State Key Laboratory of Pollution Control & Resource Reuse, School of the Environment, Nanjing University, Nanjing, 210003, China.
Department of Ocean Environmental Sciences, Chungnam National University, Daejeon 34134, Republic of Korea.
Chemosphere. 2017 Apr;172:166-174. doi: 10.1016/j.chemosphere.2016.12.121. Epub 2016 Dec 26.
Benthic communities in the aquatic ecosystem are influenced by both natural and anthropogenic stressors. To understand the ecogenomic responses of sediment communities to the multiple stressors of polluted environments, the bacteria, protistan and metazoan communities in sediments from marine and adjacent riverine areas of North Bohai Sea were characterized by environmental DNA meta-systematics, and their associations with environmental variables were assessed by multiple statistical approaches. The bacterial communities were dominated by Firmicutes (mean 22.4%), Proteobacteria (mean 21.6%) and Actinobacteria (mean 21.5%). The protistan communities were dominated by Ochrophyta (33.7%), Cercozoa (18.9%) and Ciliophora (17.9%). Arthropoda (71.1%) dominated the metazoan communities in sediments. The structures of communities in sediments were shaped by both natural variables (spatial variability and/or salinity (presented as Na and Ca)) and anthropogenic contaminants, including DDTs, PAHs or metals (Cu, Al, Co, Cr, Cu, Fe, K, Mg, Mn, Ni and Zn). Particularly, the correlation network of multiple communities was modulated by the concentrations of Na and DDTs at the family level. Overall, environmental DNA meta-systematics can provide a powerful tool for biomonitoring, sediment quality assessment, and key stressors identification.
水生态系统中的底栖生物群落受到自然和人为胁迫的影响。为了了解受污染环境中多种胁迫因素对沉积物群落的生态基因组响应,本研究采用环境 DNA 元系统学方法对来自渤海北部海洋和相邻河流区的沉积物中的细菌、原生动物和后生动物群落进行了描述,并通过多种统计方法评估了它们与环境变量的关系。细菌群落主要由厚壁菌门(平均 22.4%)、变形菌门(平均 21.6%)和放线菌门(平均 21.5%)组成。原生动物群落主要由黄藻门(33.7%)、肉足虫门(18.9%)和纤毛门(17.9%)组成。节肢动物(71.1%)是沉积物中后生动物群落的主要组成部分。沉积物中群落的结构受到自然变量(空间变异性和/或盐度(以 Na 和 Ca 表示))和人为污染物(包括 DDTs、PAHs 或金属(Cu、Al、Co、Cr、Cu、Fe、K、Mg、Mn、Ni 和 Zn))的共同影响。特别是,在科水平上,Na 和 DDTs 的浓度调节了多个群落的相关网络。总的来说,环境 DNA 元系统学可以为生物监测、沉积物质量评估和关键胁迫因素识别提供有力工具。
