底泥污染物释放动力学研究

采用模拟试验方式和新型微生物数量测定方法，研究了沼泽化湖泊底泥和受污染河流底泥在不同扰动状态下，底泥耗氧速率、氮和磷污染物释放动力学过程。结果表明：（1）底泥耗氧速率是同样条件下上覆水耗氧速率的48倍，而在扰动状态下，底泥氧速率达到上覆水耗氧速率的596－936倍，扰动底泥显著增大其耗氧速率，底泥污染越严重，其耗氧速率越大，对水体产生的影响也越大。（2）扰动底泥可以显著增大底泥的氮磷释放速率，氮的释放受到机氮的氨化、氨氮的硝化、硝酸盐氮的反硝化以及氨氮被微生物吸收转化为有机氮等的影响；磷的释放过程受厌氧过程和底泥颗粒吸附的影响，耗氧速率高的底泥具有更大的氨磷释放潜力。（3）微生物数量在底泥污染物释放动力学中起着关键性作用，亲型方法可以快速检测微生物总量。试验结果对于水环境的管理、受污染水体的修复，以及底泥的处理处置等都具有重要的指导意义。     

曝气对黑臭河道污染物释放的影响

利用黑臭河道模拟装置,对比研究了在静置和人工曝气2种方式下底泥污染释放特征及对上覆水水质的影响。结果表明,与静置释放相比,人工曝气促使实验前期底泥污染物快速释放,使得上覆水体中的各项污染物指标上升;随着水体中DO浓度的增加,硝化细菌、嗜磷菌等好氧细菌的活性增强,水体中的COD、氨氮、TN和TP得到降解或转化,浓度快速下降。实验期内,人工曝气底泥中TN、TP的平均释放速率分别为:-0.11 g/(m2·d)和-0.02 g/(m2·d),并且TP由最初的0.96 mg/L降到最终的0.48 mg/L,去除率达到50.00%。人工曝气在前期对水体中各污染指标有升高的影响,但增加了水体中的DO浓度,可以有效地抑制底泥中氮和磷的释放,对水体有机污染物、TN及TP有一定的削减作用,因此,该技术适合黑臭河道的水体修复。     

藻类打捞对水体营养循环的影响及其生态效果研究

富营养化水体中的藻华是氮磷的富集器,太湖打捞藻样中的总氮、总磷、游离磷及有机物含量分别为98.87g/kg、3.25 g/kg、0.21 g/kg和95.65%。在底泥中沉降藻类的矿质化周期随着温度的升高而缩短;且其向上覆水中释放氮、磷的强度具有随水温升高而增强的趋势。但在水层厚/底泥比不同的区域,这种营养物释放强度又存在显著的差异。实验证明,藻类的打捞是一种人工延长食物链去除氮磷等污染物的有效方法。     

水葫芦对滇池底泥氮磷营养盐释放的影响

为了探讨水葫芦对富营养湖泊底泥氮磷营养盐释放的影响，通过原位采集滇池柱状底泥，以蒸馏水为上覆水，进行了25d的室内静态模拟实验。实验比较了水葫芦处理组和空白对照组底泥氨氮（NH4-N）、硝态氮（NO3^-N）、溶解性总氮（DTN）、正磷酸盐（PO4^3--P）等的释放特征。结果表明，与对照组相比，水葫芦处理组上覆水溶解氧、pH显著性降低，而PO4^3-P浓度显著性升高；在实验前2d，水葫芦处理组上覆水NH4^＋N和DTN浓度显著性高于对照组，而在5～25d时，其显著性低于对照组。根据上覆水营养盐浓度、水葫芦植株吸收营养盐总量，推算底泥氮磷营养盐释放的平均速率，表明水葫芦加速了滇池底泥氮、磷营养盐的释放速率，处理组氮、磷释放速率分别为对照组的5．3～170．2和1．5～21．6倍。     

城市富营养化水体底泥净化磷效果

以城市富营养化水体底泥和上覆水为材料,研究了扰动状态下底泥对外源磷的净化效果。结果表明,扰动状态下,200 g湿底泥从上覆水中共吸收外源磷19.92 mg,而静止状态下,200 g湿底泥仅吸收了13.61 mg。然而,厌氧状态下,前者内源磷释放量仅占吸收磷量的43%,而后者则高达63.4%。说明底泥扰动不仅强化了底泥对外源磷的吸收,而且也强化了内源磷的固定能力。这与扰动状态下外源磷在不同形态磷间的数量分布有关。底泥扰动和静止状态下,难释放态磷(HCl-P、闭蓄态Fe/Al-P)的增加量分别占底泥吸收外源磷量的36%和21%。     

