Visible injury and growth inhibition of black pine in relation to oxidative stress in industrial areas
2010
Han, S.H., Korea Forest Research Institute, Suwon, Republic of Korea | Kim, D.H., Korea Forest Research Institute, Suwon, Republic of Korea | Ku, J.J., Korea National Arboretum, Pocheon, Republic of Korea | Byun, J.K., Korea Forest Research Institute, Seoul, Republic of Korea | Lee, J.C., Korea Forest Research Institute, Suwon, Republic of Korea
The objective of our study was to investigate the major reasons for the different growth and visible injury on the needles of black pine growing in Ulsan and Yeocheon industrial complex areas, South Korea. After 12 years of growth, we collected climatic and air pollutant data, and analyzed soil properties and the physiological characteristics of black pine needles. Annual and minimum temperatures in Ulsan were higher than those in Yeocheon from 1996 to 2008. Ozone (O₃) was the pollutant in greatest concentration in Yeocheon, and whereas the SO₂ concentration in most areas decreased gradually during the whole period of growth, SO₂ concentration in Yeocheon has increased continuously since 1999, where it was the highest out of four areas since 2005. Total nitrogen and cation exchange capacity in Yeocheon soil were significantly lower than those of Ulsan. The average growth of black pine in Yeocheon was significantly smaller than that in Ulsan, and the growth of damaged trees represented a significant difference between the two sites. Photosynthetic pigment and malondialdehyde content and antioxidative enzyme activity in the current needles of black pine in Yeocheon were not significantly different between damaged and healthy trees, but in 1-year-old needles, there were significant differences between damaged and healthy trees. In conclusion, needle damage in Yeocheon black pine can be considered the result of long-term exposure to oxidative stress by such as O₃ or SO₂, rather than a difference in climatic condition or soil properties, and the additional expense of photosynthate needed to overcome damage or alleviate oxidative stress may cause growth retardation.
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