Abstract
Extreme precipitation events are predicted to occur more frequently and will have significant influences on terrestrial ecosystem carbon (C) cycling in the future. However, response patterns of soil respiration to precipitation changes remain uncertain in terrestrial ecosystems. A field experiment with seven precipitation treatments (i.e. from −60% to +60% of ambient precipitation to form a drought to wet precipitation gradient) was conducted over three growing seasons (2010–2012) in a semiarid temperate steppe of Northern China. Results showed a nonlinear response pattern of soil respiration along the experimental precipitation gradient, with soil respiration suppressed by decreased precipitation and enhanced by increased precipitation. Over the three growing seasons, soil respiration was reduced more under the three drought treatments (by 45.8, 32.8, and 15.9% under the −60, −40, and −20% treatments, respectively) than stimulated under the three wet treatments (by 8.9, 14.3, and 18.5% under the +20, +40, and +60% treatments, respectively). Our results indicate that soil respiration was more sensitive to decreased than increased precipitation treatments. The nonlinear and asymmetric responses of soil respiration to precipitation changes should be built into ecosystem models to project ecosystem C cycling associated with climate change.
Highlights
IntroductionNo direct field experiments have been conducted to test soil respiration responses along a precipitation gradient in semiarid grasslands
Across forests, grasslands, and shrublands[31]
The non-linear response of soil respiration to precipitation change and the greater sensitivity of soil respiration to drought than wet treatments revealed in our study suggest that soil respiration increases to a peak with increasing precipitation, and decreases as precipitation continues to increase in semiarid temperate steppe in China
Summary
No direct field experiments have been conducted to test soil respiration responses along a precipitation gradient in semiarid grasslands. A field manipulative experiment was conducted over three growing seasons (June-September) of 2010–2012 to examine soil respiration responses along an experimental precipitation gradient (i.e. ambient precipitation as a control, and ±20%, ±40%, and ±60% of ambient precipitation as three drought and wet treatments) in a semiarid temperate steppe of northern China. We hypothesized that changes in precipitation/water availability could have substantial impacts on soil respiration in this ecosystem. The specific questions we tried to address: (1) Did soil respiration respond linearly or nonlinearly to changes in precipitation amount? (2) What were the underlying mechanisms influencing soil respiration response to changing precipitation? The specific questions we tried to address: (1) Did soil respiration respond linearly or nonlinearly to changes in precipitation amount? (2) What were the underlying mechanisms influencing soil respiration response to changing precipitation?
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