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1.
于2006年10月对乌江干流梯级水库(乌江渡水库、东风水库、洪家渡水库、引子渡水库和普定水库)中微微型浮游生物(聚球藻、微微型真核浮游生物和异养细菌)的分布特征进行了调查.温度、溶解氧、pH、叶绿素等用YSI 6920进行原位测定. 相似文献
2.
地下咸水与水库水体交换过程中沉积物胶体释放规律 总被引:1,自引:0,他引:1
以天津滨海地区北大港水库为研究对象,采用室内柱试验,研究地下咸水与水库水体交换过程中不同位置沉积物胶体释放以及盐分释放/截留的动态特征,同时对沉积物胶体释放、盐分释放/截留机理进行了探讨。研究结果表明:水库不同位置地下咸水与水库水体交换过程中,盐分的归宿不同:接近水库入口处的沉积物能将盐分截留下来,而出水口沉积物却将盐分释放转移到水体。随孔隙体积数的增加,沉积物胶体累计释放量逐渐增加,入库口、库中心、出库口最大累计释放量分别为3.275 mg/g、0.386 mg/g和1.382 mg/g;胶体累计释放量随孔隙体积数的变化曲线符合直线型,胶体释放速率变化很小。盐分的释放或截留是沉积物颗粒的粒径、胶体含量、含盐量等多种因素作用的结果,水库水体与沉积物中的盐分处于动态平衡状态,当沉积物中含盐量高于平衡浓度时,其盐分会向水体中释放,同时吸附在胶体上的盐分也会随着胶体的释放而释放;反之,水体中的盐分会向沉积物中迁移被截留下来,沉积物粒径越小,越易吸附水中的盐分。胶体的释放规律可以用双电层理论得到很好的解释。 相似文献
3.
2003年夏季中国第二次北极科学考察期间,在北冰洋楚科奇海陆架、楚科奇海台、陆坡流区、门捷列夫海岭和加拿大海盆等不同区域进行了200 m以浅海水和部分观察站沉积物表层叶绿素a浓度的现场观测。结果表明,观测水体叶绿素α浓度变化范围为0.002~39.008 μg/dm3。表层浓度分布范围为0.037~4.644 μg/dm3,平均值为0.612 μg/dm3;高叶绿素α浓度出现在水深20~30 m的次表层水。叶绿素α浓度分布具有明显的区域性特征,水柱平均浓度的次序为楚科奇海陆架区>陆坡流区>楚科奇海台区>加拿大海盆区>门捷列夫海岭区。表层沉积物叶绿素α浓度从未能检出~3.978 μg/g(湿重),平均浓度为0.954 μg/g(湿重),表现为沉积物表层的浓度高于下层,陆架和陆坡流区的浓度高于海岭区以及海台和海盆区的分布特征。 相似文献
4.
密云水库沉积物-水界面磷的地球化学作用 总被引:11,自引:4,他引:11
以密云水库为例,研究了水库沉积物中有机质的含量与有机磷的关系,表明表层沉积物中的总有机碳和有机磷的含量都明显高于底层,是由于一些以磷为营养素的富营养化指示藻类在水体中逐年增加,它们死亡后的残骸经分解-矿化后在底积物中累积的结果。沉积物和孔隙水中磷的剖面特征研究表明,表层沉积物和孔隙水中的磷都有明显上升的趋势,是由于沉积物的表层微生物和活性有机碎屑层比较丰富,有机质降解和含磷的有机化合物分解,使溶解性磷酸盐进入孔隙水。对沉积物磷形态、总有机碳及孔隙水中总磷对磷释放的影响进行了线性相关分析,结果表明上覆水中的磷主要来自沉积物的铁结合态磷、铝结合态磷、溶解态磷三种形态,孔隙水中总磷以及总有机碳含量对上覆水中总溶解磷浓度存在较大的影响,这些为研究水库沉积物作为水库内污染源对水质的影响提供了基础资料。 相似文献
5.
