Stimulated photosynthesis of regrowth after fire in coastal scrub vegetation: increased water or nutrient availability dataset
  • Description

    Fire-prone landscapes experience frequent fires, disrupting above-ground biomass and altering below-ground soil nutrient availability. Augmentation of leaf nutrients or leaf water balance can both reduce limitations to photosynthesis and facilitate post-fire recovery in plants. These modes of fire responses are often studied separately and hence are rarely compared. We hypothesized that under severe burning, woody plants of a coastal scrub ecosystem would have higher rates of photosynthesis (Anet) than in unburned areas due to a transient release from leaf nutrient and water limitations, facilitating biomass recovery post-burn. To compare these fire recovery mechanisms in regrowing plants, we measured leaf gas exchange, leaf and soil N and P concentrations, and plant stomatal limitations in Australian native coastal scrub species across a burn sequence of sites at 1 year after severe fire, 7 years following a light controlled fire, and decades after any fire at North Head, Sydney, Australia. Recent burning stimulated increases in Anet by 20% over unburned trees and across three tree species. These species showed increases in total leaf N and P as a result of burning of 28% and 50% for these macronutrients, respectively, across the three species. The boost in leaf nutrients and stimulated leaf biochemical capacity for photosynthesis, alongside species-specific stomatal conductance (gs) increases, together contributed to increased photosynthetic rates after burning compared with the long-unburned area. Photosynthetic stimulation after burning occurred due to increases in nutrient concentrations in leaves, particularly N, as well as stomatal opening for some species. The findings suggest that changes in species photosynthesis and growth with increased future fire intensity or frequency may be facilitated by changes in leaf physiology after burning. On this basis, species dominance during regrowth depends on nutrient and water availability during post-fire recovery. Dataset contains water and nutrient augmentation stimulate post-fire photosynthesis


    • Data publication title Stimulated photosynthesis of regrowth after fire in coastal scrub vegetation: increased water or nutrient availability dataset
    • Description

      Fire-prone landscapes experience frequent fires, disrupting above-ground biomass and altering below-ground soil nutrient availability. Augmentation of leaf nutrients or leaf water balance can both reduce limitations to photosynthesis and facilitate post-fire recovery in plants. These modes of fire responses are often studied separately and hence are rarely compared. We hypothesized that under severe burning, woody plants of a coastal scrub ecosystem would have higher rates of photosynthesis (Anet) than in unburned areas due to a transient release from leaf nutrient and water limitations, facilitating biomass recovery post-burn. To compare these fire recovery mechanisms in regrowing plants, we measured leaf gas exchange, leaf and soil N and P concentrations, and plant stomatal limitations in Australian native coastal scrub species across a burn sequence of sites at 1 year after severe fire, 7 years following a light controlled fire, and decades after any fire at North Head, Sydney, Australia. Recent burning stimulated increases in Anet by 20% over unburned trees and across three tree species. These species showed increases in total leaf N and P as a result of burning of 28% and 50% for these macronutrients, respectively, across the three species. The boost in leaf nutrients and stimulated leaf biochemical capacity for photosynthesis, alongside species-specific stomatal conductance (gs) increases, together contributed to increased photosynthetic rates after burning compared with the long-unburned area. Photosynthetic stimulation after burning occurred due to increases in nutrient concentrations in leaves, particularly N, as well as stomatal opening for some species. The findings suggest that changes in species photosynthesis and growth with increased future fire intensity or frequency may be facilitated by changes in leaf physiology after burning. On this basis, species dominance during regrowth depends on nutrient and water availability during post-fire recovery. Dataset contains water and nutrient augmentation stimulate post-fire photosynthesis


    • Data type dataset
    • Keywords
      • Epicormic resprouting
      • Leaf P concentration
      • Fire response
      • Nitrogen
      • Leaf N Concentration
      • Photosynthesis
      • Plant Leaves
      • Coastal woodland
      • Trees
      • Water
      • angiosperm
      • concentration (composition)
      • dominance
      • phosphorus
      • regrowth
      • resprouting
      • scrub
      • soil nutrient
      • stomatal conductance
      • water availability
    • Funding source
      • Australian Research Council
      • John Martyn Research Grant for the Conservation of Bushland
    • Grant number(s)
      • - DP210100115
    • FoR codes
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      Temporal (time) coverage
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    • End date
    • Time period
       
      Spatial (location,mapping) coverage
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      • Notes
      Citation Rogers, Erin; Mehnaz, Kazi; Ellsworth, David (2024): Stimulated photosynthesis of regrowth after fire in coastal scrub vegetation: increased water or nutrient availability dataset. Figshare. https://doi.org/10.6084/m9.figshare.26103277.v1