Add to ORKGIntraspecific variation in phenotypic plasticity is a critical determinant of plant species capacity to cope with climate change. A long-standing hypothesis states that greater levels of environmental variability will select for genotypes with greater phenotypic plasticity. However, few studies have examined how genotypes of woody species originating from contrasting environments respond to multiple climate change factors. Here, we investigated the main and interactive effects of elevated [CO2](CE) and elevated temperature (TE) on growth and physiology of Coastal (warmer, less variable temperature environment) and Upland (cooler, more variable temperature environment) genotypes of an Australian woody species Telopea speciosissima. Both genot...
Climate change scenarios predict increasing atmospheric CO2 concentrations ([CO2]), temperatures and...
This thesis assessed the effects of future climate factors (i.e. [CO2], heat waves and soil water av...
Plant hydraulic traits capture the impacts of drought stress on plant function, yet vegetation model...
Intraspecific variation in phenotypic plasticity is a critical determinant of plant species capacity...
Widespread species often occur across a range of climatic conditions, through a combination of local...
1. Understanding species' abilities to cope with changing climate is a key prerequisite for pred...
In this chapter we compile data on intraspecifc variation in plant reproductive, growth, and physiol...
Climate warming affects plant physiology through genetic adaptation and phenotypic plasticity, but l...
Predicting plastic responses is crucial to assess plant species potential to adapt to climate change...
Examining intraspecific variation in growth and function in relation to climate may provide insight ...
Increases in global carbon dioxide, temperature and, in some latitudes, humidity are characteristic ...
Examining intraspecific variation in growth and function in relation to climate may provide insight ...
Our ability to understand the underlying morphological and physiological responses of plants to chan...
The long term success of revegetation efforts will depend upon the planted species’ resilience to cl...
As rapid climate warming creates a mismatch between forest trees and their home environment, the abi...
Climate change scenarios predict increasing atmospheric CO2 concentrations ([CO2]), temperatures and...
This thesis assessed the effects of future climate factors (i.e. [CO2], heat waves and soil water av...
Plant hydraulic traits capture the impacts of drought stress on plant function, yet vegetation model...
Intraspecific variation in phenotypic plasticity is a critical determinant of plant species capacity...
Widespread species often occur across a range of climatic conditions, through a combination of local...
1. Understanding species' abilities to cope with changing climate is a key prerequisite for pred...
In this chapter we compile data on intraspecifc variation in plant reproductive, growth, and physiol...
Climate warming affects plant physiology through genetic adaptation and phenotypic plasticity, but l...
Predicting plastic responses is crucial to assess plant species potential to adapt to climate change...
Examining intraspecific variation in growth and function in relation to climate may provide insight ...
Increases in global carbon dioxide, temperature and, in some latitudes, humidity are characteristic ...
Examining intraspecific variation in growth and function in relation to climate may provide insight ...
Our ability to understand the underlying morphological and physiological responses of plants to chan...
The long term success of revegetation efforts will depend upon the planted species’ resilience to cl...
As rapid climate warming creates a mismatch between forest trees and their home environment, the abi...
Climate change scenarios predict increasing atmospheric CO2 concentrations ([CO2]), temperatures and...
This thesis assessed the effects of future climate factors (i.e. [CO2], heat waves and soil water av...
Plant hydraulic traits capture the impacts of drought stress on plant function, yet vegetation model...