Quantifying Rhizosphere Respiration in a Corn Crop under Field Conditions

Abstract

In order to quantify rhizosphere respiration (R_rh) during the growing season, we monitored the isotope ratio (δ¹³C) of soil CO₂ in a corn (Zea mays L.) crop that was grown on a soil developed from C₃ plant material. The R_rh was defined as the sum of CO₂ respired by plant roots and CO₂ respired by microbes that feed on organic material produced by the roots. The δ¹³C of soil CO₂ in the corn plot changed from an early season low of approximately −20‰, to mid‐season values of approximately −14‰, before declining again at the end of the growing season. In the control plot (no C₄ plants present) δ¹³C values of soil CO₂ were significantly lower than values in the corn plot, averaging approximately −22‰ throughout most of the season. We observed no significant change in the δ¹³C value of soil CO₂ in either the corn or control plots during a diurnal sampling period. The value of R_rh was 1.71 g CO₂ m⁻² d⁻¹ 27 d after planting (DAP), reached 10 g CO₂ m⁻² d⁻¹ at 44 DAP, remained at about that value until 76 DAP, and gradually decreased to 2.6 g CO₂ m⁻² d⁻¹ at 141 DAP. The CO₂ respired by the rhizosphere was equivalent to 18 to 25% of crop net photosynthesis and 24 to 35% of crop net CO₂ assimilation during most of the growing season.