为研究龙滩水库枯水期溶解态氮、磷营养元素的空间分布特征,在龙滩水库枯水期(2017年1月份)进行分层采样,现场测定水体理化性质及实验室分析水中营养盐浓度。结果表明:龙滩水库水温出现明显垂直分层:0~10m为温跃层;10~60m为混合层;60m以下为底温层;pH值为7.63~7.92,水体呈弱碱性。溶解无机氮(DIN)平均浓度为4.75mg/L。水体溶解性氨氮、硝态氮、亚硝态氮平均值为0.07mg/L、2.62mg/L、2.05mg/L,分别占DIN的1.6%、55.2%、43.2%,硝态氮、亚硝态氮是组成龙滩水库溶解无机氮的主要成分。磷酸盐平均浓度为0.04mg/L。参照潜在性富营养化评价标准,N/P(质量比)比值为73.84,说明龙滩水库枯水期属于磷限制潜在性富营养状态,营养状态空间分布特征:坝前水体双江口红水河镇小马场。 相似文献
6.
通过2010年夏季在李村河口潮滩区3个站位的采样分析,研究了孔隙水营养盐的分布特征,并利用Fick第一定律估算了沉积物-水界面间营养盐的扩散通量。结果表明,孔隙水营养盐在不同站位间质量浓度不同,呈现出自河口上游向下游逐渐降低的分布趋势。NH4+-N质量浓度为26.21~53.10 mg/L,是孔隙水中营养盐的主要组分。沉积物中有机物的降解反应主要在还原状态下进行,营养盐质量浓度在垂向上的变化受有机质含量及沉积物氧化还原环境改变的综合影响。除NO3--N外其他营养盐均由沉积物向上覆水体扩散,沉积物是底层水体营养盐的重要来源。 相似文献
7.
贵州省普定水库水体及沉积物孔隙水中汞的含量和形态分布初步研究 总被引:2,自引:0,他引:2
为了弄清楚普定水库汞的地球化学循环特征,用金汞齐-冷原子荧光光谱法(CVAFS)和气相色谱技术(GC), 研究了乌江流域上游普定水库水体剖面和沉积物间隙水剖面汞的赋存形态(总汞 THg)、溶解态汞(DHg)、活性汞(RHg)、颗粒态汞(PHg)、总甲基汞(TMeHg)、溶解态甲基汞(DMeHg)和颗粒态甲基汞(PMeHg)的分布特征.结果显示,普定水库水体总汞浓度为1.29~3.18 ng/L, 活性汞浓度为0.09~0.43 ng/L, 总甲基汞浓度为0.06~0.18 ng/L.沉积物间隙水中溶解态汞浓度为2.65 ~11.47 ng/L, 溶解态甲基汞浓度为0.06 ~1.16 ng/L.实验数据表明,普定水库水体中溶解态汞和颗粒态含量相当,其中颗粒态汞占总汞的比例为46%,并与总汞存在极显著相关性(R=0.929,n=20,P<0.01),溶解态汞与总汞相关性不明显(R=-0.067,n=20);冬季普定水库甲基汞以溶解态甲基汞为主,溶解态甲基汞占总甲基汞的比例为63%,溶解态甲基汞与总甲基汞无明显相关关系(R=0.292,n=20),颗粒态甲基汞与总甲基汞存在极显著的相关性(R=0.815,n=20,P<0.01).试验数据表明沉积物孔隙水溶解态汞与溶解态甲基汞浓度明显高于上覆水体, 是普定水库水体中汞的一个重要来源. 相似文献
8.
