Your search keyword '"Jiao GJ"' showing total 2 results

1. Different nitrogen saturation thresholds for above-, below-, and total net primary productivity in a temperate steppe.

Author

Yang GJ, Stevens C, Zhang ZJ, Lü XT, and Han XG

Subjects

Nitrogen, Carbon Cycle, Soil, Ecosystem, Grassland

Abstract

Identifying the thresholds for the positive responses of total net primary productivity (NPP) to nitrogen (N) enrichment is an essential prerequisite for predicting the benefits of N deposition on ecosystem carbon sequestration. However, the responses of below-ground NPP (BNPP) to N enrichment are unknown in many ecosystems, which limits our ability to understand the carbon cycling under the scenario of increasing N availability. We examined the changes in above-ground NPP (ANPP), BNPP, and NPP of a temperate meadow steppe across a wide-ranging N addition gradient (0, 2, 5, 10, 20, and 50 g N m -2  year -1 ) during 5 years. Both ANPP and NPP increased nonlinearly with N addition rates. The N saturation threshold for ANPP (T A ) and NPP (T N ) was at the rate of 13.11 and 6.70 g N m -2  year -1 , respectively. BNPP decreased with increasing N addition when N addition rates ˃5 g N m -2  year -1 , resulting in much lower T N than T A . Soil N enrichment played a key role in driving the negative impacts of high N addition rates on BNPP, and consequently on the earlier occurrence of N saturation threshold for NPP. Our results highlight the negative effects of soil N enrichment on NPP in natural grasslands super-saturated with N. Furthermore, by considering ANPP and BNPP simultaneously, our results indicate that previous findings from above-ground might have over-estimated the positive effects of N deposition on primary productivity., (© 2023 John Wiley & Sons Ltd.)

Published

2023

2. Decoupled responses of above- and below-ground stability of productivity to nitrogen addition at the local and larger spatial scale.

Author

Yang GJ, Hautier Y, Zhang ZJ, Lü XT, and Han XG

Subjects

Nitrogen, Poaceae, Ecosystem, Grassland

Abstract

Temporal stability of net primary productivity (NPP) is important for predicting the reliable provisioning of ecosystem services under global changes. Although nitrogen (N) addition is known to affect the temporal stability of aboveground net primary productivity (ANPP), it is unclear how it impacts that of belowground net primary productivity (BNPP) and NPP, and whether such effects are scale dependent. Here, using experimental N addition in a grassland, we found different responses of ANPP and BNPP stability to N addition at the local scale and that these responses propagated to the larger spatial scale. That is, N addition significantly decreased the stability of ANPP but did not affect the stability of BNPP and NPP at the two scales investigated. Additionally, spatial asynchrony of both ANPP and BNPP among communities provided greater stability at the larger scale and was not affected by N addition. Our findings challenge the traditional view that N addition would reduce ecosystem stability based on results from aboveground dynamics, thus highlighting the importance of viewing ecosystem stability from a whole system perspective., (© 2022 John Wiley & Sons Ltd.)

Published

2022