3.9 Article

Could CO2-induced changes to C4 grass flammability aggravate savanna woody encroachment?

Journal

AFRICAN JOURNAL OF RANGE & FORAGE SCIENCE
Volume 39, Issue 1, Pages 82-95

Publisher

TAYLOR & FRANCIS LTD
DOI: 10.2989/10220119.2021.1986131

Keywords

climate change; C-4 grasses; elevated CO2; flammability; fire regimes

Funding

  1. National Research Foundation (NRF) Innovation PhD scholarship
  2. Alliance for Collaboration on Climate and Earth Systems Science (ACCESS) grant

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The study found that improved water-use efficiency under elevated CO2 led to a larger but wetter grass fuel load, which cured at a slower rate under drought conditions. This resulted in increased time to ignition, reduced flaming times, and reduced predicted rate of spread.
Fire plays an important role in maintaining the savanna tree-grass balance by limiting the recruitment of heat-sensitive tree seedlings. However, fire behaviour may change under increasing CO2 concentrations, due to altered flammability of the grassy layer. Here, we determined the effect of predicted future CO2 concentrations, and how it interacts with water-availability, on grass flammability and traits influential to flammability, and uncovered the physiological mechanisms underpinning these responses. Using the widespread C-4 savanna grass, Themeda triandra, as a model, we found that improved water-use efficiency under elevated CO2 (800 ppm) resulted in a larger (greater aboveground biomass), but wetter (higher moisture content) grass fuel load, that cured at a slower rate under drought conditions. These changes were associated with increased time to ignition, reduced flaming times and reduced predicted rate of spread. We modelled the effect of altered grass flammability on fire behaviour at a national level (South Africa), finding large-scale reductions in fire spread under elevated CO2, mitigating the converse effects of predicted increases in aridity, and marginal increases in fireline intensity. CO2-induced reductions in fire frequency, spread or intensity could have serious implications for savanna vegetation dynamics, possibly exacerbating the woody encroachment already seen in these ecosystems across the world.

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