广西百朗地下河水和沉积物中有机氯农药的分布特征 总被引:4,自引:2,他引:2
为了解典型岩溶地区广西乐业百朗地下河表层水和沉积物中有机氯农药的分布特征,采集地下河不同断面的水和沉积物样品,利用气相色谱仪测定了19种有机氯农药。结果表明:(1)百朗地下河表层水中19种有机氯农药总量(∑OCPs)浓度为1.95~71.45ng/L,HCHs和DDTs浓度分别为未检出至58.40ng/L和未检出至0.44ng/L;(2)沉积物中∑OCPs浓度为0.75~14.85ng/g,HCHs和DDTs浓度分别为0.11~3.52ng/g和0.03~2.90ng/g;(3)地下河表层水和沉积物中有机氯农药的分布与吸附作用、环境温度以及和地下河连通的天坑的底部的土壤侵蚀有关,即因温差作用,大气沉降的有机氯农药易富集在天坑底部(“冷陷阱效应”),并在土壤侵蚀作用下向水体移动,使地下河沉积物中有机氯农药浓度升高;(4)百朗地下河出口沉积物吸附系数最低,但水中有机氯农药浓度较高且种类最多,推测可能是地下河沉积物中因有机氯农药被释放而引起二次污染;(5)表层沉积物中大多数断面的异狄氏剂浓度及乐业县城附近断面的DDTs和DDD浓度在风险评估低值与风险评估中值之间,表明百朗地下河处于较低的生态风险水平;(6)目前,流域部分断面尚有新的γ-HCH(林丹)和DDTs农药输入。由于有机氯农药长期累积,可能对地下河生态系统造成危害,应采取防治措施。 相似文献
9.
为了弄清楚酸性矿井废水的排放是否对阿哈湖造成了汞污染,我们研究了阿哈湖中汞的各种赋存形态(包括溶解气态汞、活性汞、颗粒态汞、溶解态汞、溶解态甲基汞、颗粒态甲基汞,以及沉积物间隙水体的溶解态汞和溶解态甲基汞)及其在水体和沉积物间隙水中的剖面分布.实验数据表明,溶解态甲基汞浓度在沉积物下2~5 cm处最高,随深度增加而逐渐降低,与硫酸盐还原菌(SRB)的分布相吻合,说明水体-沉积物界面是甲基汞的产生地点;并且在沉积物中高浓度硫酸根浓度高达1100mg/L时,硫酸根浓度与甲基汞浓度依然一致. 相似文献
10.
溶解无机碳及其同位素组成特征对初期水库过程的响应——以新建水库(洪家渡)为例 总被引:5,自引:0,他引:5
水坝拦截引起的生物地球化学影响越来越引起人们的重视.本文以我国西南喀斯特地区新建的洪家渡水库为例,详细分析了该水库入库水体、出库水体和水库坝前水体的溶解无机碳含量(DIC)及其同位素组成(δ13CDIC)特征.结果表明:河流经水库作用后水体无机碳体系发生显著变化.洪家渡水库入库水体DIC和δ13CDIC值的年均分别为2.14 mmol/L和-6.6‰,库区表层水体为2.12 mmol/L和-6.5‰,出库水体为2.22 mmol/L及-8.6‰.总体上,入库水体DIC含量低于出库水体,而溶解无机碳同位素组成却比出库水体偏正.就全年平均而言,出库水体的DIC浓度比入库水体和库区表层水体中分别高出3.7%和4.7%;同时,其DIC的同位素组成相对更偏负,出库水体中δ13CDIC值比入库水体和库区表层水体分别偏负30.3%和32.3%.在垂直剖面上,水体中DIC含量随着深度的增加而增高,δ13CDIC值随水深的增加而偏负.由于水库为底层泄水,使得出库水体中DIC含量增高,而δ13CDIC值偏负.河流受水坝拦截后,水化学特征发生显著改变,逐渐向湖沼型方向演化. 相似文献
11.
