基于光腔衰荡光谱技术NO_(3)和N_(2)O_(5)在线测量系统的表征与应用

报道自主研发的基于光腔衰荡光谱技术的大气NO_(3)/N_(2)O_(5)在线测量系统及其参数表征结果。在时间分辨率为1min的情况下,NO_(3)和N_(2)O_(5)最低检测限分别为1.7×10^(-12)和2.9×10^(-12)。在采样流量6L/min和使用1天滤膜的情况下,利用标准源实验确定NO_(3)和N_(2)O_(5)的采样损耗分别为17.0%和18.0%。Allan方差分析结果表明,在60~100s积分条件下可获得较好的系统稳定性。在北京城区开展大气NO_(3)和N_(2)O_(5)观测,结果表明测量系统可以满足大气环境中NO_(3)及N_(2)O_(5)的高灵敏度测量。

小麦秸秆还田后茬棉田土壤NO_(3)^(−)-N和酚酸变化对棉苗根系生长的影响

揭示前茬小麦长期秸秆还田后,后茬棉田土壤硝态氮(NO_(3)^(-)-N)与酚酸含量的时空变化对棉苗根系生长影响的生理机制,可为完善秸秆还田技术提供理论支撑。试验于2021年与2022年在小麦长期秸秆定位还田地块进行。以棉花品种‘中棉所425’为材料,设置小麦秸秆不还田(CK)与小麦秸秆还田(S)2个处理。结果表明,秸秆还田增加了土壤NO_(3)^(-)-N与酚酸含量,对0~20 cm土层的影响大于20~40 cm;随秸秆还田后时间推移,土壤NO_(3)^(-)-N与酚酸含量呈先增加后降低趋势,且在秸秆还田后24~31 d达到峰值。秸秆还田后31 d前,秸秆还田处理棉株根系活力、根系NO_(3)^(-)-N含量、硝酸还原酶活性、根系生物量和形态指标均显著低于CK处理,31 d后则呈相反趋势。相关分析表明,0~20 cm土壤酚酸含量与根系活力、根系NO_(3)^(-)-N含量、棉花根系长度、直径、表面积和地上部生物量呈显著负相关;不同土层NO_(3)^(-)-N含量与棉苗形态、生理指标及生物量之间呈正相关但未达显著水平。秸秆还田对棉花幼苗生长影响呈“先抑后促”的趋势,秸秆还田后31 d内,酚酸含量的增加降低了棉苗根系活力,阻碍了根系生长,抑制了棉苗对NO_(3)^(-)-N的吸收利用,表明秸秆还田前期对棉株生长的“抑制效应”大于秸秆的“肥料效应”,秸秆还田31 d后,秸秆的“肥料效应”大于酚酸的“抑制效应”,促进棉株根系的生长。

小白菜硝酸盐含量与NO_3^-/NH_4^+及氮代谢关键酶的相关性

采用液体培养实验研究了不同NO_3^-与NH_4^+浓度比(分别为50:50、75:25和100:0)对10个品种小白菜(Brassica chinensis L.)的硝酸盐含量、光合系统参数及氮代谢关键酶活性的影响。结果表明,随着硝铵比的增加,小白菜总干质量逐渐增加(除品种天津小白菜和大头清江白菜的总干质量随硝铵比的增加先降低后升高,品种香港春秀甜白菜(236)和正旺达88的总干质量先升高后降低外),与c(NO_3^-):c(NH_4^+)为50:50比较,增幅分别为12.66%~76.88%(c(NO_3^-):c(NH_4^+)为75:25)和17.98%~95.07%(c(NO_3^-):c(NH_4^+)为100:0);小白菜叶和根中的硝酸盐含量增加,而叶柄硝酸盐含量则表现出先增加后下降的趋势,小白菜硝酸盐的含量叶柄(3 882.62~5 448.81 mg/kg)>叶(2 004.86~4 146.50 mg/kg)>根(505.39~2 188.68 mg/kg)。小白菜叶片中硝酸盐含量与硝酸还原酶活性成显著负相关,而与亚硝酸还原酶和谷氨酰胺合成酶活性成显著正相关。小白菜叶片中硝酸盐的含量随着净光合速率(Pn)和胞间二氧化碳浓度(Ci)的增加而下降,随蒸腾速率(Tr)的增强而增加。

