• Title of article

    Vegetation pattern shift as a result of rising atmospheric CO2 in arid ecosystems

  • Author/Authors

    Sonia Kefi، نويسنده , , Max Rietkerk، نويسنده , , GABRIEL G. KATUL، نويسنده ,

  • Issue Information
    دوماهنامه با شماره پیاپی سال 2008
  • Pages
    13
  • From page
    332
  • To page
    344
  • Abstract
    Arid ecosystems are expected to be among the ecosystems most sensitive to climate change. Here, we explore via model calculations how regular vegetation patterns, widely observed in arid ecosystems, respond to projected climatic shifts as provided by general circulation model output. In our model, the photosynthesis and respiration terms are explicitly linked to physiological attributes of the plants and are forced with the primary climatic drivers: atmospheric CO2, air temperature, and precipitation. Under future climate scenarios, our simulations show that the system’s fate depends on whether the enhancements to photosynthesis due to elevated atmospheric CO2 outweigh the increases in respiration due to higher air temperatures and the increases in water stress due to lower rainfall. A scalar measure is proposed to quantify this balance between the changes in the three climate drivers. Our model results suggest that knowing how the three primary climate drivers are evolving may provide hints as to whether the ecosystem is approaching desertification
  • Keywords
    Arid ecosystemsSpatial organizationClimate changeIncreased CO2DesertificationScale-dependent feedback
  • Journal title
    Theoretical Population Biology
  • Serial Year
    2008
  • Journal title
    Theoretical Population Biology
  • Record number

    774118