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81.
随着农业非点源氮(N)污染的加剧,农田周边溪流成为重要的活性N汇和潜在的氧化亚氮(N2O)排放源.为查明长江上游农业源溪流中溶存N2O浓度的全年动态变化特征,于2014年12月~2015年10月开展紫色土丘陵区典型农田源头溪流N2O浓度的连续采样观测,采用水-气顶空平衡-气相色谱法测定顶空气体中N2O浓度,根据相关参数计算出本研究水体中的溶存N2O浓度,并同步测定溪流水体物理化学指标,分析水中溶存N2O浓度的主要影响因素.结果表明,长江上游紫色土丘陵区的典型农业源溪流的硝态氮(NO3--N)是最主要的活性N赋存形态(年均1.45 mg·L-1),溪流水体溶存N2O质量浓度(以N计)全年平均为0.57 μg·L-1(范围0.26~1.28 μg·L-1),冬、春、夏和秋季的均值分别为0.63、0.45、0.53和0.64 μg·L-1,但季节间无显著差异.溪流水体溶存N2O浓度全年都处于过度饱和状态(饱和度年平均为203.9%,范围109.7%~546.5%),可见,农业源溪流全年均为潜在的N2O释放源.溪流溶存N2O浓度的变化主要由水体NO3--N浓度决定,N2O的主要产生机制为反硝化作用;溪流季节平均N2O饱和度在夏、秋季显著高于冬、春季,水中溶存N2O饱和度的变化主要受水温和NO3--N浓度的共同影响.研究还发现农业源溪流中溶存N2O浓度在4~10月(湿润季节)间波动明显,较强降雨可促使其水中NO3--N浓度在雨后短期内升高,进而促进水体反硝化作用,导致雨后溪流中溶存N2O浓度的增加. 相似文献
82.
协同论、城市生态学及苏州河综合整治 总被引:1,自引:0,他引:1
从协同论和城市生态学的角度,对苏州河综合整治的定义、目的、方式进行了阐述了探讨。 相似文献
83.
Hubert?ChansonEmail author Richard?Brown John?Ferris Ian?Ramsay Kevin?Warburton 《Environmental Fluid Mechanics》2005,5(6):553-575
In natural systems, mixing is driven by turbulence, but current knowledge is limited in estuarine zones where predictions
of contaminant dispersion are often inaccurate. A series of detailed field studies was conducted in a small sub-tropical creek
in eastern Australia. Hydrodynamic, physio-chemical and ecological measurements were conducted simultaneously to assess the
complexity of the estuarine zone, notably the interactions between turbulence and environment. The measurements were typically
performed at high frequency over a tidal cycle. The results provide an original data set to complement long-term monitoring
and a basis for a more detailed study of mixing in sub-tropical systems. Unlike many long-term observations, velocity and
water quality scalars were measured herein with sufficient spatial and temporal resolutions to determine quantities of interest
in the study of turbulence, while ecological indicators were sampled systematically and simultaneously. In particular the
results yielded contrasted outcomes, and the finding impacts on the selection process for key water quality indicators. 相似文献
84.
This study evaluated variations in heavy metal contamination of stream waters and groundwaters affected by an abandoned lead–zinc mine, where a rockfill dam for water storage will be built 11 km downstream. For these purposes, a total of 10 rounds of stream and groundwater samplings and subsequent chemical analyses were performed during 2002–2003. Results of an exploratory investigation of stream waters in 2000 indicated substantial contamination with heavy metals including zinc (Zn), iron (Fe) and arsenic (As) for at least 6 km downstream from the mine. Stream waters near the mine showed metal contamination as high as arsenic (As) 8,923 μg L−1, copper (Cu) 616 μg L−1, cadmium (Cd) 223 μg L−1 and lead (Pb) 10,590 μg L−1, which greatly exceeded the Korean stream water guidelines. Remediation focused on the mine tailing piles largely improved the stream water qualities. However, there have still been quality problems for the waters containing relatively high concentrations of As (6–174 μg L−1), Cd (1–46 μg L−1) and Pb (2–26 μg L−1). Rainfall infiltration into the mine tailing piles resulted in an increase of heavy metals in the stream waters due to direct discharge of waste effluent, while dilution of the contaminated stream waters improved the water quality due to mixing with metal free rain waters. Levels of As, Cu and chromium (Cr) largely decreased after heavy rain but that of Pb was rather elevated. The stream waters were characterized by high concentrations of calcium (Ca) and sulfate (SO4), which were derived from dissolution and leaching of carbonate and sulfide minerals. It was observed that the proportions of Ca and SO4 increased while those of bicarbonate (HCO3) and sodium and potassium (Na+K) decreased after a light rainfall event. Most interestingly, the reverse was generally detected for the groundwaters. The zinc, being the metal mined, was the most dominant heavy metal in the groundwaters (1758–10,550 μg L−1) near the mine, which far exceeded the Korean standard of 1000 μg L−1 for drinking water. The decreases in the heavy metals contents in the groundwaters associated with reduced rainfall were quite different from the increases observed for the stream waters, which is not clearly understood at this time and warrants further investigation. 相似文献
85.