外源蔗糖对NO_3^-胁迫下叶用莴苣矿质元素含量与积累量的影响

以耐抽薹意大利叶用莴苣(Lactuca sativa L."yidali")为试验材料,采用水培方法,以常规营养液(7.5 mmol/L NO_3^-)、叶面喷施清水作为对照(CK),在75 mmol/L NO_3^-胁迫下,通过叶面喷施0 mmol/L(T1)、3 mmol/L(T2)的蔗糖,研究外源蔗糖对NO_3^-胁迫下叶用莴苣生长及矿质元素含量与积累量的影响。结果表明:与CK相比,NO_3^-胁迫处理显著抑制了叶用莴苣生长,降低了P、Mg、Fe的含量,但增加了K、Ca的含量;外源喷施蔗糖有效缓解了NO_3^-胁迫对叶用莴苣的抑制作用,其中植株地上部分鲜质量提高了20.94%,同时显著提高了植株中P、Mg、Fe的含量,降低了植株中Ca含量。NO_3^-胁迫下,P、K、Ca、Mg、Fe的积累量均显著降低,外源蔗糖可以提高植株中P、K、Ca、Mg、Fe的积累量。外源蔗糖通过影响植株对矿质元素的吸收缓解NO_3^-胁迫对叶用莴苣的伤害。

Assembly and Electrochemical Study of Transition Metal Substituted Polyoxometalates SiW_(11)NiO_(39)^(6-) and SiW_(11)MnO_(39)^(6-) on 4-Aminothio-phenol Modified Glassy Carbon Electrode

Via layer-by-layer assembly, the polyoxometalates of Keggin type, SiW_ 11O_ 39Ni(H_2O) 6-(SiNiW_ 11) and {SiW_ 11O_ 39Mn(H_2O) 6-}(SiMnW_ 11) were first immobilized on a 4-aminothiophenol(4-ATP) modified glassy carbon electrode surface. The electrochemical behavior of these polyoxometalates was investigated. They exhibited some special properties in the films, which are different from those in a homogeneous aqueous solution. Their reaction mechanism in a multilayer film is proposed. The electrocatalytic behavior of these multilayer film electrodes for the reduction of BrO-_3 and NO-_2 were comparatively studied.

The positive function of selenium supplementation on reducing nitrate accumulation in hydroponic lettuce(Lactuca sativa L.)

High nitrate(NO3-) in vegetables, especially in leaf vegetables poses threaten to human health. Selenium(Se) is an important element for maintaining human health, and exogenous Se application during vegetable and crop production is an effective way to prevent Se deficiency in human bodies. Exogenous Se shows positive function on plant growth and nutrition uptake under abiotic and/or biotic stresses. However, the influence of exogenous Se on NO3-accumulation in hydroponic vegetables is still not clear. In the present study, hydroponic lettuce plants were subjected to six different concentrations(0, 0.1, 0.5, 5, 10 and 50 μmol L–1) of Se as Na2 Se O3. The effects of Se on NO3-content, plant growth, and photosynthetic capacity of lettuce(Lactuca sativa L.) were investigated. The results showed that exogenous Se positively decreased NO3-content and this effect was concentration-dependent. The lowest NO3-content was obtained under 0.5 μmol L–1 Se treatment. The application of Se enhanced photosynthetic capacity by increasing the photosynthesis rate(Pn), stomatal conductance(Cs) and the transpiration efficiency(Tr) of lettuce. The transportation and assimilation of NO3-and activities of nitrogen metabolism enzymes in lettuce were also analysed. The NO3-efflux in the lettuce roots was markedly increased, but the efflux of NO3-from the root to the shoot was decreased after treated with exogenous Se. Moreover, Se application stimulated NO3-assimilation by enhancing nitrate reductase(NR), nitrite reductase(Ni R), glutamine synthetase(GS) and glutamate synthase enzyme(GOGAT) activities. These results provide direct evidence that exogenous Se shows positive function on decreasing NO3-accumulation via regulating the transport and enhancing activities of nitrogen metabolism enzyme in lettuce. We suggested that 0.5 μmol L–1 Se can be used to reduce NO3-content and increase hydroponic lettuce yield.