A preliminary assessment of the Wujiangdu Reservoir examined nutrient distribution and transport. Water samples were collected in the summer (July) of 2004, during the high-flow season. Inorganic nutrients (N, P, Si) and chlorophyll a (chl a) concentrations of the Wujiangdu Reservoir and its inflow rivers were analyzed. Other water parameters (dissolved oxygen, pH, temperature, and electrical conductivity) were measured as well. The results show gradually decreasing concentrations of NO3 ?-N and dissolved silicate in the surface water moving downstream to the dam of the Wujiangdu Reservoir. Additionally, soluble reactive phosphorus concentrations measured very low, with most falling below the sensitivity threshold of the method used in surface waters. Particulate phosphorus and NO3 ?-N were the predominant species of phosphorus and nitrogen in the reservoir, respectively. The concentration of nutrients in the Yeji River was the largest of all inflow rivers. The maximum concentration of chl a was found near the dam. These results reflect upstream conditions similar to that of a river, and reservoir conditions near the dam similar to that of a natural lake system. 相似文献
12.
C. P. Zhang P. Wu C. Y. Tang H. H. Xie Z. C. Zeng S. Z. Yang 《Environmental Earth Sciences》2014,71(10):4341-4351
The sediment from an acid mine drainage affected reservoir of Guizhou province of China has the iron and arsenic concentration of about 400 and 2.6 g/kg, respectively. Sediment cores were collected, and were used to study the arsenic behavior in the seriously acidified reservoir from the viewpoint of chemical thermodynamics. The limestone neutralization and ferric iron hydrolysis regulated the porewater pH from about 2.9–5.8. The reductive dissolution of As–Fe-rich (hydr)oxides under the mild acidic conditions was the main mechanism for the release of absorbed arsenic into porewater. The maximum concentrations of iron, sulfate and arsenic reached to about 2,800, 9,000 and 1 mg/l, respectively. Arsenic speciation transformation and hydrous ferric oxide (HFO) crystallization enhanced the arsenic mobility in sediment. In addition, the iron sulfide minerals diagenesis could play a role in removing the dissolved arsenic from porewater. The actual distribution of arsenic concentration in porewater was well simulated using the model of surface complexation of arsenic to HFO. Although arsenic concentration in porewater could be above 100 times higher than that of reservoir water, it was not easy to release into the reservoir water through diffusion, because the shallow sediment had relatively strong arsenic adsorption capacity, and new HFO could be generated continuously at the sediment water interface. 相似文献
13.
江汉平原地下水需求量日益增加、水质持续恶化,深入探究地下水的成因,对于地下水的合理利用与评价具有重要意义.选取江汉平原腹地YLW01钻孔和汉江附近HJ007钻孔为研究对象,钻探采集原状土柱,提取孔隙水,分析其水化学和氘氧同位素特征.研究表明:YLW01孔中深层砂性土孔隙水为咸水,TDS为1 131~4 013 mg/L,粘性土孔隙水为淡水;HJ007孔孔隙水均为淡水.YLW01孔中深层砂性土孔隙水的高SO42-含量(459~2 124 mg/L),由石膏溶解形成;HJ007孔中深层孔隙水的高NO3-含量(22~315 mg/L),由土壤中硝化作用形成.孔隙水化学成分主要受矿物溶解和阳离子交替吸附作用影响,在长江和汉江带作用程度不同.氘氧同位素特征表明孔隙水来源于大气降水,且汉江带浅层地下水受到明显的地表水混合.江汉平原两个钻孔水化学与同位素的差异受长江和汉江影响带河湖相沉积环境、沉积物粒度及矿物组成所控制. 相似文献
14.
