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1. Brodribb, T. J., Feild, T. S., & Jordan, G. J. (2007). Leaf maximum photosynthetic rate and venation are linked by hydraulics. Plant physiology, 144(4), 1890-1898.

https://doi.org/10.1104/pp.107.101352

2. Brodribb, T. J., & McAdam, S. A. (2013). Abscisic acid mediates a divergence in the drought response of two conifers. Plant physiology, 162(3), 1370-1377.

https://doi.org/10.1104/pp.113.217877

3. Kwak, M. J., Lee, J., Kim, H., Park, S., Lim, Y., Kim, J. E., ... & Woo, S. Y. (2019). The removal efficiencies of several temperate tree species at adsorbing airborne particulate matter in urban forests and roadsides. Forests, 10(11), 960.

https://doi.org/10.3390/f10110960
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https://scholar.google.co.kr/scholar?hl=ko&as_sdt=0%2C5&q=elevated+co2+root+n+uptake&btnG=#d=gs_qabs&u=%23p%3DivakgYtmXQUJ Increases in nitrogen uptake rather than nitrogen-use efficiency support higher rates of temperate forest productivity under elevated CO2
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Kwak, M. J., Lee, J. K., Park, S., Kim, H., Lim, Y. J., Lee, K. A., ... & Woo, S. Y. (2020). Surface-Based Analysis of Leaf Microstructures for Adsorbing and Retaining Capability of Airborne Particulate Matter in Ten Woody Species.Forests,11(9), 946. https://www.mdpi.com/1999-4907/11/9/946