外加碳源对生物炭基潜流人工湿地净化污水处理厂尾水效能的影响

生物炭作为一种多功能生态环保材料,近年来被广泛应用于人工湿地污水处理中,其可为异养反硝化提供碳源,从而提高人工湿地的脱氮能力。通过室内构建石英砂/杏仁壳生物炭基质(体积比7∶3)人工湿地,同时以石英砂基质人工湿地为对照,运行后期通过外加碳源设计不同碳氮比(C/N),且分别采用连续流和间歇流的运行方式,探究外加碳源对生物炭基水平潜流人工湿地深度净化实际污水处理厂尾水效果的影响。结果表明:外加碳源前,人工湿地的化学需氧量(COD)去除率为负,总氮(TN)和硝氮(NO_(3)^(−)-N)去除率在41 d内持续降低;而外加碳源后,石英砂单元和石英砂/生物炭单元的COD去除率分别增至37.88%~90.44%和73.60%~97.90%,TN和NO_(3)^(−)-N去除率也明显提高。在外加碳源使进水C/N为8且间歇流运行时,石英砂/生物炭单元的TN和NO_(3)^(−)-N去除率最高,分别达65.61%和74.20%。生物炭添加提高了湿地微生物生物量,同时创造了有利于反硝化作用发生的氧化还原环境,使石英砂/生物炭单元的COD、TN和NO_(3)^(−)-N去除率分别提高了5.66%~130.35%、9.34%~54.03%和8.71%~63.04%。外加碳源与生物炭添加可作为一种有效手段强化实际污水处理厂尾水人工湿地系统的脱氮效能。

基于氮氧同位素的南四湖硝酸盐来源解析

选取南水北调东线受水湖南四湖为研究对象,运用δ^(15)N-NO_(3)^(-)、δ^(18)O-NO_(3)^(-)同位素示踪技术和水化学分析方法,阐明了研究区水化学及不同形态氮分布特征,揭示了氮的转化过程,分析了硝酸盐来源,基于MixSIAR模型,对研究区水体中各硝酸盐来源贡献比例进行了定量识别.结果表明:南四湖无明显温跃层,水体呈碱性,水化学类型以SO_(4)^(2-)-Na^(+)型为主.下级湖中的氮以硝态氮为主,随着水体自净及沉积物吸附,浓度逐渐降低,入湖河流污染特征与湖水一致.研究区湖水硝酸盐形成过程以硝化作用为主,水体中的硝酸盐来源生活污水>土壤有机氮>合成化肥>大气沉降,基于MixSIAR源解析模型分析,贡献比例分别为51.3%、23.7%、16.4%、8.5%.

春季南海东沙岛硝酸盐干沉降通量、形成机制及其来源

硝酸盐是大气中主要的酸性离子,也是大气活性氮沉降主要的组成部分。中国目前对大气硝酸盐形成机制及其来源的研究主要集中在陆地区域,对海洋气溶胶的硝酸盐的形成机制及其来源的研究较少。本研究于2013年春季(3—5月),在中国南海东沙岛共计采集了86个总悬浮颗粒(TSP)气溶胶样本,分析了TSP样品中NO_(3)^(-)浓度、δ^(15)N-NO_(3)^(-)和δ^(18)O-NO_(3)^(-)值。结果表明:东沙岛春季TSP中NO_(3)^(-)浓度呈现逐月下降的趋势。基于NO_(3)^(-)浓度估算东沙岛春季NO_(3)^(-)-N干沉降通量范围为(1.0±0.5)—(3.4±1.7)mg·d^(-1)·m^(-2)(以N计,余同)。δ^(18)O-NO_(3)^(-)值在3月和4月(76.1‰±3.8‰和79.1‰±5.6‰)明显高于5月(67.0‰±7.5‰),表明东沙岛3月和4月硝酸盐的形成路径不同于5月。贝叶斯同位素混合模型计算结果显示:N_(2)O_(5)参与的路径(N_(2)O_(5)+H_(2)O/Cl-和NO_(3)^(+)VOCs)在3月和4月生成了37.2%和43.3%的硝酸盐,5月NO_(2)+·OH路径是硝酸盐的主要形成路径,形成了80.2%的硝酸盐。δ^(15)N-NO_(3)^(-)值和气团后向轨迹表明,东沙岛春季不同月份TSP中NO_(3)^(-)的来源不同,3月和4月以陆地源为主,5月主要受海洋源影响。

