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Distribution and Source Apportionment of Polycyclic Aromatic Hydrocarbons in Soils and Leaves from High‐Altitude Mountains in Southwestern China
Author(s) -
Shi Bingfang,
Wu Qilin,
Ouyang Huixiang,
Liu Xixiang,
Ma Bo,
Zuo Weiyuan,
Chen Shengyu
Publication year - 2014
Publication title -
journal of environmental quality
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.888
H-Index - 171
eISSN - 1537-2537
pISSN - 0047-2425
DOI - 10.2134/jeq2014.04.0177
Subject(s) - soil water , environmental science , altitude (triangle) , environmental chemistry , pollution , coal combustion products , spatial distribution , hydrology (agriculture) , combustion , chemistry , soil science , ecology , geology , biology , geometry , mathematics , organic chemistry , remote sensing , geotechnical engineering
Several studies have investigated the distribution patterns and geographic sources of polycyclic aromatic hydrocarbons (PAHs) in mountainous areas. Little is known about how different sources contribute to PAH concentrations at different elevations along mountain slopes. To estimate the distribution and sources of PAHs at different altitudes in mountainous areas of southwestern China, samples of soils and leaves from Keteleeria trees were collected from 1000 to 1500 m asl in the Dawangling forest and analyzed for PAHs. Total PAH concentrations ranged from 93.9 to 802.3 ng g −1 (average, 252.3 ng g −1 ) in soils and from 4.1 to 100.9 ng g −1 (average, 23.1 ng g −1 ) in leaves. Our results suggest that soil PAH levels in the study area could be classified as “weakly contaminated.” The PAH levels in leaves from the Dawangling forest were lower than those found in Himalayan spruce needles from the central Himalayas in China and from an agricultural station in southern England. Total PAHs in the Dawangling forest soils increased with elevation, primarily due to the low‐molecular‐weight PAHs, which accumulated in samples from higher altitudes. In contrast, high‐molecular‐weight PAHs were inversely related to or unrelated to elevation. The PAH profiles were similar in soils and leaves from all mountainous regions. Diagnostic ratios showed that the PAHs in soils at different altitudes were from different pollution emission sources; therefore, PAHs in the entire study area were probably derived from mixed sources. Cluster analyses confirmed that liquefied petroleum gas, coal/wood combustion, and petroleum combustion were likely the predominant PAH sources in this region.