Add to ORKGData are described in Blonder et al., Linking functional traits to multiscale statistics of leaf venation networks. New Phytologist (2020)
The leaf economics spectrum (LES) describes strong relationships between multiple functional leaf tr...
1.Traditionally, trait‐based studies have explored single‐trait‐fitness relationships. However, this...
1. Theoretical models indicate that the structure of plant-pollinator networks has important implica...
Data are described in Blonder et al., Linking functional traits to multiscale statistics of leaf ven...
Leaf venation networks evolved along several functional axes, including resource transport, damage r...
Functional traits are frequently used to evaluate plant adaptation across environments. Yet, traits ...
Supplemental Figure 49: Network analysis reveals a relationship between leaf complexity and shape wi...
Correlations among plant traits often reflect important trade‐offs or allometric relationships in bi...
• Global-scale quantification of relationships between plant traits gives insight into the evolution...
Theory predicts that natural selection should favor coordination between leaf physiology, biochemist...
The leaf economics spectrum (LES) describes strong relationships between multiple functional leaf tr...
• Global-scale quantification of relationships between plant traits gives insight into the evolution...
The leaves of angiosperms contain highly complex venation networks consisting of recur-sively nested...
<p>Data from "Valencia, E., J. L. Quero & F. T. Maestre. Functional leaf and size traits determine t...
Correlations among plant traits often reflect important trade-offs or allometric relationships in bi...
The leaf economics spectrum (LES) describes strong relationships between multiple functional leaf tr...
1.Traditionally, trait‐based studies have explored single‐trait‐fitness relationships. However, this...
1. Theoretical models indicate that the structure of plant-pollinator networks has important implica...
Data are described in Blonder et al., Linking functional traits to multiscale statistics of leaf ven...
Leaf venation networks evolved along several functional axes, including resource transport, damage r...
Functional traits are frequently used to evaluate plant adaptation across environments. Yet, traits ...
Supplemental Figure 49: Network analysis reveals a relationship between leaf complexity and shape wi...
Correlations among plant traits often reflect important trade‐offs or allometric relationships in bi...
• Global-scale quantification of relationships between plant traits gives insight into the evolution...
Theory predicts that natural selection should favor coordination between leaf physiology, biochemist...
The leaf economics spectrum (LES) describes strong relationships between multiple functional leaf tr...
• Global-scale quantification of relationships between plant traits gives insight into the evolution...
The leaves of angiosperms contain highly complex venation networks consisting of recur-sively nested...
<p>Data from "Valencia, E., J. L. Quero & F. T. Maestre. Functional leaf and size traits determine t...
Correlations among plant traits often reflect important trade-offs or allometric relationships in bi...
The leaf economics spectrum (LES) describes strong relationships between multiple functional leaf tr...
1.Traditionally, trait‐based studies have explored single‐trait‐fitness relationships. However, this...
1. Theoretical models indicate that the structure of plant-pollinator networks has important implica...