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Comparison of crop yield sensitivity to ozone between open-top chamber and free-air experiments

Artikel i vetenskaplig tidskrift
Författare Z. Z. Feng
Johan Uddling
H. Y. Tang
J. G. Zhu
K. Kobayashi
Publicerad i Global Change Biology
Volym 24
Nummer/häfte 6
Sidor 2231-2238
ISSN 1354-1013
Publiceringsår 2018
Publicerad vid Institutionen för biologi och miljövetenskap
Sidor 2231-2238
Språk en
Länkar https://doi.org/10.1111/gcb.14077
Ämnesord crop yield, FACE, open-top chamber, ozone, sensitivity, elevated carbon-dioxide, soybean cultivars, sulfur-dioxide, surface, ozone, winter-wheat, ambient air, food crops, growth, impact, field, Biodiversity & Conservation, Environmental Sciences & Ecology
Ämneskategorier Miljövetenskap, Ekologi

Sammanfattning

Assessments of the impacts of ozone (O-3) on regional and global food production are currently based on results from experiments using open-top chambers (OTCs). However, there are concerns that these impact estimates might be biased due to the environmental artifacts imposed by this enclosure system. In this study, we collated O-3 exposure and yield data for three major crop species-wheat, rice, and soybean-for which O-3 experiments have been conducted with OTCs as well as the ecologically more realistic free-air O-3 elevation (O-3-FACE) exposure system; both within the same cultivation region and country. For all three crops, we found that the sensitivity of crop yield to the O-3 metric AOT40 (accumulated hourly O-3 exposure above a cut-off threshold concentration of 40 ppb) significantly differed between OTC and O-3-FACE experiments. In wheat and rice, O-3 sensitivity was higher in O-3-FACE than OTC experiments, while the opposite was the case for soybean. In all three crops, these differences could be linked to factors influencing stomatal conductance (manipulation of water inputs, passive chamber warming, and cultivar differences in gas exchange). Our study thus highlights the importance of accounting for factors that control stomatal O-3 flux when applying experimental data to assess O-3 impacts on crops at large spatial scales.

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