Sulfikar Hanafi Michael R. Grace Barry T. Hart 《Water, Air, & Soil Pollution: Focus》2006,6(5-6):403-411
Nutrient spiralling measurements were conducted in Lyrebird Creek, a forested stream in the Dandenong Ranges, Victoria, Australia.
Spiralling indices from several nutrient (, ) enrichment experiments were correlated with seasonal variation in factors thought to control nutrient uptake, i.e., temperature,
light and algal biomass. It was hypothesized that nutrient uptake would be higher in summer as increased temperatures would
promote both biotic and abiotic processes and higher light levels in summer would stimulate photosynthesis. However, results
did not support this hypothesis. Uptake length for and and uptake velocity were not correlated with chlorophyll-a, light or temperature (r
2 < 0.30, P > 0.1) despite the seasonality of these biophysical factors (r
2 > 0.42, P < 0.02). Lyrebird Creek might had no seasonal trend in nutrient uptake and/or nutrient spiraling measurements only appears
suitable for contrasting streams with large differences in biophysical factors that supports biotic and abiotic nutrient processing.
In addition, small errors in measuring a nutrient concentration can result in a large range in the estimated S
w and increased difficulty in determining significant differences in nutrient spiralling indices. 相似文献
86.
螺旋对称流厌氧膜生物反应器的运行及优化 总被引:1,自引:0,他引:1
通过对螺旋对称流厌氧反应器(SSSAB)外置平板膜组件形成了螺旋对称流厌氧膜生物反应器(SSS-AnMBR).研究了SSS-AnMBR的启动阶段和有无沼气曝气时的运行性能,并建立了其设计与操作优化模型.在启动过程中,反应器内挥发性脂肪酸与碱度的比值为0.001~0.016,未发生酸化现象,后期反应器对化学需氧量(COD)的去除率稳定在90.27%~95.35%.有沼气曝气状态下SSS-An MBR的有机负荷和COD去除率分别为2.28 kg·m~(-3)·d~(-1)和98.24%,均高于无沼气曝气状态下的2.13 kg·m~(-3)·d~(-1)和97.58%,表明系统的污染物去除效能较好.有沼气曝气状态下膜组件的平均负荷、平均COD去除率和SSS-An MBR平均总COD去除率的CV值分别为21.98%、14.15%和0.78%,均低于无沼气曝气状态下的25.27%、21.98%和0.89%,表明该状态下系统稳定性较好.最后建立了厌氧反应器体积(V)、进水流量(Q)和进水COD(X)三者之间的数学模型:V/Q=HRT0/C_(inf)×η_(sss)(X-Cinf)+HRT_0,以及膜面积A与Q之间的数学模型:A=Q×C_(sss)×η_m/MLR,可指导同类型的厌氧膜生物反应器的设计和操作优化. 相似文献
87.
Heavy Metal Distribution in Valley Sediments in Wadi Al-Karak Catchment Area, South Jordan 总被引:4,自引:0,他引:4
Valley sediments samples collected from the major and minor valleys of Al-Karak catchment area (southern Jordan) were leached with hot dilute HCl and analysed for their heavy metals content. The results of leachable metal concentrations indicated the absence of anomalous values for metal occurrences. However, appreciable contamination of the sediments with Cu, Zn, Pb, Cd and Cr was observed. Using an index of pollution the extent of contamination was better delineated. The geographical distribution of the samples showed higher Cu, Zn, Pb, Cd and Cr concentrations mainly around heavily inhabited areas indicating an anthropogenic source of contamination. Lithological influence indicated from the anomalies of Fe and Mn was found to be very low. 相似文献
88.