高岭土负载纳米Fe/Ni同时去除水中Cu^(2+)和NO_3^-

工业废水常含有不同污染物如重金属离子和无机阴离子,而如何有效去除复合污染物就成为环境科学前沿研究的挑战性课题.这些污染物因化学性质不同而导致去除机理和途径也不同.本文采用合成高岭土负载纳米双金属Fe/Ni(K-Fe/Ni)同步去除水中Cu2+和NO-3.结果表明K-Fe/Ni能有效去除水中Cu2+和NO-3,但它们的去除效果却会相互受到影响.在Cu2+浓度为200mg·L-1时,NO-3的去除率达到42.5%;而未加入Cu2+时,NO-3的去除率仅有26.9%,说明Cu2+的存在提高了NO-3降解效率.同样,水中NO-3的存在也影响Cu2+的去除(Cu2+去除率从99.7%降到96.5%).但NO-3浓度对去除Cu2+的影响小于Cu2+浓度对NO-3的影响.通过BET比表面积、X射线衍射(XRD)、扫描电镜(SEM)、X射线能量散射(EDS)和X射线光电分析(XPS)对K-Fe/Ni表征的结果显示,反应后K-Fe/Ni的表面存在铁的氧化物、Ni0和被还原的Cu0.基于以上结果,我们发现K-Fe/Ni同步去除水中Cu2+和NO-3的机理是:高岭土负载下的纳米Fe0作为还原剂,在Ni0的催化产氢作用下将Cu2+还原成Cu0并沉积在K-Fe/Ni上而形成纳米Fe/Ni/Cu三金属催化剂,从而加速催化水中NO-3降解.

Recent advances and challenges of nitrogen/nitrate electro catalytic reduction to ammonia synthesis

The Haber-Bosch process is the most widely used synthetic ammonia technology at present.Since its invention,it has provided an important guarantee for global food security.However,the traditional Haber-Bosch ammonia synthesis process consumes a lot of energy and causes serious environmental pollution.Under the serious pressure of energy and environment,a green,clean,and sustainable ammonia synthesis route is urgently needed.Electrochemical synthesis of ammonia is a green and mild new method for preparing ammonia,which can directly convert nitrogen or nitrate into ammonia using electricity driven by solar,wind,or water energy,without greenhouse gas and toxic gas emissions.Herein,the basic mechanism of the nitrogen reduction reaction(NRR)to ammonia and nitrate reduction reaction(NO_(3)^(-))to ammonia were discussed.The representative approaches and major technologies,such as lithium mediated electrolysis and solid oxide electrolysis cell(SOEC)electrolysis for NRR,high activity catalyst and advanced electrochemical device fabrication for(NO_(3)^(-))RR and electrochemical ammonia synthesis were summarized.Based on the above discussion and analysis,the main challenges and development directions for electrochemical ammonia synthesis were further proposed.

