应用多种生物类群评价白洋淀水环境质量变化

白洋淀是华北平原最大的浅水湖泊。近几十年来,白洋淀上游耗水增加,天然入淀水量急剧减少,使白洋淀水位明显降低;同时,随着淀泊周边农村生活污水的排入,白洋淀发生了严重的富营养化。2017年雄安新区设立,白洋淀环境治理工作的重要性空前提高。近几年通过上游水库和跨流域生态补水,白洋淀水位明显抬升,同时淀中和淀边农村实施了生活污水收集。为了解白洋淀当前水环境状况,对前期补水和治污的效果进行评估,2019年8月对白洋淀水体理化指标及水生生物进行调查,采用水质、浮游植物、浮游动物、底栖动物指标评价白洋淀水环境质量,并与2010年的调查数据进行对比,辅以沉水植物指标评价水体生态状况。结果表明: 白洋淀2019年总磷达到优于Ⅲ类水平,总氮优于Ⅱ类水平,水环境状况比2010年有较大改善。其中,总磷浓度下降了88.6%,总氮浓度下降了83.9%,叶绿素a浓度下降了47.8%,透明度增大了43.4%;浮游动物、底栖动物等生物多样性明显提高,浮游植物密度显著降低,优势种从普遍的重富营养型转变为富营养型;沉水植物清洁型种类分布范围缩小。这说明沉水植物物种评价法不适于白洋淀水环境质量评价,浮游动物多样性评价方法也不适用于当前白洋淀水环境质量评价。早期,由于污染源集中在西部,白洋淀西部水质差于东部;现在,由于自西、北、南多方向补水,淀区的水动力条件发生显著改变,加之西部实施治污工程,淀区水质呈现空间均一化的特点。

Evaluation of eutrophication level changes in Baiyangdian Lake based on multiple biological groups

Baiyangdian Lake is the largest shallow lake in the North China Plain. Due to the increases in upstream water consumption in recent decades, the amount of natural water entering the lake has decreased, resulting in a significant drop in the water level of Baiyangdian Lake. Severe eutrophication has occurred in Baiyangdian Lake owing to the discharge of domestic sewage around the sub-lakes. With the establishment of the Xiong’an New Area in 2017, the importance of environmental governance and protection of Baiyangdian Lake has been unprecedentedly increased. The implementation of ecological water supplement from upstream reservoirs and other basins has significantly increased water level of Baiyangdian Lake. Moreover, domestic sewage from surrounding rural areas was collected. In order to understand the current state of water quality in Baiyangdian Lake, and to evaluate the effects of the previous water replenishment and pollution control projects, we investigated water physicochemical variables and aquatic organisms of Baiyangdian Lake in August 2019. We evaluated water quality status of Baiyangdian Lake based on water quality, phytoplankton, zooplankton and macrozoobenthos, by comparing with the evaluation based on the survey data in 2010. In addition, submerged macrophytes were used to evaluate the water ecological status. The results showed that the water quality state of Baiyangdian Lake in 2019 was greatly improved compared with 2010. Among them, total phosphorus concentration decreased by 88.6%, total nitrogen concentration decreased by 83.9%, chlorophyll a concentration decreased by 47.8%, and the Seechi depth increased by 43.4%. The diversity of zooplankton and macrozoobenthos were significantly increased, the density of phytoplankton was significantly reduced, the dominant species of phytoplankton changed from a general highly eutrophic type to a eutrophic type, and the distribution of the clean-type submerged macrophytes was narrowed. The evaluation methods based on submerged macrophytes species and based on zooplankton diversity were not suitable for water quality evaluation in Baiyangdian Lake. In the early stage, the pollution source of Baiyangdian Lake was concentrated in the west, which led to lower water quality. Nowadays, due to the water replenishment from the west, north and south, the hydrodynamic conditions changed significantly. In the west, pollution control projects were carried out, and the spatial distribution of water quality in Baiyangdian Lake are showing a characteristics of homogenization.