攀枝花地区河流沉积物的重金属污染研究 总被引:11,自引:0,他引:11
攀枝花市是长江流域经济带上游区第一城,几十年的开发建设使该地区的经济、社会得到了飞速的发展,但同时也造成了一定的环境影响。采用地质累积指数评价了该区水系沉积物中的重金属污染状况,结果表明,水系沉积物中各元素的污染程度由高到低为:Ti、Cu、V、Pb、Zn、Cr、As;总体上看,各元素在攀钢采矿场、选矿厂、冶炼厂及尾矿坝等地的污染程度较高,表明该区水系沉积物中重金属和攀枝花地区金沙江水质的污染主要与该区钒钛磁铁矿的采、选、冶等矿业活动有关。该区应采取如下措施减轻环境影响:(1)加强矿区环境恢复和环境管理,确保区域资源、环境、经济、社会可持续发展;(2)加强城市环境监测,特别是重金属和其他微量元素污染的监测,进行城市生态环境安全预警。 相似文献
89.
Mark A. Tumeo 《Journal of the American Water Resources Association》1992,28(6):1083-1094
ABSTRACT: The Fairbanks Water Treatment Plant in Fairbanks, Alaska, processes approximately 3 MGD of drinking water using lime softening. Approximately 0.3 MGD of lime-sludge from the treatment process is combined with effluent from a nearby power plant and discharged to the Chena River. There is little information available on the impact of water-treatment sludge discharges, and virtually no information on the impacts of such discharges in polar environments. Concern surrounding the discharge of water treatment sludges have centered on alum-sludge due to the potential toxic effects of aluminum. Because of the relatively benign composition of lime-sludge, very little research has been published. However, there is the possibility that discharge of solids will result in sedimentation, accumulation of solids, and subsequent impacts on benthic organisms. This paper reports on the results of a study to determine if lime-sludge discharge from the water treatment plant is adversely impacting the river environment. The results provide basic information on the important variables of concern in lime-discharges to rivers. Samples from the discharge of the water treatment plant and combined water treatment plant/power plant effluent were collected weekly over a one-year period, and in-stream benthic and water column samples were collected biweekly during the fall and spring. Sediment and water quality data indicate that while significant accumulation of sludge solids is found downstream of the water treatment plant outfall, they are flushed out of the system by spring flows, which are significantly increased by snow melt. This process is most likely repeated on a yearly cycle. Hence, the data suggest that the FMUS water treatment plant's discharge of lime-sludge is probably not adversely impacting the river. More generally, this may indicate that the natural flow variations and sediment-laden characteristics of Arctic, glacier-fed rivers may assimilate large quantities of nonputrescible solids without significant changes in the natural river environment. Further research in this area is required to verify this conclusion. 相似文献
90.
Sara K. McMillan Alea K. Tuttle Gregory D. Jennings Angela Gardner 《Journal of the American Water Resources Association》2014,50(3):626-638
In urban watersheds, stormwater inputs largely bypass the buffering capacity of riparian zones through direct inputs of drainage pipes and lowered groundwater tables. However, vegetation near the stream can still influence instream nutrient transformations via maintenance of streambank stability, input of woody debris, modulation of organic matter sources, and temperature regulation. Stream restoration seeks to mimic many of these functions by engineering channel complexity, grading stream banks to reconnect incised channels, and replanting lost riparian vegetation. The goal of this study was to quantify these effects by measuring nitrate and phosphate uptake in five restored streams in Charlotte and Raleigh, North Carolina, with a range of restoration ages. Using nutrient spiraling methods, uptake velocity of nitrate (0.02‐3.56 mm/min) and phosphate (0.14‐19.1 mm/min) was similar to other urban restored streams and higher than unimpacted forested streams with variability influenced by restoration age and geomorphology. Using a multiple linear regression approach, reach‐scale phosphate uptake was greater in newly restored sites, which was attributed to assimilation by algal biofilms, whereas nitrate uptake was highest in older sites potentially due to greater channel stability and establishment of microbial communities. The patterns we observed highlight the influence of riparian vegetation on energy inputs (e.g., heat, organic matter) and thereby on nutrient retention. 相似文献