...
Terrestrial plants face a multitude of physiological and ecological trade-offs, and require a compro...
Coordination of water movement among plant organs is important for understanding plant water use str...
Summary: Hydraulic dysfunction in leaves determines key aspects of whole-plant responses to water st...
Three woody species typically encroaching the Karstic region of Trieste (Northeastern Italy) i.e. C...
WOS: 000220181600001Diurnal time course of the water relations of Ceratonia siliqua, Quercus coccife...
Coordination of stem and leaf hydraulic traits allows terrestrial plants to maintain safe water stat...
Drought stress is known to limit plant performance in Mediterranean-type ecosystems. We have investi...
Plant hydraulic architecture has been studied extensively, yet we know little about how hydraulic pr...
Water transport from soils to the atmosphere is critical for plant growth and survival. However, we ...
Survival and growth of woody species in the Mediterranean are mainly restricted by water availabilit...
1. The xylem pressure inducing 50% loss of hydraulic conductivity due to embolism (P50) is\ud widely...