2 Works

Data from: Offspring social network structure predicts fitness in families

Nick J. Royle, Thomas W. Pike, Phillip Heeb, Heinz Richner, Mathias Kölliker & M. Kolliker
Social structures such as families emerge as outcomes of behavioural interactions among individuals, and can evolve over time if families with particular types of social structures tend to leave more individuals in subsequent generations. The social behaviour of interacting individuals is typically analysed as a series of multiple dyadic (pair-wise) interactions, rather than a network of interactions among multiple individuals. However, in species where parents feed dependent young, interactions within families nearly always involve more...

Data from: Anatomical enablers and the evolution of C4 photosynthesis in grasses

Pascal-Antoine Christin, Colin P. Osborne, David S. Chatelet, J. Travis Columbus, Guillaume Besnard, Trevor R. Hodkinson, Laura M. Garrison, Maria S. Vorontsova & Erika J. Edwards
C4 photosynthesis is a series of anatomical and biochemical modifications to the typical C3 pathway that increases the productivity of plants in warm, sunny, and dry conditions. Despite its complexity, it evolved more than 62 times independently in flowering plants. However, C4 origins are absent from most plant lineages and clustered in others, suggesting that some characteristics increase C4 evolvability in certain phylogenetic groups. The C4 trait has evolved 22–24 times in grasses, and all...

Registration Year

  • 2012
    2

Resource Types

  • Dataset
    2

Affiliations

  • Paul Sabatier University
    2
  • Royal Botanic Gardens
    1
  • Claremont Graduate University
    1
  • University of Bern
    1
  • University of Basel
    1
  • Trinity College Dublin
    1
  • University of Exeter
    1
  • Brown University
    1
  • University of Sheffield
    1