硝酸盐反射仪和SPAD法对玉米氮素营养诊断的比较

精准的营养诊断是了解作物氮素营养及推荐施肥的基础。本文在田间滴灌条件下利用SPAD叶绿素仪(SPAD-502 Plus)和硝酸盐反射仪(RQ flex10)两种诊断方法对玉米关键生育时期的氮素营养诊断进行研究,旨在筛选出适宜的诊断方法,并依据诊断值建立滴灌玉米不同生育时期的施肥模型。试验设置0 kg(N)·hm^(-2)(N0)、225 kg(N)·hm^(-2)(N225)、330 kg(N)·hm^(-2)(N330)、435 kg(N)·hm^(-2)(N435)和540 kg(N)·hm^(-2)(N540)5个施氮水平,在不同生育时期测定了玉米叶片SPAD值和叶鞘NO_3^-含量,并分别与施氮量、植株全氮含量、产量进行方程拟合,比较两种诊断方法对玉米氮素营养的响应。研究结果表明:1)玉米叶片SPAD值和叶鞘NO_3^-含量均随施氮量的增加而显著升高,且在拔节期对施氮量的响应最敏感。叶鞘NO_3^-含量对施氮量变化的响应较SPAD值大,其与施氮量及玉米产量的拟合度均高于SPAD值,说明硝酸盐反射仪法对滴灌玉米氮素丰缺的反应更灵敏。2)玉米全氮含量与叶片SPAD值呈显著线性关系,而与叶鞘NO_3^-含量则以线性加平台表示。当叶鞘NO_3^-含量小于186 mg·L^(-1)时,植株全氮与NO_3^-间呈显著线性相关;当叶鞘NO_3^-含量大于186 mg·L^(-1)时,植株全氮随NO_3^-含量增加趋于不变。3)本农作区滴灌玉米最佳经济施氮量为402.5 kg·hm^(-2),对应的玉米产量为17 049 kg·hm^(-2)。玉米拔节期、抽雄吐丝期和灌浆期的临界叶鞘NO_3^-含量分别为729.3 mg·L^(-1)、536 mg·L^(-1)和81.2 mg·L^(-1)。SPAD叶绿素仪和硝酸盐反射仪均可对滴灌玉米进行氮素营养诊断,但硝酸盐速测值能更敏感地反映氮素丰缺状况,基于硝酸盐反射法进行作物氮素营养诊断及推荐施肥具有较好的准确性与适用性。

硫自养反硝化深度处理污水厂生化出水中的NO_(3)^(-)-N

针对呼和浩特市某污水处理厂A^(2)O工艺出水中残余的NO_(3)^(-)-N,利用生物滤池进行单质硫自养反硝化中试研究。结果表明,单质硫自养反硝化工艺启动周期短(15 d)、去除NO_(3)^(-)-N能力强,NO_(3)^(-)-N去除负荷(以N计)基本可保持在200 g/(m^(3)·d)以上。在启动过程中,Thiobacillus逐渐成为优势菌属,硫自养反硝化反应成为了生物滤池的主要代谢路径。此外,水温对该工艺性能有一定影响,当水温<15℃时生物滤池内的微生物群落结构会受到一定影响,平均NO_(3)^(-)-N去除负荷迅速降至122.7 g/(m^(3)·d),即使延长水力停留时间,系统亦无法恢复至最佳状态。

纳米钯铜改性毛竹炭三维电催化还原水中硝酸盐氮的机理研究

为揭示三维粒子电极对电催化还原水中硝酸盐氮(NO_(3)-N)的贡献及机理,以毛竹生物炭为模板,通过钯铜盐浸渍、焙烧及氢气有限表面还原等手段,制备了纳米钯铜改性毛竹炭(Nano-Pd/Cu-BC),以其为三维粒子电极搭建三维电催化还原体系,以强化传统电催化还原体系(无三维粒子电极)对NO_(3)-N的去除效果.结果表明:①制备的Nano-Pd/Cu-BC保留了毛竹天然的遗态分级多孔结构特征,表面存在均匀分散的纳米Pd0和纳米Cu^(0)金属粒子.②三维电催化还原体系对水中NO_(3)-N具有更高的去除率,在反应240 min内,对NO_(3)-N的质量催化活性达0.069 mg/mg,较传统电催化还原体系提升5.35倍.③三维电催化还原体系N2的生成率为13.4%,较传统电极电催化还原体系提升2.84倍.研究显示,采用Nano-Pd/Cu-BC搭建的三维电催化还原体系可以提升水中NO_(3)-N的去除率和N2生成选择率.

