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Precipitation pulses in steppe environments: Spatial patterns and mechanisms
Frontiers in Ecology and Evolution ( IF 3 ) Pub Date : 2021-04-26 , DOI: 10.3389/fevo.2021.673310
Zhaoxia Jiang , Hongfeng Bian , Li Xu , Mingxu Li , Nianpeng He

The rapid and strong release of CO2 caused by precipitation (known as the pulse effect) is a common phenomenon that significantly affects ecosystem C cycling. However, the degree at which the pulse effect of precipitation occurs at large regional scales remains unclear. In this study, we conducted continuous and high-frequency measurements of soil CO2 release rates (Rs) for 48 h after simulated precipitation, along a transected precipitation gradient of different grassland types (i.e., covering meadow, typical, and desert) in Inner Mongolia, China. Pulse effects were assessed using the maximum Rs (Rsoil-max) and accumulated CO2 emissions (ARs-soil) data. Strong precipitation pulse effects were found in all sites; however, the effects differed among grassland types. In addition, an apparent decrease in both Rsoil-max and ARs-soil was observed from the east to west, i.e., along the decreasing precipitation gradient. Furthermore, Rsoil-max and ARs-soil were significantly positively correlated with soil quality (SOC, POC, N, etc.). ARs-soil was also significantly positively correlated with soil microbial biomass. Rsoil-max and ARs-soil were found to have similar spatial variations and controlling mechanisms. These results greatly support the substrate supply hypothesis for the effects of precipitation pulses, thus, demonstrating a good perspective for their prediction. Our findings also verified the significant effect of soil CO2 release from precipitation pulses on the grasslands of arid and semi-arid regions. Our data provide a scientific basis for model simulations to better predict the responses of ecosystem carbon cycles in arid and semi-arid regions under predicted climate change scenarios.
更新日期:2021-04-27
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