Abstract
Global warming has a known impact on ecosystems but there is a lack of understanding about its impact on ecosystem processes. Net ecosystem productivity (NEP) and its components play a key part in the global carbon cycle. Analysing the impact of global warming on NEP will improve our understanding of how warming affects ecosystems. In our study, conducted in 2018, five warming treatments were manipulated (0 W, 500 W, 1000 W, 1500 W, and 3000 W) using three repetitions of far infrared open warming over a paddy field in Northeast China. NEP and its two related components, gross primary productivity (GPP) and ecosystem respiration (ER), were measured using the static chamber-infrared gas analyser method to explore the effects of different warming magnitudes on NEP. Results showed that measurement dates, warming treatments, and their interactions significantly affected NEP, ER, and GPP. Warming significantly increased NEP and its components but they showed a non-linear response to different warming magnitudes. The maximum increases in NEP and its components occurred at 1500 W warming. NEP is closely related to its components and the non-linear response of NEP may have primarily resulted from that of GPP. Gradient warming non-linearly increased GPP in the paddy field studied in Northeast China, resulting in the non-linear response of NEP. This study provides a basis for predicting the responses of carbon cycles in future climate events.
Highlights
Global warming is a widely accepted and validated phenomenon (Ma et al, 2017)
Different warming magnitudes resulted in significant differences in Net ecosystem productivity (NEP)
The highest NEP appeared at 1500 W warming (W3), corresponding to a temperature increase of 1.37 ◦C, with an NEP increase of 6.01 μmol m−2 s−1
Summary
Global warming is a widely accepted and validated phenomenon (Ma et al, 2017). The latest World Meteorological Organization (WMO) statement (https://library.wmo.int/ doc_num.php?explnum_id=5789) suggests that the global mean temperature for 2018 is 0.99 ± 0.13 ◦C higher than that of the preindustrial baseline (1850–1900) and was the fourth warmest on record. 2015 to 2018 were the four warmest years in the global temperature record (WMO, 2019). Understanding the impacts of warming on ecosystems may provide a theoretical basis for mitigating climate change, which is a pressing ecological issue (Fu, Niu & Zhao, 2005). Temperature increases are shown to impact the community structure Non-linear responses of net ecosystem productivity to gradient warming in a paddy field in Northeast China.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