大气中过氧乙酰硝酸酯研究综述与展望

过氧乙酰硝酸酯[CH_(3)C(O)OONO_(2),PAN]是光化学污染产生的一类二次污染物,是大气中氮氧化物的储库,影响着区域光化学污染水平。本文整理了近年来PAN的有关文献,对比分析了国内外不同区域PAN的浓度水平,以及讨论了大气中PAN浓度的影响因素。结果发现,城市地区PAN的浓度最高,其次是郊区乡村等偏远地区,海洋极地等清洁地区最低。不同季节PAN的主要影响因素不同,夏季PAN与O_(3)相关性显著,而冬季光化学较弱,PAN与PM_(2.5)相关性显著。

Nocturnal atmospheric chemistry of NO_(3) and N_(2)O_(5) over Changzhou in the Yangtze River Delta in China

Comprehensive observations of the nocturnal atmospheric oxidation of NO_(3)and N_(2)O_(5)were conducted at a suburban site in Changzhou in the YRD using cavity ring-down spectroscopy(CRDS)from 27 May to 24 June,2019.High concentrations of NO_(3)precursors were observed,and the nocturnal production rate of NO_(3)was determined to be 1.7±1.2 ppbv/hr.However,the nighttime NO_(3)and N_(2)O_(5)concentrations were relatively low,with maximum values of 17.7 and 304.7 pptv,respectively,illustrating the rapid loss ofNO_(3)andN_(2)O_(5).Itwas found that NO_(3)dominated the nighttime atmospheric oxidation,accounting for 50.7%,whileO3 andOH only contributed 34.1%and 15.2%,respectively.For the reactions of NO_(3)with volatile organic compounds(VOCs),styrenewas found to account for 60.3%,highlighting its dominant role in the NO_(3)reactivity.In general,the contributions of the reactions between NO_(3)and VOCs and the N_(2)O_(5)uptake to NO_(3)losswere found to be about 39.5%and 60.5%,respectively,indicating that N_(2)O_(5)uptake also played an important role in the loss of NO_(3)and N_(2)O_(5),especially under the high humidity conditions in China.The formation of nitrate at night mainly originated from N_(2)O_(5)uptake,and the maximum production rate of NO_(3)^(-)reached 6.5 ppbv/hr.The average NOx consumption rate via NO_(3)and N_(2)O_(5)chemistry was found to be 0.4 ppbv/h,accounting for 47.9%of the total NO_(x)removal.The predominant roles of NO_(3)and N_(2)O_(5)in nitrate formation and NO_(x)removal in the YRD region was highlighted in this study.

氮氧同位素示踪北京冬季大气硝酸盐来源

硝酸盐是大气细颗粒物(PM_(2.5))主要的二次无机组分之一,探究颗粒物硝酸盐的形成机制及NOx排放源结构对治理PM_(2.5)污染和改善空气质量至关重要。为此,该研究收集并分析了北京市实施清洁空气行动计划前后(2013-2018年)冬季大气硝酸盐同位素组成特征。结果显示,北京市实施清洁空气行动期间,冬季大气PM_(2.5)中硝酸盐氮同位素(δ^(15)N-NO_(3)^(-))没有发生显著变化;δ^(15)N-NO_(3)^(-)平均值分别为+13.10‰±4.67‰(2013)、+12.65‰±4.08‰(2014)、+12.4‰±3.5‰(2017)、+11.54‰±4.22‰(2018)。通过剖析影响硝酸盐氮同位素的主要因素,研究认为该期间NOx排放源结构并没有显著变化。结合同位素组成和贝叶斯混合模型发现,2013-2018年期间机动车尾气对冬季NO_(x)的平均贡献值均保持在75%左右,表明机动车尾气可能是北京市冬季PM_(2.5)中硝酸盐的主要来源。由此可见,加强机动车尾气排放标准管理,是降低北京地区硝酸盐浓度和改善空气质量的有力途径。

