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淮河干流及主要支流夏季浮游植物群落生物多样性评价 总被引:6,自引:0,他引:6
浮游植物是水生态系统的重要组成部分,其群落变化与水体环境条件密切相关,是反映河流健康的主要生物指标.为揭示淮河流域浮游植物群落特征及其与水质的相互关系,于2015年夏季对淮河流域典型水体—淮河干流、沙颍河、涡河和淠河进行系统的水质及浮游植物调查,探明浮游植物群落及其空间分布特征,并结合水体理化指标和生物指数进行水质评价.结果表明,淮河干流及主要支流27个点位中共获得浮游植物8门71属153种,主要隶属于绿藻门(Chlorophyta)、硅藻门(Bacillariophyta)、蓝藻门(Cyanophyta).浮游植物密度为0.019×10~5~131.824×10~5ind·L~(-1),不同河段浮游植物分布表现出较为显著的空间差异性,平均密度大小呈现沙颖河淮河干流涡河淠河的特点.非参数多维尺度分析(Non-metric Multidimensional Scaling,NMDS)表明,淮河干流、淠河和涡河的浮游植物群落组成和结构的相似性较高,而与沙颍河的浮游植物群落存在一定的差异.Shannon多样性指数H'介于0.78~3.21之间,Margalef丰富度指数D介于1.03~4.79之间,Pielou均匀度指数J介于0.12~0.73之间.水质生物评价结果显示,淮河流域大部分水体处于中等污染状况,部分点位处于重污染状况,其结果与水质综合污染指数评价结果具有较好的一致性.研究结果可为淮河水污染防治和水生态修复提供基础依据. 相似文献
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抗生素的大量使用和排放造成的环境污染和生态风险问题日益突出,抗生素排放量的估算是评价流域内抗生素污染程度的重要指标,但目前抗生素排放量估算方法尚不完善。本研究以梅江流域为例,建立了适合小流域尺度的典型抗生素排放量估算方法,计算了四环素类抗生素(TCs)向不同环境相的排放量并分析了其主要来源。结果表明:2016年梅江流域TCs排放量为8 558.1 kg,不同行政区抗生素排放量差异较大,其中梅江镇受人口密度及养殖密度影响,抗生素排放量最大,高达1 224.4 kg;同时流域内不同抗生素的排放量也有所不同,其大小顺序为强力霉素(DXC)土霉素(OTC)四环素(TC)金霉素(CTC);TCs受排放源、排放途径等因素影响,以进入环境水相及土壤相为主,其中进入水相中的抗生素主要来自人类及生猪粪便,进入土壤相中的抗生素主要来自生猪及三黄鸡粪便。梅江小流域抗生素具有潜在的生态风险,应加强抗生素使用管理。该研究为我国小尺度流域目标抗生素排放量的估算提供了十分有效的方法。 相似文献
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三峡水库三期蓄水前后长江口硅酸盐分布及其比值变化 总被引:1,自引:1,他引:0
河口SiO2--Si浓度的变化直接影响到水体的营养盐结构和生态系统.根据2010年8月、11月和2011年5月的现场调查资料,对长江口区域一个水文年(跨三峡水库三期蓄水)硅酸盐的分布特征和变化趋势进行了分析.结果表明,长江口及其邻近海域硅酸盐分布与盐度分布极其相似,整体呈现近岸高、外海低的特点;截取一断面分析发现存在上升流,硅酸盐等值线有抬升趋势.3个季节硅酸盐平面分布各有其季节性特点,但总体浓度夏季高于秋季,秋季高于翌年春季;在整个调查区域SiO32--Si/DIN值是10月>8月>5月,而SiO32--Si/PO43--P值是5月>8月>10月;3个季节SiO32--Si浓度与盐度都呈显著负相关关系.与历史资料比较得出,2010-2011年长江口海域营养盐比值小于2004年,也小于1985-1986年,可见三峡工程蓄水对长江口SiO32--Si/DIN、SiO32--Si/PO43--P降低的影响. 相似文献
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Water supply is the primary element of an urban system. Due to rapid urbanization and water scarcity, maintaining a stable and safe water supply has become a challenge to many cities, whereas a large amount of water is lost from the pipes of distribution systems. Water leakage is not only a waste of water resources, but also incurs great socio-economic costs. This article presents a comprehensive review on the potential water leakage control approaches and specifically discusses the benefits of each to environmental conservation. It is concluded that water leakage could be further reduced by improving leakage detection capability through a combination of predictive modeling and monitoring instruments, optimizing pipe maintenance strategy, and developing an instant pressure regulation system. The environment could benefit from these actions because of water savings and the reduction of energy consumption as well as greenhouse gas emissions. 相似文献
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太湖西部河网中沉积物氮的空间分布特征 总被引:4,自引:0,他引:4
