河岸带地下水营养元素和有机质变化及与洪水的响应关系研究

河岸带地下水和河水存在复杂的交互作用,地下水和地表水存在明显的补排关系,洪水事件是影响河岸带地下水水质波动的重要水文过程. 以黄河湿地国家级自然保护区孟津湿地为研究对象,通过河岸带地下水营养元素指标(特别是小浪底水库调水调沙期间)野外定位观测,深入分析了河岸带地下水水质变化及其与洪水的响应关系. 结果表明,河岸滩区的农业开发存在明显的氮、磷下渗流失风险. 临近河岸的农耕旱作区,是河流与人工湿地之间一个特殊的氮污染物控制单元,对地下水和河流之间的氮迁移隔离起着极为重要的作用. 在人工湿地,农家粪作为底肥加入可能是磷下渗流失的重要源头,进入地下水中的磷顺着水力坡度还发生着显著的横向迁移,尤其在调水期横向迁移更加明显. 河岸滩区的开发类型及其耕作制度对地下水的硝氮含量产生重要的影响. 在鱼塘区,常年的土壤厌氧环境加重了氮的下渗迁移和积累;在荷塘区,春夏季节,土壤淹没呈厌氧环境,氮迁移和硝化作用显著,在秋冬季节,土壤呈好氧环境,氮硝化作用显著发生,全年氮达到相对平衡的状态;距离河岸50～200 m之间氮的硝化-反硝化作用强烈,是一个高效的微生物氮净化单元. 人工湿地施用的农家粪是有机物流失的重要源头,河岸滩区土壤质地呈沙性,渗透能力强,土壤保水保肥能力差,在此区进行农业活动,尤其是人工湿地开发中大量施用肥料,容易造成土壤表层有机质和氮磷养分因灌溉而导致的下渗流失,进而污染地下水与河水,较由降雨引起的地表径流流失显得更为突出. 距离河道50～200 m的范围是重要的污染净化单元,为典型的滩区地下水-河流的水陆交错带. 该区域的合理保护,对于保护河流水质和地下水水质十分重要.     

浸入式短流程超滤膜生产工艺过程膜污染的形成与控制

以江苏芦泾水厂膜技术改造工程为对象,从水质、膜工艺特征结合生产运行过程以及污染膜的清洗进行了分析,目的是了解膜污染的组分构成,评价不同清洗剂的清洗效果,获取较优的清洗顺序.结果表明,原水以憎水酸(HOA)和亲水组分(HIM)为主体,质量分数各占40.34%和28.48%.溶解性有机物(DOM)则以芳香性蛋白质Ⅱ类物质为...     

粒级、pH和有机质对汞在松花江沉积物表面吸附-解吸的影响

为进一步揭示汞在松花江沉积物表面的环境行为,通过模拟实验,研究粒级、pH和溶解性有机质(DOM)对汞在松花江沉积物表面吸附-解吸量的影响.结果表明,不同粒级沉积物的吸附能力差别较大,本实验条件下,沉积物粒级越小,其吸附能力越强.在各种浓度的实验设计组中均有:pH由3.5升高至4.5时,吸附量增加,当pH4.5时,随pH的继续升高吸附量开始降低;沉积物中汞的解吸量随pH的增加呈先下降后上升的趋势变化,各体系的最小值均出现在pH5.柠檬酸对沉积物吸附汞的影响以抑制作用为主,其抑制作用强度与吸附体系中汞浓度有关;柠檬酸对解吸量的影响也比较明显,随着柠檬酸浓度的增加,对沉积物中汞解吸作用的影响表现为促进-抑制-稳定的变化趋势.因此,以上因素对汞在沉积物表面吸附-解吸的影响较大,在进行河流汞污染控制及突发污染事件处理时,有必要充分考虑以上因素的影响.     