环境因素对长寿湖底泥释磷影响的模拟实验研究

肥水养殖显著增加了长寿湖底泥中的磷含量。为了解肥水养殖积累在湖泊底泥中磷的释放情况,以长寿湖大坝口枯水期底泥为实验材料,模拟研究了不同环境条件(上覆水pH、温度、DO含量和扰动)下湖泊底泥的释磷特征。结果表明,在弱碱性条件下,底泥释磷量随上覆水pH的升高而升高;温度升高有利于底泥磷的释放,温度每升高5℃,第21天时底泥释磷量增大0.0045～0.0074 mg/L;DO含量降低有利于底泥中铁/铝结合态磷的释放;扰动对底泥磷的释放没有明显影响。研究表明,网箱养殖增加了底泥中的有机磷含量,促进有机磷向无机磷转化,增大了底泥中磷的释放风险。     

底泥修复对城市污染河道水体污染修复的影响研究

为开发城市黑臭河道的有效治理方法，利用人工模拟河道就河道底泥对上覆水体的二次污染、底泥污染生物修复对其氮磷营养盐释放及河道水体污染生物修复的影响进行了研究，并对实验结果进行了工程现场应证。研究结果表明：河道污染底泥生物修复状况对上覆水体水质产生大的影响，在底泥不加修复时，底泥污染物释放使水体COD、TP、NH₃-N浓度分别达到30～35 mg/L、0.4～0.5 mg/L和3.0 mg/L，底泥修复后分别为15～20 mg/L、0.1 mg/L和2.5 mg/L；底泥G值（y）与底泥氮、磷污染物释放量（x）呈负相关关系，关系式分别为：y=0.5124x-0.1394（R₂=0.9222），y=0.17772x-0.4781（R₂=0.8701）；结合底泥的生物修复，采用曝气增氧投加生物制剂措施对水体进行生物修复时COD、NH₃-N和PO^3-₄的去除率分别提高13.6%、25.0%和15.7%；对古廖涌的现场治理工程表明，在未对河道底泥进行生物修复的情况下，经过氧化塘预处理河道水体增氧-水体原位强化生物修复等措施的治理，河道中、下游水体又逐渐恢复黑臭，在对河道底泥进行修复后，河道污染水体水质得到显著的改善和提高。     

底泥扰动状态下内源磷释放过程模拟研究

为了揭示底泥扰动对内源磷释放的影响,通过室内实验模拟了底泥多次扰动状态的整个过程。结果表明,底泥扰动刚结束(0 h),溶解态磷(DIP、DTP)显著降低;底泥扰动结束后(1、6和24 h),溶解态磷发生"滞后释放"。第1 d,在1、6和24 h采样时段,DIP、DTP的"滞后释放量"最大,分别达到20.0 1mg/kg,22.12 mg/kg,16.85 mg/kg和17.21 mg/kg,22.12 mg/kg,9.69 mg/kg。第2 d,该释放量分别降低了44.80%~57.87%和42.52%~61.24%。随着底泥扰动次数的增加,溶解态磷的"滞后释放"逐渐转变为"负释放",同时,DIP/TP和DTP/TP逐渐降低。这说明,底泥扰动应该是促进了上覆水中溶解态磷向底泥的迁移和强化了底泥对磷的固定作用,同时降低了水体中磷的可生物利用性。因此推测,底泥扰动延缓了水体富营养化的发展进程。     

四平市二龙湖底泥磷释放研究

采用室内实验模拟法对四平市二龙湖富营养化限制因子磷的底泥释放速率及释放量进行了研究,并研究在各种环境因子（温度、pH、DO和扰动因素）影响下底泥磷的释放规律.结果表明,（1）二龙湖年平均底泥释磷量为208.78kg,最大释磷率为0.889 μg/g（T=20℃,pH=8,DO为4.68 mg/L）;（2）自然和人为的扰动因素会促进底泥的磷释放;（3）pH在弱酸至中性范围内底泥释磷量最小,酸性和碱性条件都有利于磷的释放;（4）随着温度的升高底泥释磷量增大;（5）厌氧条件比好氧条件更有利于磷的释放.     