选取太湖主要入湖水系(西苕溪水系和宜溧-洮滆水系)为研究对象,于2014年1月完成水体及表层沉积物各102个样品的采集,分析了沉积物中氮(N)不同形态的空间分布特征及其影响因素.结果表明,西苕溪水系表层沉积物总氮(TN)含量高于宜溧-洮滆水系,均值分别为2164.91 mg·kg~(-1)和983.52 mg·kg~(-1),两个水系间沉积物TN含量存在显著差异.西苕溪和宜溧-洮滆两个水系沉积物中无机氮(IN)以氨氮(NH+4-N)为主,平均含量分别为120.90 mg·kg~(-1)和49.85 mg·kg~(-1),而硝态氮(NO_3~--N)平均含量仅为9.60 mg·kg~(-1)和13.95 mg·kg~(-1).沉积物中有机氮(ON)含量及分布与TN相似,西苕溪和宜溧-洮滆水系ON均值分别为2034.41 mg·kg~(-1)和917.77 mg·kg~(-1),占各自TN的百分比分别为93.90%和92.99%.表层沉积物各形态N之间及与上覆水体之间均具有显著的相关性,表明沉积物与上覆水之间的浓度梯度可能会驱动IN向上覆水体进行释放. 相似文献
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拦河筑坝对河流中汞的输运产生重要影响,但有关高海拔落差河流中汞的来源及输运特征的认识较为匮乏.以澜沧江为研究对象,监测了筑坝河段水体中汞浓度的年时空变化过程(2017—2018),量化了梯级水库对汞沿程输运的影响.结果表明,澜沧江水体中汞浓度总体与径流的季节分配呈同步变化趋势,但在上下游因土地利用类型的差异而呈现相反的季节性变化特征.因水库的拦截,溶解态汞与总汞的比值沿程呈上升趋势,加之水库泄水量的沿程增加,共同导致了河流汞通量自上游至下游呈非连续累积的趋势,从144 kg·a-1增加至788 kg·a-1.相应地,梯级水库对汞的拦截率自上游至下游由88%逐渐降低至65%.该项研究丰富了对梯级水库中汞的补给和输运的认识. 相似文献
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Jianwei Dong Dandan Yan Kangle Mo Qiuwen Chen Jianyun Zhang Yuchen Chen Zhiyuan Wang 《环境科学学报(英文版)》2022,34(5):374-382
The livestock breeding industries face overuse of antibiotics, which has been intensively studied in recent years. However, the occurrence and fate of antibiotics as well as their potential threats to the aquatic environments in alpine and arid regions remain unclear. This study investigated the relationship of the occurrence and concentrations of antibiotics between the Kaidu River and Bosten Lake in a typical alpine basin in China. Hot spots with antibiotic pollution source were explored. The antibiotic concentrations in river water and suspended sediment (SPS) were 2.20-99.4 ng/L and 1.03-176 ng/g. The dominant antibiotics were tetracyclines, sulphacetamide, and ofloxacin in river water and sulfonamides, clarithromycin, roxithromycin, and ofloxacin in SPS. The apparent differences in pollution sources and landscapes in different reaches led to the obvious spatial patterns of antibiotics in the Kaidu River. Higher partition coefficient of antibiotic between SPS and water phases for sulfonamides than tetracyclines was because that tetracyclines strongly responded to clay contents while sulfonamides significantly responded to organic carbon contents in SPS. There were significant differences in detected antibiotic categories between the river and the lake. Fluoroquinolones (especially ciprofloxacin and enrofloxacin) were detected in the lake while sulphacetamide was only detected in the river. Therefore, the surrounding husbandry and aquaculture around the Bosten Lake was an important antibiotic pollution source in addition to inputs from the Kaidu River. This research suggested that alpine lakes could be an important sink of antibiotics in alpine dry regions, and thus impose greater threats to the aquatic ecosystem. 相似文献