Biophysical controls of soil CO2 efflux in two coastal Douglas-fir stands at different temporal scales
2012
Jassal, Rachhpal S. | Andrew Black, T. | Nesic, Zoran
We compared the biophysical controls of soil respiration (Râ) in two different-aged (21 and 60 years old, hereafter known as HDF88 and DF49, respectively) Douglas-fir stands on Vancouver Island, Canada with the younger stand having abundant deciduous understory and a relatively thicker LFH layer. Râ in the younger stand, HDF88 was more responsive to changes in soil temperature (Tâ) and volumetric soil water content (θ). While daily Râ in HDF88 increased with Tâ, reached a maximum at Tâ of 12°C and then decreased, it increased nearly exponentially at DF49 throughout the range of measured Tâ. The decrease in Râ at Tâ>12°C at HDF88 was attributed to soil water stress. Time series analysis revealed that a photosynthetic signal (from eddy-covariance-measured gross ecosystem photosynthesis (Pg)) in chamber-measured Râ appeared at different temporal scales in the two stands. On the seasonal scale, no lags were observed between daily Râ and daily Pg during the active growing season of mid March to October at both sites. On the diurnal scale, half-hourly Râ values lagged behind half-hourly Pg by 7h, which corresponded closely with the diurnal lag of Tâ behind solar irradiance. The diurnal lag of Râ behind Pg corresponded closely to that of heterotrophic soil respiration (Râ) with the autotrophic component (Râ –Râ) showing little diurnal response to Pg and also to Tâ. Furthermore, at any given Tâ, daily Râ showed no response to daily Pg at both sites, especially when soil water content was non-limiting. There was no need to invoke a delay in biological transport of photosynthates in the phloem or physical transport of CO₂ in the soil to explain Râ lags behind Pg in these temperate coastal Douglas-fir ecosystems.
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