羊草草原和贝加尔针茅草原生态系统呼吸的差异分析

应用静态暗箱-气相色谱法对羊草草原和贝加尔针茅草原的生态系统呼吸CO2通量进行了测算,分析了生态系统呼吸的影响因素,比较了2种草原生态系统呼吸的差异并分析了产生差异的原因.观测期间羊草草原生态系统呼吸CO2通量平均为(12.03±2.10)mg·(m2·min)-1,显著低于贝加尔针茅草原[(20.09±4.41)mg·(m2·min)-1];而羊草草原生物量显著大于贝加尔针茅草原(p0.001).羊草草原和贝加尔针茅草原生态系统呼吸都与温度(箱内气温、5cm和15cm地温)具有显著的指数函数关系.通过偏相关分析发现,在地温作为控制变量时,生态系统呼吸与土壤Eh、pH间不再具有显著的相关性,Eh、pH对CO2通量的影响可能是由地温变化间接引起的,而CO2通量与活体生物量呈现出了一定的相关性,与凋落物生物量无显著相关性.2种草原的CO2通量都可以用温度指数模型进行很好地模拟,基于地温的模拟效果(R2为0.568～0.639)显著好于基于箱内气温的(R2为0.323～0.426).地温是2种草原生态系统呼吸最重要的影响因素,它掩盖了地上部植物体对生态系统呼吸的影响.在该区域,土壤呼吸占生态系统呼吸比例较高,贝加尔针茅草原较高的有机质含量导致了其生态系统呼吸CO2通量较高.     

Review of the remediation strategies for soil water repellency

Many regions of the world are predicted to experience water scarcity due to more frequent and more severe droughts and increased water demands. Water use efficiency by plants can be negatively affected by soil water repellency (SWR). It is timely to review existing techniques to remedy SWR. Ideally remediation addresses the origins of a problem. However, the fundamental mechanisms of how and why SWR develops are still poorly understood. In this review it was hypothesized that SWR occurs where the balance of input-decomposition of organic matter is impaired, due to either increased input or decreased decomposition rates of hydrophobic substances. Direct and indirect strategies to remedy SWR were distinguished. While direct remediation aims at abolishing the causes of SWR, indirect strategies seek to manage sites with SWR by treating its symptoms. The 12 reviewed strategies include applying surfactants, clay, slow-release fertilizers, lime, and fungicides, bioremediation of SWR through stimulating earthworms, choosing adapted vegetation, irrigation, cultivation, soil aeration and compaction. Some of the techniques have been applied successfully only in laboratory experiments. Our review highlights that it is not straightforward to cure SWR based on easily measurable and site-specific soil and vegetation properties, and that long-term, large-scale field experiments are required to improve the understanding of the evolution of SWR as cornerstone to develop cost-effective and efficient remediation strategies. We also identified current research gaps around the diagnosis and prevention of SWR.     

Potential particulate pollution derived from UV-induced degradation of odorous dimethyl sulfide

UV-induced degradation of odorous dimethyl sulfide (DMS) was carried out in a static White cell chamber with UV irradiation. The combination of in situ Fourier transform infrared (FT-IR) spectrometer, gas chromatograph-mass spectrometer (GC-MS), wide-range particle spectrometer (WPS) technique, filter sampling and ion chromatographic (IC) analysis was used to monitor the gaseous and potential particulate products. During 240 min of UV irradiation, the degradation e ciency of DMS attained 20.9%, and partially oxidized sulfur-containing gaseous products, such as sulfur dioxide (SO2), carbonyl sulfide (OCS), dimethyl sulfoxide (DMSO), dimethyl sulfone (DMSO2) and dimethyl disulfide (DMDS) were identified by in situ FT-IR and GC-MS analysis, respectively. Accompanying with the oxidation of DMS, suspended particles were directly detected to be formed by WPS techniques. These particles were measured mainly in the size range of accumulation mode, and increased their count median diameter throughout the whole removal process. IC analysis of the filter samples revealed that methanesulfonic acid (MSA), sulfuric acid (H2SO4) and other unidentified chemicals accounted for the major non-refractory compositions of these particles. Based on products analysis and possible intermediates formed, the degradation pathways of DMS were proposed as the combination of the O(1D)- and the OH- initiated oxidation mechanisms. A plausible formation mechanism of the suspended particles was also analyzed. It is concluded that UV-induced degradation of odorous DMS is potentially a source of particulate pollutants in the atmosphere.     