ZHU Jun 《中国地球化学学报》2005,24(4):352-360
The distribution of nutrients (N, P, Si, C) in the Wujiang River surface water was studied during the high-flow and low-flow periods in 2002. The results showed that nitrate nitrogen (NO3-N) is the main form of dissolved inorganic nitrogen (DIN) in the Wujiang River Basin. It accounts for about 90% of DIN. The average NO3-N concentrations in the mainstream are 147.5 μM in the high-flow period and 158.0 μM in the low-flow period, respectively. The average concentrations of total phosphorus (TP) are 6.43 μM in the high-flow period and 4.18 μM in the low-flow period, respectively. Of the various forms of phosphorus, particulate phosphorus (PP) has the highest percentage ( 62.9%) of TP in the high-flow period. In the low-flow period, however, phosphate is the main form of phosphorus, which accounts for 49% of TP. With the Wujiangdu Reservoir as the boundary, the concentrations of DIN and phosphorus in the upper reaches are different from those in the lower reaches of the Wujiang River. As a whole, the concentrations of DIN and phosphorus are both higher in the low-flow period than in the high-flow period. The spatial and temporal variations of DIN and phosphorus concentrations suggested that DIN and phosphorus come from agricultural and domestic wastewaters and groundwaters and that the Wujiangdu Reservoir has an important impact on the concentrations and distribution of DIN and phosphorus in the Wujiang River. The distribution patterns of dissolved silica (DSi) and dissolved organic carbon (DOC) are similar. Both of them maintain no change in the whole course of the river and their concentrations (with the exception of the reservoir itself) are higher in the high-flow period than in the low-flow period. The average DSi and DOC concentrations in the mainstream are 85.4, 84.6 μM in the high-flow period and 60.8, 53.9 μM in the low-flow period, respectively. The concentrations of nutrients in most of the major tributaries are lower than in the mainstream. This suggested that the contributions of most tributaries are relatively small but importance should be attached to the influence of some individual tributaries such as the Qingshuijiang River and the Weng'an River on the mainstream. 相似文献
15.
Natalia Borrelli M. Osterrieth A. Romanelli M. F. Alvarez J. L. Cionchi H. Massone 《Environmental Earth Sciences》2012,65(2):469-480
Although phytoliths constitute part of the wetland suspended load, there are few studies focused on the quantification of
them in the biogenic silica (BSi) pool. So, the aim of this paper is both to determine BSi content (diatoms and phytoliths)
and its relationship with dissolved silica in surface waters, and the influence of soil and groundwater Si biogeochemistry
in Los Padres wetland (Buenos Aires Province, Argentina). In the basin of the Los Padres wetland, dissolved silica (DSi) concentration
is near 840 ± 232 μmol/L and 211.83 ± 275.92 μmol/L in groundwaters and surface waters, respectively. BSi represents an 5.6–22.1%
of the total suspension material, and 8–34% of the total mineralogical components of the wetland bottom sediments. DSi and
BSi vary seasonally, with highest BSi content (diatoms specifically) during the spring–summer in correlation to the lowest
DSi concentration. DSi (660–917.5 μmol/L) and phytolith (3.35–5.84%) concentrations in the inflow stream are higher than in
the wetland and its outflow stream (19.1–113 μmol/L; 0.45–3.2%, respectively), probably due to the high phytolith content
in soils, the high silica concentration in the soil solution, and the groundwater inflow. Diatom content (5–16.8%) in the
wetland and its outflow stream is higher than in the inflow stream (0.45–1.97%), controlling DSi in this system. The understanding
of the groundwater–surface water interaction in an area is a significant element for determining the different components
and the role that they play on the local biogeochemical cycle of Si. 相似文献
16.
在一次风速12m/s的强风浪过程中及在连续多天弱风浪之后,对太湖梅梁湾一浅水区营养盐、悬浮物等的垂向分布进行了观测和分析。结果表明,在水底沉积物约20cm的情况下,强风浪期间与弱风浪期间相比,湖水中悬浮物浓度提高了10倍,总磷浓度提高了3 6倍。而强风浪期间与弱风浪期间的水体溶解性总磷(DTP)、溶解性活性磷(SRP)的浓度无显著差异。说明尽管强风浪过程引起沉积物大量悬浮,水体悬浮颗粒态营养盐显著增高,但是由于悬浮过程营养盐释放与沉降机制作用十分复杂,活性营养盐的浓度未必能提高。无论强风浪还是弱风浪期间,水体的表层至水土界面上50cm层的悬浮物浓度、营养盐浓度没有明显的分层现象,但明显低于水土界面上50cm内的悬浮物浓度和总磷浓度。无论是强风浪期间还是弱风浪期间,表层到底层水体SRP浓度无显著差异。 相似文献
17.
