Add to ORKG2019 Fall.Includes bibliographical references.As climate continues to change, it will become increasingly important to accurately predict the landscape-level response of plant functional groups to climatic shifts. Relationships between vascular anatomy and climate distribution have been revealed in woody plant species, but little research has been done on this subject in the Poaceae family. These relationships were studied in 21 grass species from 5 genera in the subfamily Pooideae by analyzing their anatomical traits and climate data from each species' range. Analysis showed multiple correlations among anatomical traits, such as a positive correlation between the ratio of vessel wall thickness to vessel diameter (t/b ratio) with vein densi...
Aim Early in their evolution, angiosperms evolved a diversity of leaf form far greater than that of ...
1. Leaf anatomical traits may reflect plant's adaption to environmental changes and influence ecosys...
Evolutionary radiations are responsible for much of Earth’s diversity, yet the causes of these radia...
Premise of study: The mechanisms by which plants tolerate water defi cit are only just becoming clea...
Variation in leaf anatomical traits underpins the adaptations and phenotypic responses of plant spec...
Plant response to climate through time is commonly investigated with leaf physiognomy, but anatomica...
Leaf structure and function is important in driving ecosystem fluxes, tolerance of environmental str...
This study explored the relative roles of climate and phylogenetic background in driving morphometri...
Understanding what determine plants ability to survive drought and cold is crucial for predicting ho...
Doctor of PhilosophyDepartment of BiologyJesse NippertGrasslands occupy more of Earth’s terrestrial ...
AimDespite several recent efforts to map plant traits and to identify their climatic drivers, there ...
Premise of the study: The functional significance of leaf margins has long been debated. In this stu...
Investigating space allocation patterns of plant secondary xylem along a latitudinal gradient is use...
Predicting plastic responses is crucial to assess plant species potential to adapt to climate change...
Aim: Despite several recent efforts to map plant traits and to identify their climatic drivers, ther...
Aim Early in their evolution, angiosperms evolved a diversity of leaf form far greater than that of ...
1. Leaf anatomical traits may reflect plant's adaption to environmental changes and influence ecosys...
Evolutionary radiations are responsible for much of Earth’s diversity, yet the causes of these radia...
Premise of study: The mechanisms by which plants tolerate water defi cit are only just becoming clea...
Variation in leaf anatomical traits underpins the adaptations and phenotypic responses of plant spec...
Plant response to climate through time is commonly investigated with leaf physiognomy, but anatomica...
Leaf structure and function is important in driving ecosystem fluxes, tolerance of environmental str...
This study explored the relative roles of climate and phylogenetic background in driving morphometri...
Understanding what determine plants ability to survive drought and cold is crucial for predicting ho...
Doctor of PhilosophyDepartment of BiologyJesse NippertGrasslands occupy more of Earth’s terrestrial ...
AimDespite several recent efforts to map plant traits and to identify their climatic drivers, there ...
Premise of the study: The functional significance of leaf margins has long been debated. In this stu...
Investigating space allocation patterns of plant secondary xylem along a latitudinal gradient is use...
Predicting plastic responses is crucial to assess plant species potential to adapt to climate change...
Aim: Despite several recent efforts to map plant traits and to identify their climatic drivers, ther...
Aim Early in their evolution, angiosperms evolved a diversity of leaf form far greater than that of ...
1. Leaf anatomical traits may reflect plant's adaption to environmental changes and influence ecosys...
Evolutionary radiations are responsible for much of Earth’s diversity, yet the causes of these radia...