Soil warming effect on net ecosystem exchange of carbon dioxide during the transition from winter carbon source to spring carbon sink in a temperate urban lawn

The significant warming in urban environment caused by the combined effects of global warming and heat island has stimulated widely development of urban vegetations. However, it is less known of the climate feedback of urban lawn in warmed environment. Soil warming effect on net ecosystem exchange (...

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Bibliographic Details
Published in:Journal of environmental sciences (China) 2012-12, Vol.24 (12), p.2104-2112
Main Authors: Zhou, Xiaoping, Wang, Xiaoke, Tong, Lei, Zhang, Hongxing, Lu, Fei, Zheng, Feixiang, Hou, Peiqiang, Song, Wenzhi, Ouyang, Zhiyun
Format: Article
Language:English
Subjects:
Carbon
Carbon dioxide
Carbon Dioxide - metabolism
Cell Respiration
China
Cities
Climate Change
CO2 uptake
Ecosystem
ecosystem respiration
Ecosystems
Global warming
Hot Temperature
Photosynthesis
Poaceae - metabolism
Respiration
Seasons
Soil
Soil (material)
soil warming
urban lawn
二氧化碳
全球变暖
冬季
城市环境
温带
生态系统呼吸
碳源
草坪土壤
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Summary:The significant warming in urban environment caused by the combined effects of global warming and heat island has stimulated widely development of urban vegetations. However, it is less known of the climate feedback of urban lawn in warmed environment. Soil warming effect on net ecosystem exchange (NEE) of carbon dioxide during the transition period from winter to spring was investigated in a temperate urban lawn in Beijing, China. The NEE (negative for uptake) under soil warming treatment (temperature was about 5~C higher than the ambient treatment as a control) was -0.71 ~mol/(m2.sec), the ecosytem was a CO2 sink under soil warming treatment, the lawn ecosystem under the control was a CO2 source (0.13 Ixmol/(mE.sec)), indicating that the lawn ecosystem would provide a negative feedback to global warming. There was no significant effect of soil warming on nocturnal NEE (i.e., ecosystem respiration), although the soil temperature sensitivity (Q10) of ecosystem respiration under soil warming treatment was 3.86, much lower than that in the control (7.03). The CO2 uptake was significantly increased by soil warming treatment that was attributed to about 100% increase of ct (apparent quantum yield) and Amax (maximum rate of photosynthesis). Our results indicated that the response of photosynthesis in urban lawn is much more sensitive to global warming than respiration in the transition period.
ISSN:1001-0742
1878-7320
DOI:10.1016/S1001-0742(11)61057-7