溶解氧对河流底泥中三氮释放的影响

作为内源污染的底泥沉积物中营养物的释放引起了越来越多的关注。通过大型静态土柱模拟实验,研究氮在上覆水和孔隙水中的分布特性和释放特性。在控制氧气条件、底泥有机质含量和粒径大小的条件下,连续观测氨态氮、亚硝态氮和硝态氮的浓度及其垂向分布特性。结果发现：时间分布上,通氧条件明显影响水体底泥中三氮释放与反硝化作用达到平衡的时间;垂向分布上,三期实验的上覆水的无机氮以氨态氮为主,不同的通氧条件下,各柱的孔隙水的三氮浓度比上覆水高,且三氮在沉积物中随深度增加而增加;氨态氮和硝态氮浓度则以孔隙水的为高,随深度增加而增加;低溶解氧水平加快底泥释放氨氮速度和增大释放量。     

梁滩河沉积物中氮磷垂直分布研究

以梁滩河为研究对象,从上游到下游布置了15个采样点,研究了这些采样点的氮、磷浓度,并以其中几个采样点为主要对象,着重研究了氮、磷在不同深度的垂直分布情况。结果表明,梁滩河的上游左支氮、磷浓度已经较高,而上游右支受污染严重,特别是TN严重超标,说明长期受到生活污水和农业废水的污染。分析其垂直分布规律,TN、TP最高值大多出现在中间层,TP在底层的浓度总体要比表层高,而TN在底层的浓度总体要比表层低。梁滩河沉积物中氮、磷主要集中在中间层,中间层是营养物储存的主要场所。     

Effects of oxygen on the release and distribution of phosphorus in the sediments under the light condition

Effects of oxygen on the release and distribution of phosphorus (P) in the sediments in the presence of light were investigated, using sediment cores and overlying water from Lake Taihu, in China. The results show that P can be released from sediments to the overlying water in both anoxic and aerobic conditions. But more P was released in the anoxic condition. The transformation of P between various fractions in the sediments was observed during the release experiments. Concentrations of Ca-bound P and organic P in the sediments decreased in both conditions, but Fe/Al-bound P increased in the aerobic condition. The decrease of total P and P fractions in the sediments is consistent with the accumulative increase in quantity (AIQ) of total P (TP) in the overlying water, but is contrary with the AIQ of dissolved inorganic P. This is due to the uptake of algae by the dissolved inorganic P. Total nitrogen in the sediments in the anoxic condition was lower than that in the aerobic condition, and pH in the overlying water increased in the anoxic condition.     

菖蒲和空心菜在处理微污染河水潜流人工湿地中的应用

为了探讨修复微污染河水的潜流湿地中植物对污染物去除效果的影响及其生长变化,在野外条件下构建2座分别栽种菖蒲和空心菜的水平潜流人工湿地,并以未栽种植物的湿地作空白。分析了湿地中污染物的去除效果,考察了湿地中植物的生物量、根系活力和氮磷含量的变化。植物湿地中污染物净化效果优于空白湿地,菖蒲和空心菜湿地对氨氮(NH+4-N)、总氮(TN)、总磷(TP)和高锰酸盐指数(CODMn)的平均去除率分别为61.1%和57.5%,31.5%和39.7%,24.7%和25.5%,20.4%和20.7%。实验结果表明,湿地中菖蒲的根系鲜重是空心菜的4.2倍,但其根系活力低于空心菜。2种植物均可在湿地中正常生长,但受湿地中营养盐浓度的限制性影响,移栽后的植物组织氮磷含量与移栽前相比下降了11.8%~20.3%。植物在净化微污染河水的潜流人工湿地中对N、P的去除起重要作用。     

水深对表面流人工湿地污染河水处理系统运行效果的影响

基于中试系统一年的连续运行监测,研究了水深对芦苇表面流人工湿地污染河水处理系统的影响。结果表明,水深对表面流人工湿地污染河水处理系统运行效果有很大影响,在进水COD、氨氮、总氮和总磷等分别为36±4.46、0.92±0.47、6.27±2.01和0.13±0.05 mg/L条件下,水深50 cm时处理效果最好,COD、氨氮、总氮和总磷去除率分别达到42.75%、58.42%、56.94%和43.24%。综合污染物去除效果和人工湿地建设工程量,芦苇表面流人工湿地的水深宜采用50 cm。人工湿地系统中植物光合生理和溶解氧等研究表明,水深主要通过影响植物生长和溶解氧等而影响人工湿地的水质净化效果。     

Development of freshwater sediment management standards for organic matters, nutrients, and metals in Korea

