莱州湾西南部岸线变迁对海域水动力影响的数值研究

20世纪70年代以来,盐田、养殖围堤、港口堤坝建设等开发活动使莱州湾西南部岸线变迁尤为显著,从而引起了海湾水动力环境的改变。为探究近50年莱州湾水动力环境对海湾西南部岸线变迁的响应,本文建立二维数值模型,研究莱州湾西南部3个时段岸线变迁对海湾潮流、纳潮量和水交换的影响。结果表明,1968－2020年莱州湾西南部流速变化以减小为主,流速变化较大的区域主要位于盐田或养殖围垦区和新建港口附近海域。近50年,莱州湾纳潮量呈逐年减小趋势,大潮、中潮、小潮和全潮平均纳潮量分别减少5.85%、7.28%、8.85%和6.47%,围填海是导致纳潮量减小的主要原因。1968－2010年莱州湾整体的水交换能力有所提高,2010－2020年则相差很小;从局部看,1990－2020年港口附近海域的水交换能力均显著降低。     

衡阳大气硫同位素组成环境意义的研究

1996-1997年度衡阳大气硫同位素监测结果是:大气降水δ(34S)均值为6.12‰,大气二氧化硫δ(34S)均值为-3.48‰,大气气溶胶δ(34S)均值为10.73‰.数值体系较好地符合硫同位素分馏规律,研究认为,该地大气环境受西南气流影响甚微,北方南下气流进一步推断为作用该地大气硫的主因;生物硫源对降水硫影响不容忽视;衡阳与珠江三角洲及粤北城市硫同位素监测结果均不支持降水硫同位素区域分异学说.      

水解酸化─厌氧─好氧─混凝─吸附工艺处理洁霉素生产丁提高浓度有机废水

采用水解酸化厌氧好氧混凝吸附工艺处理洁霉素生产丁提高浓度有机废水，工程实践表明，ＣＯＤＣｒ和ＢＯＤ５去除率在９９％以上，所排废水各项指标达到国家排放标准。     

Responses of alkaline phosphatase activity to wind-driven waves in a large, shallow lake: Implications for phosphorus availability and algal blooms

Phosphorus is a vital nutrient for algal growth, thus, a better understanding of phosphorus availability is essential to mitigate harmful algal blooms in lakes. Wind waves are a ubiquitous characteristic of lake ecosystems. However, its effects on the cycling of organic phosphorus and its usage by phytoplankton remain poorly elucidated in shallow eutrophic lakes. A mesocosm experiment was carried out to investigate the responses of alkaline phosphatase activity fractions to wind waves in large, shallow, eutrophic Lake Taihu. Results showed that wind-driven waves induced the release of alkaline phosphatase and phosphorus from the sediment, and dramatically enhanced phytoplanktonic alkaline phosphatase activity. However, compared to the calm conditions, bacterial and dissolved alkaline phosphatase activity decreased in wind-wave conditions. Consistently, the gene copies of Microcystis phoX increased but bacterial phoX decreased under wind-wave conditions. The ecological effects of these waves on phosphorus and phytoplankton likely accelerated the biogeochemical cycling of phosphorus and promoted phytoplankton production in Lake Taihu. This study provides an improved current understanding of phosphorus availability and the phosphorus strategies of plankton in shallow, eutrophic lakes.     

A meta-analysis of heavy metals pollution in farmland and urban soils in China over the past 20 years

