Key Laboratory for Subtropical Wetland Ecosystem Research, Ministry of Education of China, School of Life Sciences, Xiamen University, Xiamen 361005, PR China.
Environ Pollut. 2010 Oct;158(10):3219-24. doi: 10.1016/j.envpol.2010.07.005. Epub 2010 Aug 10.
To assess the suitability of dendrochemistry as an indicator of soil acidification, soil chemistry and tree ring information of Abies fabri were measured at two distinct sites (severe acid deposition site-Emei Mountain and clean site-Gongga Mountain) of the subalpine forest ecosystems of western Sichuan, southwest China. The actual soil acidity (pH) was significantly correlated with some of the recent xylem cation (Ca, Mg, Mn, Al, Sr and Ba) concentrations and their molar ratios. Xylem Ca/Mg and Ca/Mn of A. fabri were ultimately selected to reconstruct the historical changes of soil pH in Emei Mountain and Gongga Mountain, respectively. The validity of those rebuild was also verified to a certain extent. We conclude that xylem cation molar ratios of A. fabri were superior to the single cation concentrations in soil acidity rebuild at the study sites due to normalizing for concentration fluctuations.
为了评估树轮化学作为土壤酸化指示物的适宜性,在中国西南部川西亚高山森林生态系统的两个截然不同的地点(严重酸沉降地峨眉山和清洁地贡嘎山),对冷杉的土壤化学和树木年轮信息进行了测量。实际土壤酸度(pH 值)与某些近期木质部阳离子(Ca、Mg、Mn、Al、Sr 和 Ba)浓度及其摩尔比显著相关。最终选择了冷杉的木质部 Ca/Mg 和 Ca/Mn 来分别重建峨眉山和贡嘎山的土壤 pH 历史变化。这些重建的有效性在一定程度上也得到了验证。我们的结论是,由于能够对浓度波动进行归一化处理,冷杉木质部阳离子摩尔比在研究地点的土壤酸度重建中优于土壤中单一阳离子浓度。