《Geochimica et cosmochimica acta》1999,63(3-4):427-448
Numerous studies of marine environments show that dissolved organic carbon (DOC) concentrations in sediments are typically tenfold higher than in the overlying water. Large concentration gradients near the sediment–water interface suggest that there may be a significant flux of organic carbon from sediments to the water column. Furthermore, accumulation of DOC in the porewater may influence the burial and preservation of organic matter by promoting geopolymerization and/or adsorption reactions. We measured DOC concentration profiles (for porewater collected by centrifugation and “sipping”) and benthic fluxes (with in situ and shipboard chambers) at two sites on the North Carolina continental slope to better understand the controls on porewater DOC concentrations and quantify sediment–water exchange rates. We also measured a suite of sediment properties (e.g., sediment accumulation and bioturbation rates, organic carbon content, and mineral surface area) that allow us to examine the relationship between porewater DOC concentrations and organic carbon preservation. Sediment depth-distributions of DOC from a downslope transect (300–1000 m water depth) follow a trend consistent with other porewater constituents (ΣCO2 and SO42−) and a tracer of modern, fine-grained sediment (fallout Pu), suggesting that DOC levels are regulated by organic matter remineralization. However, remineralization rates appear to be relatively uniform across the sediment transect. A simple diagenetic model illustrates that variations in DOC profiles at this site may be due to differences in the depth of the active remineralization zone, which in turn is largely controlled by the intensity of bioturbation. Comparison of porewater DOC concentrations, organic carbon burial efficiency, and organic matter sorption suggest that DOC levels are not a major factor in promoting organic matter preservation or loading on grain surfaces. The DOC benthic fluxes are difficult to detect, but suggest that only 2% of the dissolved organic carbon escapes remineralization in the sediments by transport across the sediment-water interface. 相似文献
18.
The water, pore water, sediment, and fish samples were collected from the Hongfeng Reservoir in November 2003 and February 2004 in accordance with trace metal protocols. The average concentrations of total mercury (THg), dissolved mercury (DHg), reactive mercury, dissolved gaseous mercury, total methylmercury, and dissolved methylmercury in the water columns were 8.00, 5.70, 0.63, 0.05, 0.16, and 0.07 ng/L, respectively. THg and DHg in the water columns, THg in pore water and THg in lake sediments of the Hongfeng Reservoir showed the level of mercury in the Hongfeng Reservoir was higher than in other natural waters in the world due to the loading of a lot of waste water with relatively high concentrations of mercury, whereas methylmercury concentrations in fish (wet weight) varied from 1.73-51.00 ng/g, much lower than in most remote lakes and reservoirs reported in northern Europe and North America. Methylmercury distributions in pore water and sediments showed methylation occurred mainly in the upper several centimeters of sediment cores in the Hongfeng Reservoir. The concentrations of dissolved organic carbon, total suspended particles, total Hg, and methylmercury were higher at Houwu than those at Daba in November 2003. It is suggested that other pollutants such as N and P from fishing farm and other waste water at Houwu, which resulted in deterioration of water quality, affected the concentrations and distributions of mercury species in the reservoir. 相似文献
19.
百花湖水体氮的空间分布研究 总被引:2,自引:1,他引:1
初步探讨了百花湖水体中氮的空间分布特征,并分析了氮及溶解氧(DO)的相关性。对8个站位的表层、4m、8m及12m水体中总氮、氨氮、硝酸盐氮、亚硝酸盐氮及溶解氧进行了测定。结果表明,百花湖水体中总氮的平均含量为1.18mg/L,氨氮的平均含量为0.144mg/L,硝酸盐氮的平均含量为0.20mg/L,亚硝酸盐氮的平均含量为0.018mg/L。百花湖入湖口附近的1号采样点总氮、氨氮和硝酸盐氮的平均浓度都较其它采样点高。分析表明百花湖中DO浓度与硝酸盐氮和亚硝酸盐氮呈负相关,相关系数分别为-0.629、-0.724。 相似文献