Understanding how tropical rainforest trees may respond to the precipitation extremes predicted in future climate change scenarios is paramount for their conservation and management. Tree species clearly differ in drought susceptibility, suggesting that variable water transport strategies exist. Using a multi-disciplinary approach, we examined the hydraulic variability in trees in a lowland tropical rainforest in north-eastern Australia. We studied eight tree species representing broad plant functional groups (one palm and seven eudicot mature-phase, and early-successional trees). We characterised the species' hydraulic system through maximum rates of volumetric sap flow and velocities using the heat ratio method, and measured rates of tree...
Predicting responses of tropical forests to climate change-type drought is challenging because of hi...
Predicting responses of tropical forests to climate change-type drought is challenging because of hi...
1. Understanding the anatomical basis of plant water transport in forest ecosystems is crucial for c...
Understanding how tropical rainforest trees may respond to the precipitation extremes predicted in f...
Forest tree species in wet and dry habitats are generally considered functionally divergent in leaf ...
Key message: Relationship between sap flow and functional traits changes with altitude and changes i...
Increased drought is forecasted for tropical regions, with severe implications for the health and fu...
Ecological plant strategies are reflected in anatomical constraints and trade-offs, influencing the ...
Plant hydraulic traits capture the impacts of drought stress on plant function, yet vegetation model...
Water availability is the most important factor determining tree species distribution in the tropics...
Amazonian droughts are increasing in frequency and severity. However, little is known about how this...
Understanding the mechanisms used by tropical tree species to cope with drought will be central in p...
Amazonian droughts are becoming more frequent and intense, having a profound effect on water availab...
Trade-offs in wood anatomical characteristics reflect different strategies used by trees to deal wit...
Plant hydraulic architecture has been studied extensively, yet we know little about how hydraulic pr...
Predicting responses of tropical forests to climate change-type drought is challenging because of hi...
Predicting responses of tropical forests to climate change-type drought is challenging because of hi...
1. Understanding the anatomical basis of plant water transport in forest ecosystems is crucial for c...
Understanding how tropical rainforest trees may respond to the precipitation extremes predicted in f...
Forest tree species in wet and dry habitats are generally considered functionally divergent in leaf ...
Key message: Relationship between sap flow and functional traits changes with altitude and changes i...
Increased drought is forecasted for tropical regions, with severe implications for the health and fu...
Ecological plant strategies are reflected in anatomical constraints and trade-offs, influencing the ...
Plant hydraulic traits capture the impacts of drought stress on plant function, yet vegetation model...
Water availability is the most important factor determining tree species distribution in the tropics...
Amazonian droughts are increasing in frequency and severity. However, little is known about how this...
Understanding the mechanisms used by tropical tree species to cope with drought will be central in p...
Amazonian droughts are becoming more frequent and intense, having a profound effect on water availab...
Trade-offs in wood anatomical characteristics reflect different strategies used by trees to deal wit...
Plant hydraulic architecture has been studied extensively, yet we know little about how hydraulic pr...
Predicting responses of tropical forests to climate change-type drought is challenging because of hi...
Predicting responses of tropical forests to climate change-type drought is challenging because of hi...
1. Understanding the anatomical basis of plant water transport in forest ecosystems is crucial for c...