有机质对土壤气相抽提去除四氯化碳效率的影响

某重要岩溶地下水源地因附近农药厂排放含四氯化碳污水而受到严重污染,实验采用土柱通风试验模拟土壤气相抽提(SVE),研究环境温度为20℃,通风速率为40mL/min,土壤含水率10%,而土壤有机质含量分别为3.02%和0.13%条件下的两种供试土壤中四氯化碳污染物的去除过程.结果表明,土柱通风能有效去除土壤中的四氯化碳污...     

贵州红枫湖水体溶解有机质的剖面特征和季节变化

溶解有机氮(dissolved organic nitrogen,DON)与溶解有机碳(dissolved organic carbon,DOC)相结合在湖泊水体溶解有机质(dissolved organic matter,DOM)的研究中少有报道.本研究对贵州喀斯特地区高原性湖泊———红枫湖水体DOC和DON的含量进行了近2a的测定,研究了DOM的剖面特征和季节变化,并探讨了DOM垂向分布和季节变化的影响因素.结果表明,红枫湖DOC的浓度范围为1.60～3.08 mg·L^-1,DON的浓度范围为0.10～0.37 mg·L^-1.在湖水混合期表层和底层的DOC和DON的浓度基本一致,在湖水分层期DOC和DON浓度表现出从表层往底层减小的趋势.表层水体(0～2m或3m)DOC的浓度在春末夏初或夏季达到最大,DON的浓度在春末夏初稍高于其它月份.结合叶绿素和降雨的数据分析认为,藻类活动和陆源输入直接导致了表层水体DOM的季节变化模式.DOM的C/N在一般情况下向下增大,但在夏季南湖的垂向水柱上,DOC和DON的浓度在12m以下增大,C/N从12m的18.1下降为14m的14.9,并向下持续减小,这很有可能是颗粒态有机质发生降解释放出C/N较低的DOM,成为水体内DOM的一个内源.     

受污染原水中有机物去除中试集成系统的工艺对比研究

在中试集成系统水平上对比研究了常规工艺、预臭氧化工艺、粒状活性炭吸附工艺、臭氧-生物活性炭工艺对受污染源水中的有机物及消毒副产物前体的去除效果.结果表明,前2种工艺对有机物的去除效能大致在50%～60%,后2种则能达到75%～90%.与前2种相比,后2种为更有效地去除受污染原水中有机物的方法.建议采用Ⅱ类及更优水体为水源的水厂考虑使用常规处理或季节性水质变化时采用预氧化工艺;而对于那些以Ⅲ类或更差水体为主水源的水厂则应考虑增设GAC或BAC设备,以满足饮用水水质新标准要求.     

黑河中游边缘绿洲农田退耕还草的土壤碳、氮固存效应

研究黑河中游边缘绿洲农田退耕种植苜蓿5a后土壤碳、氮库的变化,通过对2个土类(开垦耕种的风沙土和灰棕漠土)退耕苜蓿地和相邻农田0～5、5～10和10～20cm土层土壤有机碳(SOC)和全氮(TN)、颗粒有机碳和氮(POC、PON)储量的分析表明:开垦耕种的风沙土和灰棕漠土有极低的SOC和TN含量,退耕种植苜蓿后0～20cm SOC储量提高了22.1%～27.8%,SOC的固存率平均为0.47 Mg/(hm²·a),0～5cm表层SOC储量变化最大,提高32%～66%;TN储量0～20cm储量变化不显著,在0～5cm表层TN储量风沙土和灰棕漠土分别提高12.8%和48.1%.退耕后POC和PON较SOC和TN有更显著的变化,其分配比例增加,0～20cm土层POC和PON储量分别提高22.8%～42.7%和18.6%～57.6%,在0～5cm变化最大;在瘠薄耕地转变为多年生苜蓿地后土壤C库的增加主要是由于POC的形成量增加.SOC含量相对更低的灰棕漠土比风沙土退耕后土壤C、N的增加更为明显.