A total of 713 research papers about field monitor experiments of heavy metals in farmland and urban soils in China, published from 2000 to 2019, were obtained. A meta-analysis was conducted to evaluate the level of China's heavy metal pollution in soils, mainly focusing on eight heavy metals. It was found that the average concentrations of cadmium (Cd), lead (Pb), zinc (Zn), copper (Cu), mercury (Hg), chromium (Cr), nickel (Ni), and arsenic (As) in China were 0.19, 30.74, 85.86, 25.81, 0.074, 67.37, 27.77 and 8.89 mg/kg, respectively. Compared with the background value (0.097 mg/kg), the Cd content showed a twofold (0.19 mg/kg) rise in farmland soils and a threefold (0.29 mg/kg) rise in urban soils. The decreasing order of the mean I_geo was Cd (1.77) > Pb (0.62) > Zn (0.60) > Cu (0.58) > Hg (0.57) > Cr (0.54) > Ni (0.47) > As (0.28). Nearly 33.54% and 44.65% of sites in farmland and urban soils were polluted with Cd. The average concentrations of eight heavy metals were not sensitive change in recent two decades in farmland and urban soils. The average P_n values for urban (2.52) and farmland (2.15) soils showed that heavy metal pollution in urban soils was more serious than that in farmland, and the middle Yangtze River regions, where industrial activity dominates, were the most polluted. The meta-analysis comprehensively evaluated the current pollution situation of soil heavy metal, and provided important basis for soil management and environment prevention in China.     

河水-地下水交互带沉积物中抗生素和代谢产物提取方法优化及其分布特征

河水-地下水交互带是污染物发生富集、降解和转化等生物地球化学过程的重要场所.抗生素作为一类广泛关注的有机污染物,探索其在交互带中的分布特征对认识特殊生境下污染物迁移转化过程具有重要意义.由于交互带氧化还原条件变化敏感,沉积物组成特殊,建立了一种有效提取交互带中22种抗生素及4种磺胺类代谢产物的前处理方法,并对样品初始状态、提取温度、提取液p H值以及有机提取溶剂进行了优化.同时对汉江下游河水-地下水交互带沉积物中的抗生素含量进行分析,结果表明,采用p H=3的乙腈/乙二胺四乙酸二钠(Na₂EDTA)-Mcllvaine缓冲液(1∶1,体积比)对未经氧化的沉积物原样在40℃条件下进行3次微波提取,目标抗生素的回收效果最好.汉江下游交互带沉积物中共检出11种抗生素,其中以土霉素(OTC)和氧氟沙星(OFL)为主,最高检出含量分别为6.77 ng·g^-1和5.81 ng·g^-1.不同交互剖面中抗生素含量的垂向分布差异较大,主要与沉积物岩性、抗生素理化性质和地表水-地下水交互作用等影响因素有关.     

Marine aquaculture regulates dissimilatory nitrate reduction processes in a typical semi-enclosed bay of southeastern China

Marine aquaculture in semi-enclosed bays can significantly influence nutrient cycling in coastal ecosystems. However, the impact of marine aquaculture on the dynamics of dissimilatory nitrate reduction processes (DNRPs) and the fate of reactive nitrogen remain poorly understood. In this study, the rates of DNRPs and the abundances of related functional genes were investigated in aquaculture and non-aquaculture areas. The results showed that marine aquaculture significantly increased the denitrification (DNF) and dissimilatory nitrate reduction to ammonium (DNRA) rates and decreased the rate of anaerobic ammonium oxidation (ANA), as compared with non-aquaculture sites. DNF was the dominant pathway contributing to the total nitrate reduction, and its contribution to the total nitrate reduction significantly increased from 66.72% at non-aquaculture sites to 78.50% at aquaculture sites. Marine aquaculture can significantly affect the physicochemical characteristics of sediment and the abundances of related functional genes, leading to variations in the nitrate reduction rates. Although nitrate removal rates increased in the marine aquaculture area, ammonification rates and the nitrogen retention index in the aquaculture areas were 2.19 and 1.24 times, respectively, higher than those at non-aquaculture sites. Net reactive nitrogen retention exceeded nitrogen removal in the aquaculture area, and the retained reactive nitrogen could diffuse with the tidal current to the entire bay, thereby aggravating N pollution in the entire study area. These results show that marine aquaculture is the dominant source of nitrogen pollution in semi-enclosed bays. This study can provide insights into nitrogen pollution control in semi-enclosed bays with well-developed marine aquaculture.     

