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  • Title: [Effect of particulate size and composition on the biodegradation of PAHS in nature waters].
    Author: Wang R, Xia XH, Meng LH.
    Journal: Huan Jing Ke Xue; 2006 May; 27(5):855-61. PubMed ID: 16850822.
    Abstract:
    Effect of particulate size and composition on the biodegradation of polycyclic aromatic hydrocarbons(PAHs) in nature waters was examined. Experimental study was carried out for the Yellow River. The results showed that the biodegradation of benzo[a] pyrene and chrysene in water system could be fitted with one-order kinetics and the existence of particulates promoted the biodegradation. When the particulate content was 4 g/L, the sequence of increasing trend in the PAH biodegradation rates was: water system with middle size particulates (7-25 microm) > water system with small size particulates (<7 microm) > water system with large size particulates (>25 microm). The biodegradation rate constants for benzo[a]pyrene in water systems with middle, small and large size particulates were 0.0248 d(-1), 0.0212 d(-1), 0.0192 d(-1), respectively, and that for chrysene were 0.0288 d(-1), 0.0261 d(-1), 0.0218 d(-1), respectively. The mechanisms regarding the effects of particulate size on the biodegradation of PAHs include several aspects. First, the particulate size and composition affected the PAHs degraders level in water system as well as the distribution of PAHs degraders in water and particulate phases. The population of PAHs-degraders in water systems with middle and small size particulates was higher than that with large size particulates. Second, PAHs tended to be sorbed on the particulate phase, and the desorption of PAHs from the particulate phase would lead to a higher concentration of PAHs in the interface between water and particulate phases. Since the PAHs-degraders also tended to grow in the interface between water and particulate phases, this would result in a higher contact chances for PAHs and PAHs-degraders. Therefore, the existence of particulates stimulated the biodegradation of PAHs in water system. Third, the sorption capacity of PAHs and PAHs-degraders on the middle and small size particulates was higher than that on the large size particulates. Consequently, the biodegradation rates of PAHs in water systems with middle and small size particulates were higher than that with large size particulates. However, the desorption capacity of PAHs from middle size particulates was higher than that from small size particulates, leading to that PAHs concentration in the water/particulate interface of the former system was higher than that of the latter system. Therefore, the biodegradation rates of PAHs in water system with middle size particulates were higher than that with small size particulates.
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