Fire regimes in savannas and forests are changing over much of the world. Anticipating the impact of these changes requires understanding how plants are adapted to fire. Here we test whether fire imposes a broad selective force on a key fire-tolerance trait, bark thickness, across 572 tree species distributed worldwide. We show that investment in thick bark is a pervasive adaptation in frequently burned areas across savannas and forests in both temperate and tropical regions where surface fires occur. Geographic variability in bark thickness is largely explained by annual burned area and precipitation seasonality. Combining environmental and species distribution data allowed us to assess the vulnerability to future climate and fire conditio...
Fire is a major force driving the evolution of plants and the structure and function of ecosystems g...
Plant species range shifts are predicted to occur in response to climate change. The predictions are...
Understory fires represent an accelerating threat to Amazonian tropical forests and can, during drou...
Fire regimes in savannas and forests are changing over much of the world. Anticipating the impact of...
Abstract. Fire frequencies are changing in Neotropical savannas and forests as a result of forest fr...
Bark is a vital and very visible part of woody plants, yet only recently has bark characteristics st...
© 2021 Isaac Daniel KregerConservation of biodiversity in fire-prone landscapes requires a thorough ...
1. Bark is a vital and very visible part of woody plants, yet only recently has bark characteris-tic...
Background: Understanding the mechanisms that explain the spatial distribution of conifers across bi...
Background: Understanding the mechanisms that explain the spatial distribution of conifers across bi...
© 2020 Elsevier B.V. Predicting the impact of wildfires on ecosystem services and habitat values req...
Recent studies have interpreted patterns of remotely sensed tree cover as evidence that forest with ...
Trees’ resistance to fire-induced mortality increases with bark thickness, which varies widely among...
Fire resistance traits drive tree species composition in surface‐fire ecosystems, but how they covar...
Questions What are the trade‐offs and/or associated syndromes within and between fire‐associated tra...
Fire is a major force driving the evolution of plants and the structure and function of ecosystems g...
Plant species range shifts are predicted to occur in response to climate change. The predictions are...
Understory fires represent an accelerating threat to Amazonian tropical forests and can, during drou...
Fire regimes in savannas and forests are changing over much of the world. Anticipating the impact of...
Abstract. Fire frequencies are changing in Neotropical savannas and forests as a result of forest fr...
Bark is a vital and very visible part of woody plants, yet only recently has bark characteristics st...
© 2021 Isaac Daniel KregerConservation of biodiversity in fire-prone landscapes requires a thorough ...
1. Bark is a vital and very visible part of woody plants, yet only recently has bark characteris-tic...
Background: Understanding the mechanisms that explain the spatial distribution of conifers across bi...
Background: Understanding the mechanisms that explain the spatial distribution of conifers across bi...
© 2020 Elsevier B.V. Predicting the impact of wildfires on ecosystem services and habitat values req...
Recent studies have interpreted patterns of remotely sensed tree cover as evidence that forest with ...
Trees’ resistance to fire-induced mortality increases with bark thickness, which varies widely among...
Fire resistance traits drive tree species composition in surface‐fire ecosystems, but how they covar...
Questions What are the trade‐offs and/or associated syndromes within and between fire‐associated tra...
Fire is a major force driving the evolution of plants and the structure and function of ecosystems g...
Plant species range shifts are predicted to occur in response to climate change. The predictions are...
Understory fires represent an accelerating threat to Amazonian tropical forests and can, during drou...