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Yang Y He Z Lin Y Phlips EJ Yang J Chen G Stoffella PJ Powell CA 《Journal of environmental monitoring : JEM》2008,10(4):508-516
Water quality throughout south Florida has been a major concern for many years. Nutrient enrichment in the Indian River Lagoon (IRL) is a major surface water issue and is suggested as a possible cause of symptoms of ecological degradation. In 2005-06, water samples were collected weekly from seven sites along Ten Mile Creek (TMC), which drains into the Indian River Lagoon, to investigate and analyze spatial and temporal fluctuations of nutrients nitrogen (N) and phosphorus (P). The objective of this study was to understand the relationships among chlorophyll a concentration, nutrient enrichment and hydrological parameters in the surface water body.High median concentrations of total P (TP, 0.272 mg L(-1)), PO4-P (0.122 mg L(-1)), and dissolved total P (DTP, 0.179 mg L(-1)); and total N (TN, 0.988 mg L(-1)), NO3(-)-N (0.104 mg L(-1)), NH4+-N (0.103 mg L(-1)), and total Kjeldahl N (TKN, 0.829 mg L(-1)), were measured in TMC. The concentrations of TP, PO4-P, DTP, TN, NO3(-)-N, NH4+-N, and TKN were higher in summer and fall than in winter and spring. However, chlorophyll a and pheophytin concentrations during this period in TMC varied in the range of 0.000-60.7 and 0.000-17.4 microg L(-1), with their median values of 3.54 and 3.02 microg L(-1), respectively. The greatest mean chlorophyll a (10.3 microg L(-1)) and pheophytin (5.71 microg L(-1)) concentrations occurred in spring, while the lowest chlorophyll a (1.49 microg L(-1)) and pheophytin (1.97 mug L(-1)) in fall. High concentrations of PO4-P (>0.16 mg L(-1)), DTP (>0.24 mg L(-1)), NO3(-)-N (>0.15 mg L(-1)), NH4+-N (>0.12 mg L(-1)), and TKN (>0.96 mg L(-1)), occurred in the upstream of TMC, while high concentrations of chlorophyll a (>6.8 mug L(-l)) and pheophytin (>3.9 microg L(-l)) were detected in the downstream of TMC. The highest chlorophyll a (11.8 mug L(-l)) and pheophytin (6.06 microg L(-l)) concentrations, however, were associated with static and open water conditions. Hydrological parameters (total dissolved solid, electrical conductivity, salinity, pH, and water temperature) were positively correlated with chlorophyll a and pheophytin concentrations (P < 0.01) and these factors overshadowed the relationships between N and P concentrations and chlorophyll a under field conditions. Principal component analysis and the ratios of DIN/DP and TN/TP in the water suggest that N is the limiting nutrient factor for phytoplankton growth in the TMC and elevated N relative to P is beneficial to the growth of phytoplankton, which is supported by laboratory culture experiments under controlled conditions. 相似文献
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Effects of intercropping with floricultural accumulator plants on cadmium accumulation in grapevine 总被引:2,自引:0,他引:2
Chen Hongqiang Lin Lijin Liao Ming’an Wang Jin Tang Yi Sun Guochao Liang Dong Xia Hui Deng Qunxian Wang Xun Lv Xiulan Ren Wei 《Environmental science and pollution research international》2019,26(24):24474-24481
Environmental Science and Pollution Research - Grapevine (Vitis vinifera L.) intercropping with floricultural cadmium (Cd) accumulator plants (Helianthus annuus L., Cosmos sulphureus Cav., Cosmos... 相似文献
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D201树脂对双组分萘系化合物的吸附分离 总被引:1,自引:0,他引:1
用D201强碱性阴离子交换树脂自双组分水溶液中选择吸附分离1-氨基-2-萘酚-4-磺酸(1,2,4-酸)和2-萘酚,考察了溶液pH值、浓度、温度、树脂床高及流速等因素对吸附和分离系数的影响.结果表明,在pH 3—6时,树脂对1,2,4-酸有较高的吸附量及吸附选择性,利于1,2,4-酸与2-萘酚的选择性吸附分离.温度对吸附的影响较小,等温吸附规律符合Freundlich模型.动态吸附表明,至1,2,4-酸的泄漏点时,吸附流出液中几乎只含2-萘酚,1,2,4-酸被吸附于树脂上.随着树脂床层的增长或初始浓度和流速的减小,都使泄漏点推迟及分离系数提高.载酚酸的树脂柱可用15%质量比的NH4Cl和20%体积比的乙醇混合液定量洗脱1,2,4-酸. 相似文献
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粒子系统算法在建筑火灾可视化研究中的应用 总被引:4,自引:4,他引:4
论述了采用粒子系统建立火灾虚拟现实系统火灾现象的可视化表现原理、算法及特殊处理方法 ,为进一步研究火灾虚拟现实系统 ,提供基础理论和技术支持 ,也是培训消防人员技能和公众火灾自救互救、应急逃生能力的科学方法 相似文献
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基于物联网的农村污水监测系统设计研究 总被引:1,自引:0,他引:1
针对农村污水排放点多、面广、分散、量小等特点,提出了一种利用物联网技术进行农村污水排放情况进行实时监测的系统。通过在农村集中区域部署一定量的环境传感器节点,利用无线网络传输特性,将污水排放情况传输至监测中心。综合利用物联网感知层、网络层及应用层的相关技术,介绍了感知层传感器节点的监测原理,并提出了应用层监控软件的设计方案。该系统可以有效、实时地监测污水排放流量大小、污染程度等情况,对环境监测部门具有一定的决策支持作用。 相似文献
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为讨论预涂动态膜的抗污染特性,测定了陶瓷膜、高岭土预涂动态膜和高岭土/MnO2复合预涂动态膜分别在乳化油废水处理中的阻力分布,并用SEM扫描电镜对污染预涂动态膜形貌进行了表征。结果表明,乳化油污染阻力明显高于基膜(或陶瓷膜)固有阻力及涂膜粒子形成的阻力,乳化油对预涂动态膜或陶瓷膜的污染是导致膜通量衰减的主要原因;高岭土和复合预涂动态膜所用基膜污染阻力低于陶瓷膜的内部污染阻力,其中复合预涂动态膜所用基膜的污染阻力最小;复合动态膜层比高岭土动态膜层的污染程度低;污染预涂动态膜表面呈现明显的凝胶态物质,其基膜外壁面未呈现凝胶态物质。处理乳化油废水中,动态膜层可有效保护基膜,表现出了较强的抗污染性能。 相似文献
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以二氧化钛粉体材料为涂膜剂,陶瓷管为基膜制备预涂动态膜,引入通量增强系数Zi和截留增强系数Fi研究了预涂动态膜制备条件对其强化渗透与截留性能的影响,并用SEM电镜对预涂动态膜和基膜表面形貌进行表征。结果表明:制备的预涂动态膜表面均匀密实,其孔径低于基膜平均孔径。预涂动态膜的渗透与截留性能随涂膜液pH值的增加而增加,在跨膜压差低于0.2 MPa、错流速度低于1.5 m/s,涂膜时间少于30 m in和涂膜液浓度低于0.4 g/L范围内,提高这些参数值有利于提高预涂动态膜的渗透与截留性能,超出此范围时,提高这些参数值对增强其渗透与截留性能的效果已不明显,其中错流速度的影响相对小些。跨膜压差为0.2 MPa,错流速度为1.5 m/s,涂膜时间30 m in,涂膜液浓度和pH值分别为0.4 g/L和10.2时为最佳制备条件。 相似文献
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