• Title of article

    Zea mays rhizosphere respiration, but not soil organic matter decomposition was stable across a temperature gradient

  • Author/Authors

    Vicca، نويسنده , , Sara and Janssens، نويسنده , , Ivan A. and Wong، نويسنده , , Suan-Chin and Cernusak، نويسنده , , Lucas A. and Farquhar، نويسنده , , Graham D.، نويسنده ,

  • Pages
    4
  • From page
    2030
  • To page
    2033
  • Abstract
    In a greenhouse experiment, we grew maize plants at different densities. We added fertilizer to half of the pots and created a temperature gradient. After 10 weeks of plant growth, we measured soil CO2 efflux (SCE) and determined rhizosphere respiration (Rrhizo) and the decomposition rate of soil organic matter (RSOM) using the different δ13C of the C3 soil and C4 plants. Whereas Rrhizo remained stable across the temperature gradient, RSOM significantly increased with growth temperature. Neither plant density, nor the fertilizer treatment affected the relation between Rrhizo or RSOM and growth temperature. Although Rrhizo might still increase with temperature in the short term, long term exposure to higher temperatures revealed full thermal acclimation of Rrhizo, but not of RSOM.
  • Keywords
    Soil CO2 efflux , Soil organic matter decomposition , Stable carbon isotopes , Temperature gradient , Thermal acclimation , Rhizosphere respiration
  • Journal title
    Astroparticle Physics
  • Record number

    1998814