O3浓度升高对银杏及油松BVOCs排放的影响

以生长在沈阳市区内的银杏及油松为试材,开顶式熏气室模拟升高O₃浓度（80 nmol·mol^-1）和正常大气O₃浓度（≈30 nmol·mol^-1）条件,采用GC-FID技术对银杏及油松的异戊二烯和7种单萜类物质的排放速率进行测定,探讨高浓度O₃对单株银杏及油松挥发性有机物排放规律的影响.结果表明,O₃浓度增高可以显著提高银杏和油松的异戊二烯排放速率（p＜0.05）,及银杏Δ3-蒈烯的排放速率（p＜0.05）,其分别达到1.96、 9.71和0.09 μg·(g·h)^-1,而对于其他单萜物质的排放速率,2种树木对高浓度的O₃熏蒸均没有表现出显著的变化;树种不同,排放的BVOCs组成也不同,自然条件下银杏排放的BVOCs以异戊二烯为主,而油松以α-蒎烯为主;高浓度O₃熏蒸下油松释放的异戊二烯达到其BVOCs组成的64.73%,增加大气O₃浓度改变了树木挥发性有机物的组成比例.因此,O₃浓度升高对银杏及油松BVOCs排放规律具有显著影响.

Effects of Elevated O3 on the Volatile Organic Compounds Emit from Ginkgo biloba and Pinus tabulaeformis

To study the impact of elevated tropospheric O3 concentrations on BVOCs emissions by Pinus tabulaeformis and Ginkgo biloba in urban area, the trees were exposed in open-top chambers. Two ozone treatments were established: ambient air (approximately 30 nmol x mol(-1) ) (CK) and elevated O3 concentrations (80 nmol x mol(-1) ) (O3 ). Elevated O3 concentrations significantly induced isoprene to emit for Pinus tabulaeformis and Ginkgo biloba (p < 0.05), and delta3-carene for Ginkgo biloba (p < 0.05). The emission rates were increased to 1.96, 9.71 and 0.09 microg/(g x h) (-1), respectively. There were no significant differences between ozone fumigation treatments for the other monoterpenes. At the same time, the relative abundances of the monoterpenes and isoprene were to be different between tree species and effect by O3 exposure. In CK chambers, the dominate BVOCs emitted by Ginkgo biloba was isoprene, and a-pinene for Pinus tabulaeformis. In the elevated O3 chambers, the isoprene accounted for 64.73% of Pinus tabulaeformis BVOCs. To sum up, the BVOCs emitting patterns were influenced by elevated O3 significantly.