论文
论文标题: In situ enclosure experiments on the occurrence, development and decline of black bloom and the dynamics of its associated taste and odor compounds
作者: Yu, Dezhao; Xie, Ping; Zeng, Cheng; Xie, Lijuan; Chen, Jun
出版刊物: ECOLOGICAL ENGINEERING
出版日期: FEB
出版年份: 2016
卷/期:
DOI: 10.1016/j.ecoleng.2015.11.039
论文摘要: Black bloom has an offensive odor (caused by, e.g., dimethyl sulfide, DMS; dimethyl disulfide, DMDS; and dimethyl trisulfide, DMTS) and disastrous consequences for natural limnic ecosystems worldwide. However, research on black bloom and its taste and odor (T&O) compounds has been limited by the difficulty of predicting the time and location of black bloom events. Therefore, the occurrence, development and decline of black bloom and the dynamics of T&O compounds in each stage of black bloom were examined in Meiliang Bay, Lake Taihu, through an in situ enclosure (2.5 m x 2.5 m) simulation experiment with various levels of cyanobacterial biomass (0 g m(-2), 1500 g m(-2), 7500 g m(-2) and 15,000 g m(-2), fresh weight). The principal odor-related substances and the physicochemical parameters were analyzed every two or three days. Black blooms occurred in the moderate (7500 g m(-2)) and high (15,000 g m(-2)) cyanobacterial biomass treatments concurrently on day 5 but did not occur in the low cyanobacterial biomass (1500 g m(-2)) treatment or in the control group (0 g m(-2)). Thus, black bloom could be induced by the decay of dense cyanobacterial populations under suitable meteorological and hydrographic conditions. As the extent of black bloom increased, the concentrations of nutrients (e.g., ammonium nitrogen and total phosphorus), odorous compounds, and total divalent anionic sulfur and the duration of low dissolved oxygen levels increased, whereas the pH decreased. In addition, linear regression analysis revealed that the concentrations of odorous compounds in the water column were significantly correlated with changes in certain physicochemical parameters (e.g., chlorophyll a, pH) and these changes were mainly induced by the breakdown of the cyanobacterial bloom. Overall, our study revealed that (i) the extent of black bloom (e.g., level of black water color, concentrations of offensive odor compounds and duration) is strongly influenced by cyanobacterial biomass; and (ii) extremely high concentrations of T&O compounds may originate from the decomposition of cyanobacteria. (C) 2015 Elsevier B.V. All rights reserved.
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