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Aboveground net primary productivity and carbon balance remain stable under extreme precipitation events in a semiarid steppe ecosystem

journal contribution
posted on 2018-07-09, 00:00 authored by YB Hao, CT Zhou, WJ Liu, LF Li, XM Kang, LL Jiang, XY Cui, YF Wang, XQ Zhou, Chengyuan XuChengyuan Xu
© 2017 Elsevier B.V. Global climate change is projected to increase both the intensity and frequency of extreme precipitation events (EPEs), which are considered to have stronger impacts on ecosystem functions than gradual changes in mean precipitation conditions. In this study, a consecutive 20-day extreme precipitation event (282 mm) was applied during the mid- and late-growing season periods in a semiarid steppe for three years to investigate the effects of extreme large precipitation events on aboveground net primary productivity (ANPP) and ecosystem carbon dioxide (CO 2 ) fluxes, including net ecosystem carbon absorption (NEE), gross primary productivity (GPP) and ecosystem respiration (Re). Although soil moisture was significantly increased by extreme precipitation, and even exceeded field capacity during the treatment periods, ANPP remained stable across all the treatments. There was also little change in mean growing season ecosystem CO 2 fluxes under the two precipitation treatments, despite GPP rates decreased by 34.4 and 26.3%, and NEE rates were suppressed by 77 and 68% during the mid- and late-season treatment periods, respectively. The stable CO 2 fluxes could be attributed to the recovery of GPP and NEE in 7 and 12 days after the end of EPEs. Our study demonstrated that both ANPP and CO 2 fluxes in this semiarid steppe were very stable in the face of extreme large precipitation events, regardless of the timing of events occur. Nevertheless, future, long-term studies need to investigate the potential tipping points or thresholds for ecosystem function shifts, as an increasing occurrence of EPEs has been forecasted in future climate change scenarios.

Funding

Category 2 - Other Public Sector Grants Category

History

Volume

240-241

Start Page

1

End Page

9

Number of Pages

9

ISSN

0168-1923

Publisher

Elsevier Masson

Peer Reviewed

  • Yes

Open Access

  • No

Acceptance Date

2017-03-11

Era Eligible

  • Yes

Journal

Agricultural and Forest Meteorology

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