Add to ORKGThe analysis on sap flows and stomatal conductance, together with the data collection of micro-meteorological parameters is of key importance for a deeper understanding on the soil-plant-atmosphere continuum. At the same time, a proper elaboration on these data can provide useful insights for the improvement of sustainable hazelnut management in dry areas such as SE Australia. The study site, located in Dellapool, Narrandera (34\ub048\u2019S, 146\ub040\u2019E; 155 m.a.s.l), is characterized by severe vapor pressure deficit (VPD), twice the maximum value of hazelnut native habitat. Despite data gaps occurred along the period, we derived important parameters as VPD, the most important driver for sap flow. Results shows that, beyond 16hPa, VP...
Australian savannas exhibit marked seasonality in precipitation, with more than 90% of the annual to...
Ecophysiological studies of remnant woodlands in saline environments are scarce. We investigated sea...
Corylus avellana L. is a species highly susceptible to water stresses caused by vapor pressure defic...
Orchards productivity and thus nut yield is strictly dependent on plant growth (Baldwin, 2010), whic...
A remarkable increase in vapor pressure deficit (VPD) has been recorded in the last decades in relat...
The cultivated surface of hazelnut is rapidly increasing thus the species is planted also in areas w...
The productivity of an orchard is strictly dependent on water availability. This is particularly tru...
The hazelnut (Corylus avellana L.), cultivar TGL remains one of the most appreciated nut trees by th...
Daily and seasonal patterns of tree water use were measured for the two dominant tree species, Angop...
The measurement of sap movement in xylem sapwood tissue using heat pulse velocity sap flow instrumen...
Selecting plantation species to balance water use and production requires accurate models for predic...
The constraints on transpiration were studied in plantation grown Eucalyptus globulus trees over th...
• SPAC model to predict forest water consumption under wet and dry conditions.• Interactions and fee...
We examined water use by maturing Eucalyptus regnans, growing with or without an mid-storey stratum ...
Monitoring of trees with reliable technology is essential in phytoremediation. Sap flow instrumentat...
Australian savannas exhibit marked seasonality in precipitation, with more than 90% of the annual to...
Ecophysiological studies of remnant woodlands in saline environments are scarce. We investigated sea...
Corylus avellana L. is a species highly susceptible to water stresses caused by vapor pressure defic...
Orchards productivity and thus nut yield is strictly dependent on plant growth (Baldwin, 2010), whic...
A remarkable increase in vapor pressure deficit (VPD) has been recorded in the last decades in relat...
The cultivated surface of hazelnut is rapidly increasing thus the species is planted also in areas w...
The productivity of an orchard is strictly dependent on water availability. This is particularly tru...
The hazelnut (Corylus avellana L.), cultivar TGL remains one of the most appreciated nut trees by th...
Daily and seasonal patterns of tree water use were measured for the two dominant tree species, Angop...
The measurement of sap movement in xylem sapwood tissue using heat pulse velocity sap flow instrumen...
Selecting plantation species to balance water use and production requires accurate models for predic...
The constraints on transpiration were studied in plantation grown Eucalyptus globulus trees over th...
• SPAC model to predict forest water consumption under wet and dry conditions.• Interactions and fee...
We examined water use by maturing Eucalyptus regnans, growing with or without an mid-storey stratum ...
Monitoring of trees with reliable technology is essential in phytoremediation. Sap flow instrumentat...
Australian savannas exhibit marked seasonality in precipitation, with more than 90% of the annual to...
Ecophysiological studies of remnant woodlands in saline environments are scarce. We investigated sea...
Corylus avellana L. is a species highly susceptible to water stresses caused by vapor pressure defic...