太原汾河景区跨桥断面水体污染的时空变化模式研究

选取太原汾河景区跨桥断面8个监测点,在2012年3月—2013年10月期间对河流8项水质参数进行监测,并结合派生的水体综合污染指数及主成分分析方法分析和评价景区水污染时空变化特征。结果表明,景区水质污染变化时空差异明显,上游污染相对较小,下游污染较重;春季溶解氧和p H值变化幅度最大,夏季除总氮和氨氮外,其他各污染物均有显著变化特征,秋季则以氨氮、总氮和总磷变化最为显著。主成分分析结果显示,虽然各监测点水体污染的关键影响因子不同,但总磷是太原市河流水体污染的共同解释因子。     

The distribution of Cs, K, Rb and Cs in plants in a Sphagnum-dominated peatland in eastern central Sweden

We record the distribution of ¹³⁷Cs, K, Rb and Cs within individual Sphagnum plants (down to 20 cm depth) as well as ¹³⁷Cs in vascular plants growing on a peatland in eastern central Sweden. In Calluna vulgaris¹³⁷Cs was mainly located within the green parts, whereas Andromeda polifolia, Eriophorum vaginatum and Vaccinium oxycoccos showed higher ¹³⁷Cs activity in roots. Carex rostrata and Menyanthes trifoliata showed variable distribution of ¹³⁷Cs within the plants. The patterns of ¹³⁷Cs activity concentration distribution as well as K, Rb and Cs concentrations within individual Sphagnum plants were rather similar and were usually highest in the capitula and/or in the subapical segments and lowest in the lower dead segments, which suggests continuous relocation of those elements to the actively growing apical part. The ¹³⁷Cs and K showed relatively weak correlations, especially in capitula and living green segments (0-10 cm) of the plant (r = 0.50). The strongest correlations were revealed between ¹³⁷Cs and Rb (r = 0.89), and between ¹³⁷Cs and stable Cs (r = 0.84). This suggests similarities between ¹³⁷Cs and Rb in uptake and relocation within the Sphagnum, but that ¹³⁷Cs differs from K.     

磁性Fen+@GO非均相Fenton催化氧化亚甲基蓝

采用化学共沉淀法制备了磁性Feⁿ⁺@GO（MFGO）纳米复合材料,并将其用于非均相Fenton催化氧化亚甲基蓝（MB）.扫描电镜、透射电镜和光电子能谱分析表明,催化活性粒子（Feⁿ⁺/铁氧化物）成功负载在GO表面.实验研究了pH值、H₂O₂初始浓度、催化剂投加量等因素对MB降解效果的影响.结果表明,H₂O₂、MFGO和H₂O₂+MFGO体系在反应120min后,MB降解率分别达到7.83%、25.58%和99.19%;在优化条件为H₂O₂浓度0.79mol/L、MFGO用量0.75g/L、pH值8时,MB降解率可达99.90%;在pH值为3~11范围内,MB降解率均在99%以上;MFGO经过6次重复使用后对MB的降解率仍可达到95.08%,是一种pH值响应宽、可磁分离回收的新型非均相催化剂.     

汾河底泥耗氧速率测试

以汾河运城段几个县界断面底泥和水质为实验目标,采用实验室测定方法,分别对在平水期、枯水期的底泥耗氧(SOD)速率进行测试,并对测试条件进行优化,对结果进行分析。研究表明,无论枯水期还是平水期,SOD总体变化趋势与河流水质污染(化学需氧量、氨氮)趋势基本一致。     

调水和季节变化对河流沉积物古菌群落的影响

采用高通量测序方法分析了汾河引黄河段沉积物中古菌群落的组成、相对丰度、多样性,及其与环境因子之间的相关性,揭示引黄调水和季节变化对古菌群落结构的影响.结果表明：冬季时水体SO₄^2-、Cl^-、Na⁺、K⁺等离子浓度、EC、TDS （总溶解固体含量）、沉积物碱解氮和速效磷含量是影响古菌群落结构的主要环境因子,夏季时沉积物pH值、有机质和速效磷含量是主要环境因子.黄河水汇入后河流沉积物中出现了上游未检测到的古菌类群,如TMEG （norank_f_Terrestrial_Miscellaneous_Group）、洛基古菌等.引黄还可以使甲烷杆菌和海洋古菌等在不适宜其生存的时期活跃起来,丰度明显增加.冬季引黄河段古菌数量增加,多样性提高,夏季则相反.季节变化改变了古菌群落的空间相似关系,然而引黄的贡献较季节变化大.研究河段沉积物中古菌群落组成丰富,包含多种至今未被分类定义的古菌.     

汾河上中游流域水环境中多环芳烃分布及分配

通过测定汾河上中游流域13个点位丰水期和枯水期水体、表层沉积物中PAHs浓度,分析其分布特征及影响因素.结果表明:汾河上中游流域丰水期和枯水期水中PAHs的平均浓度分别为0.365μg·L~(-1)和0.835μg·L~(-1),枯水期PAHs总体高于丰水期;丰水期和枯水期沉积物中PAHs平均浓度分别为1444μg·kg~(-1)和2407μg·kg~(-1),枯水期PAHs总体高于丰水期;水和沉积物中PAHs的组成主要是2~4环,但沉积物中高环PAHs组成显著高于水中;丰水期和枯水期中游段(寨上到南关)水体和沉积物中PAHs浓度整体均高于上游段(雷鸣寺到汾河水库).丰水期和枯水期沉积相-水相分配系数K_p值分别为642~32345 L·kg~(-1)和671~44929 L·kg~(-1),且随PAHs环数变大K_p值增大;丰水期和枯水期沉积相-水相实测的有机碳归一化分配系数(lgK_(oc))总体高于预测值上限;丰水期和枯水期lgK_(oc)与lgK_(ow)均呈较好的相关性,可决系数(R~2)分别为0.764、0.725,枯水期斜率大于丰水期斜率,枯水期较丰水期沉积物吸附的PAHs更多.K_p值与有机碳/COD_(Cr)比值K_(od)呈正相关,可决系数(R~2)分别为0.625和0.728,丰水期和枯水期PAHs K_p值受沉积物中有机碳含量和水中COD_(Cr)含量的影响.     