硫酸铵和硝酸铵对镇江市大气PM_(2.5)理化性质的影响

近年来,无机盐尤其是硝酸盐对我国大气PM_(2.5)的贡献日益凸显,而其如何影响颗粒物的重要理化性质尚待深入研究.于2021年1~12月期间,在镇江市开展了连续观测,获得了大气PM_(2.5)中硫酸铵[(NH_(4)_(2)SO_(4))]和硝酸铵(NH_(4)NO_(3))浓度,系统讨论了二者对颗粒物消光、吸湿增长和酸度的影响.结果表明,2021年镇江市ρ[(NH_(4)_(2)SO_(4)]和ρ(NH_(4)NO_(3))的年均值分别为(6.5±4.5)μg·m^(-3)和(15.0±13.3)μg·m^(-3),对PM_(2.5)浓度的平均贡献率分别为(20.5±18.2)%和(34.5±18.4)%;PM_(2.5)的总消光系数为(224.5±194.2)Mm-1,其中NH_(4)NO_(3)的贡献率为(40.1±20.9)%,(NH_(4)_(2)SO_(4)为(19.1±10.8)%;(NH_(4)_(2)SO_(4)和NH_(4)NO_(3)是PM_(2.5)吸湿增长的主要贡献者,在污染条件下NH_(4)NO_(3)对颗粒物液态水的贡献率为(53.8±13.4)%~(61.6±14.6)%;NH_(4)NO_(3)是未来镇江市能见度和空气质量改善的关键污染物,但削减NH_(4)NO_(3)前体物可能会导致颗粒物酸度增加,尤其对春冬季节颗粒物酸度的影响较为明显.研究结果对理解空气质量变化及二次影响具有重要意义,并对镇江市空气质量的持续改善提供了重要参考.

Spatial and temporal distribution of cyanobacteria in Batticaloa Lagoon

The necessity to understand the relationship between cyanobacterial species abundance and water quality variations in coastal lagoons is crucial to develop strategies to prevent further cyanobacterial proliferation.This paper evaluates the relationship between water quality variations on the distribution of cyanobacteria during a 12-month period in Batticaloa Lagoon（Sri Lanka） using Redundancy analysis and Pearson correlations.Drastic variations in p H,temperature,salinity,dissolved oxygen（DO） and total phosphorus（TP）levels were reported,but not turbidity and NO3-.This brackish waterbody is hypereutrophic（TP levels 〉 0.1 mg/L）.The cyanobacterial community contained 13 genera and 22 species.NO3-,TP and turbidity levels positively influenced cyanobacterial abundance during all seasons indicating that nutrient（largely phosphorus） and sediment entry control is highly crucial along with periodic monitoring of cyanobacterial growth.

漓江流域碳氮同位素组成特征及其来源初探

以漓江流域境内地表河和地下河为研究对象,通过测定、分析水体中的水化学组成以及δ13CDIC、δ15N-NO3-、δ18O-NO3-等,利用同位素质量平衡混合模型,初步探讨了漓江流域境内DIC、硝酸盐的分布特征及其来源.结果表明:漓江流域DIC(即HCO3-)浓度和无机碳稳定同位素(δ13CDIC)分别在12.20~402.60 mg·L-1和-17.29‰^-10.01‰,平均值分别为140.3 mg·L-1和-13.06‰.NO3-浓度在2.37~35.38 mg·L-1,δ15N-NO3-在0.99‰~11.09‰,均展现出明显的空间变异特征.有机肥和污水对漓江流域硝酸盐的贡献最为显著,贡献比达57.00%.其次是化肥、降雨中的NH4+和土壤N,贡献比分别是36.45%,6.55%.流域内DIC主要来源于碳酸盐岩的风化和土壤CO2的溶解,同时也受硝酸溶蚀碳酸盐岩和大气CO2的影响.结果可为定制有效的控制硝酸盐的输入途径,净化水质测略提供依据.