Korean water quality managers are required to promptly develop national assessment standards for freshwater sediment quality due to the Four Major River Restoration Project in Korea in 2009. We conducted this study to develop sediment management standards (SMSs), determining obviously and severely polluted sediment, which could have adverse impacts on water quality and aquatic ecosystem. The SMSs values were derived from the 95th percentile of concentration distribution for organic matter and nutrients in sediment quality database. For the SMSs of metals, foreign sediment quality guidelines (SQGs) were adopted. As a result, 13 % for loss on ignition (LOI), 1,600 mg/kg for total phosphorus (TP), and 5,600 mg/kg for total nitrogen (TN) were set as the SMSs for freshwater sediment in Korea. These values were higher than the range of heavily polluted sediment from USEPA Region 5 guideline derived by the similar approaches for the Great Lakes harbor sediments, and similar or lower than the severe effect level (SEL) from provincial sediment quality guideline (PSQG) of Ontario, Canada by screening level concentration (SLC) approach. However, SMSs in the present study are appropriate considering the concentration ranges and the Korean SMSs’ definition for freshwater sediments in Korea. The Puget Sound marine sediment cleanup screening level (CSL) in Washington State, USA were adopted as the Korean SMSs for As (93 mg/kg), Cd (6.7 mg/kg), Cr (270 mg/kg), Cu (390 mg/kg), Pb (530 mg/kg), and Zn (960 mg/kg) in freshwater sediments. Hg concentration (0.59 mg/kg) of CSL was too low to determine the polluted freshwater sediments in Korea, and the SEL of Ontario, Canada for mercury concentration (2 mg/kg) was selected as the SMS for Hg. These values were found reasonable through the assessment of applicability with the datasets from locations directly affected by obvious point sources. These results indicate that SMSs for organic matter, nutrient, and metals derived within the present study can successfully determine obviously and severely polluted sediment in Korea. However, the SMSs have limits to specifically determine the effects of polluted sediment on water quality and aquatic ecosystem in Korea. Thus, we will revise and specify SMSs considering those effects and further sediment quality assessment framework in the near future.     

合肥市南淝河不同排口表层沉积物磷形态分布特征

对合肥市南淝河不同排口处表层沉积物进行了采样,并采用修正后的标准测试程序SMT和钼锑抗紫外分光光度法测定了其中的总磷(TP)、无机磷(IP)、有机磷(OP)、铁/铝磷(Fe/Al-P)和钙磷(Ca-P),同时分析了各形态磷之间以及与沉积物有机质之间的相关性。结果表明,由于各排口附近不同的水动力条件,污染状况以及沉积环境,各排口表层沉积物总磷(TP)的质量分数存在显著差异,其值在771.23~3 065.36 mg/kg之间,除二里河排口(S15)沉积物磷以钙磷(CaP)为主外,其他采样点表层沉积物磷均以铁/铝磷(Fe/Al-P)为主,各形态P的最低值均在位于南淝河上游的S4点,TP、IP、Fe/Al-P的最大值均出现在位于望塘污水厂排口下游60 m处的S6点,潜在释放磷比例最大值在南淝河上游受农业面源污染影响较大的S3点。沉积物各形态磷之间存在着不同程度的相关性,各形态磷与有机质存在着显著的正相关。以上结果表明,南淝河沉积物磷形态分布特征受排口类型影响显著,其中城市污水处理厂尾水可能是受纳水体沉积物重要的磷源。     

Spatial and temporal organic and heavy metal pollution at Mai Po Marshes Nature Reserve,Hong Kong

An intensive monthly sampling of water and sediments from 12 sites over 8 months covering wet and dry seasons at Mai Po Marshes Nature Reserve was conducted during June 1997-February 1998. Major organic (C, N and P) and heavy metal pollutants (Cd, Cr, Cu, Ni, Pb, Zn) water and sediment samples were examined. The results showed that Mai Po Marshes were severely polluted by organic matter and heavy metals, and the water from Deep Bay appeared to be the source of pollution. Up to 13-55% chance that the sediments of Mai Po Marshes were classified as moderately to seriously metal contaminated materials, according to the guideline set by Hong Kong Government. Empirical models describing organic matter and heavy metal spatial and seasonal dynamics in the water and sediments were formulated, based on data analysis. During wet season (June-October), more than 58% variations of total P can be explained by ortho-P in water, while ammonia-N explained up to 90% variations of total Kjeldahl nitrogen in water. Throughout the whole sampling period (June-February), there were significant correlations (p<0.01) between total organic C in water. pH in the sediments and salinity in water appeared to be important factors determining heavy metal mobility in sediments, while potential metal release from the sediments is a concern when any oxidizing processes such as flooding or dredging are imposed on sediments.