Water Resources Research Center, University of Hawaii, 2540 Dole Street, Holmes Hall 283, Honolulu, HI, 96822, USA.
Institute of Technology, Tartu University, Nooruse 1, Tartu, 50411, Estonia.
Water Res. 2017 Jun 1;116:23-33. doi: 10.1016/j.watres.2017.03.024. Epub 2017 Mar 10.
Indicator bacteria, which are conventionally used to evaluate recreational water quality, can originate from various non-human enteric and extra-enteric sources, hence they may not be indicative of human health risk nor do they provide information on the sources of contamination. In this study we utilized traditional (enterococci and Escherichia coli) and alternative (Clostridium perfringens) indicator bacteria, F-specific coliphage, molecular markers for microorganisms associated with human sewage (human-associated Bacteroides and polyomaviruses), and microbial community analysis tools (16S rRNA gene fragment amplicon sequencing), to identify and evaluate human sewage-related impact in the Manoa watershed in Honolulu, Hawaii. Elevated concentrations of enterococci (geometric mean ranging from 1604 to 2575 CFU 100 mL) and C. perfringens (45-77 CFU 100 mL) indicated impairment of the urbanized section of the stream, while indicator bacteria concentrations decreased downstream in the tidally influenced Ala Wai Canal. The threshold values triggering water quality violation notifications in Hawaii were exceeded in 33.3-75.0% of samples collected at sites in the urbanized section of Manoa Stream, but were not exceeded in any of the samples collected at an upstream site located in a forested area. Correlation between indicator bacteria concentrations and rainfall amounts was weak to moderate but significant (E. coli R = 0.251, P = 0.009; enterococci R = 0.369, P < 0.001; C. perfringens R = 0.343, P < 0.001), while concentrations of human fecal-associated molecular markers were not significantly correlated with rainfall (human-associated Bacteroides, R = 0.131, P = 0.256; human-associated polyomaviruses, R = 0.213, P = 0.464). Presence of human sewage was confirmed by detection of human-associated Bacteroides and human polyomavirus in the urbanized section of Manoa Stream (83.3-100% and 41.7-66.7% positive samples respectively). It was further confirmed by microbial community analyses which suggested that an average 2.4-3.4% of the total bacterial population in this section was associated with sewage. Microbial community profiles were significantly influenced by rainfall (R = 0.4390, P < 0.001), pH (R = 0.3077, P = 0.006), salinity (R = 0.2614, P = 0.038), and conductivity (R = 0.2676, P = 0.031). Although microbial diversity fluctuated throughout the watershed, it was lower in the impaired section. Leaking sewer systems and illegal cross-connections are implicated in the impairment of the watershed, hence both the sewer and the storm water lines should be routinely inspected. Collectively, our data suggest that information derived from the analysis of microbial communities complements current marker-based microbial source tracking techniques and environmental monitoring programs.
指示菌通常用于评估娱乐用水的质量,但它们可能来自各种非人类肠道和非肠道来源,因此它们可能不能指示人类健康风险,也不能提供有关污染来源的信息。在这项研究中,我们利用传统的(肠球菌和大肠杆菌)和替代的(产气荚膜梭菌)指示菌、F 型噬菌体、与人类污水相关的微生物的分子标记(与人类相关的拟杆菌和多瘤病毒)以及微生物群落分析工具(16S rRNA 基因片段扩增子测序),以识别和评估夏威夷火奴鲁鲁马诺阿流域的人类污水相关影响。肠球菌(几何平均值范围为 1604 至 2575 CFU 100 mL)和产气荚膜梭菌(45-77 CFU 100 mL)浓度升高表明溪流的城市化部分受损,而在受潮汐影响的阿拉瓦伊运河中,指示菌浓度在下游降低。在马诺阿溪流城市化部分采集的样本中,触发水质违规通知的阈值在 33.3-75.0%的样本中超过,但在位于森林区的上游样本中没有超过任何一个样本。指示菌浓度与降雨量之间的相关性较弱到中度,但具有统计学意义(大肠杆菌 R = 0.251,P = 0.009;肠球菌 R = 0.369,P < 0.001;产气荚膜梭菌 R = 0.343,P < 0.001),而人类粪便相关分子标记物的浓度与降雨量无显著相关性(与人类相关的拟杆菌,R = 0.131,P = 0.256;与人类相关的多瘤病毒,R = 0.213,P = 0.464)。在马诺阿溪流的城市化部分检测到与人类相关的拟杆菌和人类多瘤病毒,证实了人类污水的存在(分别为 83.3-100%和 41.7-66.7%的阳性样本)。微生物群落分析进一步证实了这一点,该分析表明这部分总细菌种群中有平均 2.4-3.4%与污水有关。微生物群落谱受降雨量(R = 0.4390,P < 0.001)、pH 值(R = 0.3077,P = 0.006)、盐度(R = 0.2614,P = 0.038)和电导率(R = 0.2676,P = 0.031)的显著影响。尽管整个流域的微生物多样性都有波动,但在受损区域较低。泄漏的污水系统和非法的交叉连接被认为是流域受损的原因,因此污水和雨水管道都应定期检查。总的来说,我们的数据表明,微生物群落分析所获得的信息补充了当前基于标记的微生物源追踪技术和环境监测计划。