京津冀及周边地区“2+26”城市空气质量特征及其影响因素

京津冀及周边地区“2+26”城市为京津冀大气污染传输通道城市,也是我国空气污染最严重的区域之一.针对京津冀及周边地区“2+26”城市,利用中国环境监测总站公布的PM_2.5、PM₁₀、SO₂、NO₂、O₃和CO数据,对2013—2019年京津冀及周边地区“2+26”城市大气污染特征进行分析,并探讨影响其空气质量变化的因素.研究表明:①2013—2019年京津冀及周边地区“2+26”城市空气质量总体向好,2019年ρ（PM_2.5）、ρ（PM₁₀）、ρ（SO₂）、ρ（CO）和ρ（NO₂）比2013年分别下降了50%、41%、79%、49%和20%,ρ（O₃-8 h-90per）（臭氧日最大8 h平均值第90百分位数）比2013年升高了21%.②2013—2019年京津冀及周边地区“2+26”城市重污染天数持续减少,2019年比2013年下降67%,严重污染天数下降尤为明显,降幅达90%.优良天数比例虽然增加,但2016年以后基本稳定在50%左右,没有持续增加的趋势.③ρ（PM₁₀）、ρ（SO₂）、ρ（NO₂）和ρ（CO）的最大值均出现在1月,ρ（O₃-8 h）（臭氧日最大8 h平均值）的最大值出现在6月.ρ（PM_2.5）越高,PM_2.5/PM₁₀和SO₂/NO₂越大,表明二次污染源和燃煤源的贡献越大.④就空间分布而言,ρ（PM_2.5）和ρ（PM₁₀）高值区主要集中在区域中南部太行山脉山前的平原地区,低值区主要集中在区域北部.⑤地理位置、气象条件、产业结构、能耗消耗以及减排政策是影响2013—2019年京津冀及周边地区“2+26”城市空气质量变化的重要因素.研究显示,随着大气污染防治减排措施实施的力度逐渐加大,政策影响已成为京津冀及周边地区“2+26”城市空气质量持续改善的最重要手段.      

海南岛近岸海域环境容量与纳污总量分析

通过对海南岛"十二五"期间近岸海域纳污总量、环境质量状况及环境容量比较分析,得出各主要排污区环境容量的剩余环境容量。结果表明,全省主要污染物化学需氧量入海量仅占环境容量的2.6%,氨氮占环境容量的26.6%,虽然全省近岸海域环境基本未受污染物入海量影响,仍有较大的纳污空间,可利用的环境容量非常充裕。为避免出现排污达标但环境质量下降的状况,提出建立近岸海域主要污染物总量控制制度,由浓度控制到总量和浓度控制并存。     

Removal of 2-ClBP from soil–water system using activated carbon supported nanoscale zerovalent iron

We explored the feasibility and removal mechanism of removing 2-chlorobiphenyl(2-Cl BP)from soil–water system using granular activated carbon(GAC) impregnated with nanoscale zerovalent iron(reactive activated carbon or RAC).The RAC samples were successfully synthesized by the liquid precipitation method.The mesoporous GAC based RAC with low iron content(1.32%) exhibited higher 2-Cl BP removal efficiency(54.6%) in the water phase.The result of Langmuir–Hinshelwood kinetic model implied that the different molecular structures between 2-Cl BP and trichloroethylene(TCE) resulted in more difference in dechlorination reaction rates on RAC than adsorption capacities.Compared to removing2-Cl BP in the water phase,RAC removed the 2-Cl BP more slowly in the soil phase due to the significant external mass transfer resistance.However,in the soil phase,a better removal capacity of RAC was observed than its base GAC because the chemical dechlorination played a more important role in total removal process for 2-Cl BP.This important result verified the effectiveness of RAC for removing 2-Cl BP in the soil phase.Although reducing the total RAC removal rate of 2-Cl BP,soil organic matter(SOM),especially the soft carbon,also served as an electron transfer medium to promote the dechlorination of 2-Cl BP in the long term.