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白洋淀沉水植物腐解释放溶解性有机物光谱特性 被引量:23

The spectra characterization on dissolved organic matter of submerged plant decomposition in Lake Baiyangdian
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摘要 利用水生植物修复受污染水体中,水生植物在秋冬季节腐烂分解会释放大量溶解性有机物(DOM),DOM可影响水环境中污染物的迁移转化,对水体中的化学和生物过程产生一定影响。因此利用紫外可见光光谱(UV-vis)结合平行因子分析法(PARAFAC)和主成分分析法(PCA)来表征和分析水生植物腐解产物中DOM的组分及其特点。UV-vis的研究表明随着腐解时间的增加,样品中DOM的腐殖化程度逐渐升高,当腐殖化程度达到最高值时,腐解进入矿化阶段,此时腐殖化程度逐渐降低。通过PARAFAC分析可以分离出3种类蛋白组分(C1、C2和C5)和2种类腐殖酸组分(C3和C4)。由PCA可以得出在腐解初期,类蛋白组分占据主导地位;随着腐解时间的增加,类蛋白组分含量逐渐降低,而类腐殖酸组分含量逐渐升高。 Urban polluted landscape water was purified by macrophytes that absorb nutrients and degrade pollutants. However, macrophytes are decomposed in autumn and winter, affecting water quality since they release the absorbed nutrients and pollutants back into the environment. Meanwhile, dissolved organic matter (DOM) released by decomposing macrophytes sharply increases organic pollutants. Previous studies focused on the macrophyte-purified water, biodiversity maintenance of landscape water, and eco-culture lineage, but just a few of them studied the negative effects of urban polluted landscape water purified by macrophytes. DOM is a complex mixture of compounds, most of which remain unknown, because it is hard to separate and characterize them. These compounds affect the distribution of pollutants, such as heavy metals and organic pollutants that react with DOM to form an even more complex mixture. Lake Baiyangdian is one of the largest lakes in north China that serves as an aquaculture and aquatic natural reserve, and contributes to the adjustment of the surrounding climate and carbon cycling. In this study, we investigated the effect of DOM released by macrophyte decomposition during the winter in Lake Baiyangdian, where mounts of phytoplankton, emergent aquatic plants, and submerged plants are grown. We used UV-vis and fluorescence spectra combined with Parallel Factor (PARAFAC) and Principal Component Analysis (PCA) to study DOM released by macrophyte decomposition and reveal its humification degree, aromatic degree, and molecular weight. UV-vis results indicated that the number of plants positively affected the number of carboxyl, carbonyl, and esters groups in DOM molecular composition. The humification degree increased with increasing decomposition time, but it decreased after reaching the peak value, probably because decomposition process entered into the mineralization phase. PARAFAC provided more detailed information on the components in DOM samples that hardly detected by traditional peak picking. Five components were identified by PARAFAC, including 3 protein-like components (C1, C2, and C5) and 2 humic-like acid components (C3 and C4). C1 was classified as tyrosine-like group, C2 and C5 were classified as tryptophan-like groups, C4 was dominated by humic-like acid, and C3 was a combination of marine and terrestrial humic-like acids. Correlation analysis showed that C3 was significant positive correlated with C4, as well as C1, C2 with C5, results that indicated the close relationship of protein-like substances with humic-like acids. PCA provided information on the contribution of components in DOM samples. The results showed a relatively high factor 1 score in the beginning of decomposition, indicating that the protein-like substances were dominant. During the process of decomposition, the proportion of protein-like substances decreased and the humic-like substances increased. At the end of decomposition, the humic-like acids had a relative high proportion and were dominant in DOM samples
出处 《生态学报》 CAS CSCD 北大核心 2016年第19期6308-6317,共10页 Acta Ecologica Sinica
基金 国家自然科学基金资助项目(51578037,51209003)
关键词 水生植物腐解 溶解性有机物(DOM) 平行因子(PARAFAC) 主成分分析(PCA) 光谱特性 macrophyte decomposition dissolved organic matter ( DOM ) parallel factor analysis ( PARAFAC ) principle component analysis (PCA) spectra characterization
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