Evaluating cumulative effects of disturbance on the hydrologic function of bogs,fens, and mires

Few quantitative studies have been done on the hydrology of fens, bogs, and mires. Consequently predicting the cumulative impacts of disturbances on their hydrologic functions is extremely difficult. For example, few data are available on the role of bogs and fens with respect to flood desynchronization and shoreline anchoring. However, recent studies suggest that very small amounts of groundwater discharge are sufficient to radically modify mire surface-water chemistry, and consequently, vegetation communities and their associated surface-water hydrology. Bogs and fens are, in a sense, hydrobiologic systems, and any evaluation of cumulative impacts will have to (1) consider the complicated and little understood interactions among wetland hydrology, water chemistry, and biota, and (2) place the effect of individual wetland impacts within the context of the cumulative impacts contributed to the watershed from other geomorphic areas and land uses.It is difficult to evaluate the potential cumulative impacts on wetland hydrology because geologic settings of wetlands are often complex and the methods used to measure wetland streamflow, groundwater flow, and evapotranspiration are inexact (Winter 1988). This is especially so for bogs, fens, and mires underlain by thick organic soils. These wetlands, found in the circumboreal areas of North America, Europe, and Asia, are major physiographic features in eastern North America, northern Europe, and Siberia (Kivenen and Pakarinen 1981, Gore 1983, Glaser and Janssens 1986). Their very scale makes it difficult to quantify the hydrologic function accurately. The hydrology of small bogs and fens found elsewhere is just as poorly understood because of conflicting conceptual models of pertinent hydrologic processes.This article (1) reviews our current understanding of the hydrologic function of bogs, fens, and mires at different scales and in different physiographic settings and (2) presents hypotheses on potential cumulative impacts on the hydrologic function that might occur with multiple disturbances.     

不同岩溶环境条件下岩溶地下水中δ~(13)C_(DIC)特征

岩溶地下水的δ13 CDIC值主要是受土壤碳库和碳酸盐岩碳库的δ13 C所制约。本研究选取两个气候条件完全不同的南方广西桂林、北方山西汾阳为对比研究对象,通过取样测试分析两个地区岩溶地下水的δ13 CDIC值,发现北方汾阳岩溶地下水的δ13 CDIC范围为-7.53‰～-12.25‰,平均为-9.84‰;南方桂林岩溶泉水的δ13 CDIC范围为-9.22‰～-15.99‰,平均为-13.06‰;北方岩溶水比南方偏重3.22‰。结合两个地区所处的气候环境条件分析,北方暖温带干旱半干旱大陆性季风区,C4植被发育,C3/C4比例低,土壤碳库的δ13 C重;南方亚热带湿润季风区C3植被发育,C3/C4比例高,土壤碳库的δ13 C轻。因此气候条件不同引起生态条件的差异而造成南北方地下水δ13 CDIC的不同。这为利用同位素方法研究地下水对气候条件变化的响应提供了理论依据。     

受引黄影响的河流沉积物细菌群落季节变化

河流沉积物细菌群落的季节变化对碳、氮循环和水环境演化有明显的影响.然而,受调水干预的河流沉积物细菌群落季节性变化尚不明确.本文基于16S rRNA高通量测序技术,研究了中纬度地区受引黄影响的汾河上游沉积物细菌群落组成、结构和多样性的季节变化.结果表明,在引黄调水干预下受水河流细菌群落的季节性变化仍然显著.夏季温度适宜,河流沉积物细菌群落多样性较冬季高.核心菌群组成和结构随季节变化,然而丛毛单胞菌、黄杆菌、黄单胞菌和红环菌等的优势地位不随季节改变.河水水温和ORP的季节变化显著,是造成河流沉积物细菌群落季节变化的主导因子.水质较差的黄河水引入汾河后导致沉积物细菌群落多样性显著提高.引水对河流沉积物细菌群落的影响在夏季较冬季高20%左右.引黄调水对汾河沉积物细菌群落的影响大于季节变化的影响.     

引黄对受水河段沉积物微生物群落的影响

人类活动可明显降低地表水体水环境质量,同时对水生态系统产生深刻的影响.本文基于16S rRNA高通量测序技术,研究了引黄调水对汾河受水河段沉积物微生物群落组成、结构和多样性的影响,探讨了引水对沉积物中微生物群落的影响机制.结果表明,黄河水的引入使汇入口处沉积物中微生物群落多样性水平升高,并带来新微生物物种硫杆菌属、厌氧绳菌属和亚硝化单胞菌属,新增菌种不仅在下游逐渐适应环境,而且通过上溯扩张使汇入口上游河段沉积物微生物群落发生改变.引黄间歇期受水河段沉积物微生物群落逐渐恢复,优势菌转化为芽孢杆菌,乳球菌的丰度相应增加,硫杆菌属消失.丛毛单胞菌在汾河受水河段沉积物环境中较为稳定,而硫杆菌、芽孢杆菌和乳球菌容易受到引黄的影响,其主要环境影响因素为水体矿物质含量及沉积物有机质、全氮、碱解氮和全钾.间歇期支流汇入使芽孢杆菌退化,丧失绝对优势地位,而蓝藻大量繁殖成为优势种.引黄期支流汇入后,硫杆菌属和厌氧绳菌属分别成为汇入点下游的优势菌和亚优势菌.