太湖梅梁湾和月亮湾春夏两季沉积物扰动下BAPP的转化规律

采用室内模拟试验研究了沉积物扰动下上覆水中可被生物利用颗粒态磷(BAPP)的变化规律,并分析了BAPP与悬浮物中内源磷间的内在联系.试验用沉积物分别于春季和夏季采自太湖梅梁湾和月亮湾.结果表明,沉积物扰动降低了上覆水中生物有效磷(BAP)含量,降至初始状态的40%左右.BAPP也明显降低,其占BAP的百分比稳定在50%左右,梅梁湾春季除外.扰动状态下颗粒态磷(PP)生物有效性显著降低,第12h时,BAPP占PP的百分比仅为10%左右;这与悬浮物中NH₄Cl-P和Fe/Al-P的降低明显相关,但其与 (AAP+NH₄Cl-P)占Tot-P的百分比相关性更好[r=0.565(n=48)].这暗示,沉积物扰动可能延缓了水体富营养化发展进程.     

嗜麦芽窄食单胞菌对铜镉的吸附特性与离子交换

研究了投菌量、金属浓度和戊二醛浓度对嗜麦芽窄食单胞菌吸附水体中Cu2+和Cd2+特性的影响,分析了重金属生物吸附、NO3-去除与菌体离子释放的关联,从离子吸附、交换、转化与释放的角度探讨了重金属生物吸附机制.结果表明嗜麦芽窄食单胞菌对Cu2+和Cd2+吸附性能良好,0.2 g·L-1干重菌体处理浓度为0.05 mmol·L-1的Cu(NO3)2和Cd(NO3)2溶液120 min后,Cu2+和Cd2+的吸附率分别达96.3%和83.9%.菌体对Cu(NO3)2和Cd(NO3)2溶液的吸附过程存在Cu2+和Cd2+的表面吸附与胞内运输、NO3-胞内积累、NO3-还原为NO2-等行为,而且Cu2+和Cd2+的胞内运输、NO3-积累和还原需要消耗能量,并会促进Cl-、PO43-、SO42-、Na+、NH4+、K+和Ca2+等离子的释放.红外光谱分析表明菌体酰胺基、羟基与羧基均参与了Cu2+和Cd2+的吸附.X-光电子能谱分析显示吸附后Cu2+和Cd2+的价态不发生变化.     

垦殖对湿地土壤有机碳垂直分布及可溶性有机碳截留的影响

通过测定和计算兴凯湖地区沼泽湿地及由其垦殖而来的旱田和水田土壤剖面有机碳含量和密度及土壤剖面不同深度土壤溶液中可溶性有机碳含量,分析了垦殖对兴凯湖周边沼泽湿地土壤有机碳垂直分布及土壤剖面截留可溶性有机碳的影响.结果表明,垦殖显著影响湿地0～40 cm土壤有机碳含量,大豆田和水稻田0～10、10～20、20～30、30～40 cm土壤有机碳含量与湿地相比分别降低了79.07%和82.01%、79.01%和82.28%、79.86%和92.90%、37.49%和78.05%;40 cm以下土层土壤有机碳含量垦殖前后差异不显著.大豆田和水稻田有机碳密度相比沼泽湿地分别降低了25.50%和47.35%,但三者1 m深土壤中大部分的有机碳均是储存在0～50 cm土层中.垦殖前后土壤有机碳含量与深度之间的关系均可用指数函数来描述,垦殖改变了土壤有机碳含量但并未改变其随土壤深度的变化规律.垦殖为大豆田土壤剖面对可溶性有机碳的截留效果较湿地和水稻田更明显,沼泽湿地和水稻田对可溶性有机碳的截留效果大致相当.     

四环素抗性基因在人工湿地中的去除及累积

以垂直潜流人工湿地系统为试验装置,考察了猪场养殖废水中四环素类抗生素抗性基因(tetW、tetM和tetO)在人工湿地中的去除及累积情况.结果表明,养猪废水中的3种抗性基因均有检出且含量较高,tetW、tetM和tetO的平均绝对含量分别为1.07×1010、4.03×1010和4.92×1010copies.L-1.通过湿地系统处理后,水体中抗生素抗性基因绝对拷贝数和相对表达量均明显降低,tetW、tetM和tetO的平均去除率分别为95.73%、92.21%和95.05%.在系统运行末期,湿地表层土壤和底层土壤中tetW、tetM和tetO的绝对拷贝数和相对表达量均有明显的升高,并且抗性基因在表层土壤中的累积水平高于底层土壤.因此,人工湿地系统可有效降低养猪废水中抗生素抗性基因的绝对及相对含量水平,系统的运行条件可对抗生素抗性基因在湿地系统中的积累产生影响.     

酸性矿山废水的治理技术现状及进展

酸性矿山废水(AMD)是矿山废水中危害最严重的一类废水,其产生原因和治理技术引起了广泛的重视。介绍了酸性矿山废水的主要产生原因,综述了国内外治理酸性矿山废水技术的研究现状,包括化学法、物理法、生物法、湿地法等,讨论了相关技术存在的问题,并总结了酸性矿山废水技术的新进展和发展趋势。     

复合膜生物反应器处理环氧氯丙烷废水

实验利用复合膜生物反应器处理以甘油为原料制备环氧氯丙烷产生的废水,考察了不同进水COD、水力停留时间以及盐度对处理能力的影响,并进行盐度冲击实验。生物处理后出水进行了深度处理的研究。结果表明:进水COD对处理能力影响较小;适当延长水力停留时间能优化出水水质;废水盐度高于22g/L时会对微生物产生抑制作用;深度处理能进一步降低出水COD;微生物通过一定时间的驯化期能适应并处理高盐度废水。     

Influence of dissolved organic matter character on mercury incorporation by planktonic organisms：An experimental study using oligotrophic water from Patagonian lakes

Ligands present in dissolved organic matter （DOM） form complexes with inorganic divalent mercury （Hg^2＋） affecting its bioavailability in pelagic food webs. This investigation addresses the influence of a natural gradient of DOM present in Patagonian lakes on the bioaccumulation of Hg^2＋ （the prevailing mercury species in the water column of these lakes） by the algae Cryptomonas erosa and the zooplankters Brachionus calyciflorus and Boeckella antiqua. Hg^2＋ accumulation was studied through laboratory experiments using natural water of four oligotrophic Patagonian lakes amended with^197Hg^2＋. The bioavailability of Hg^2＋ was affected by the concentration and character of DOM. The entrance of Hg^2＋ into pelagic food webs occurs mostly through passive and active accumulation. The incorporation of Hg^2＋ by Cryptomonas, up to 27% of the Hg^2＋ amended, was found to be rapid and dominated by passive adsorption, and was greatest when low molecular weight compounds with protein-like or small phenolic signatures prevailed in the DOM. Conversely, high molecular weight compounds with a humic or fulvic signature kept Hg^2＋ in the dissolved phase, resulting in the lowest Hg^2＋ accumulation in this algae. In Brachionus and Boeckella the direct incorporation of Hg from the aqueous phase was up to 3% of the Hg^2＋ amended. The dietary incorporation of Hg^2＋ by Boeckella exceeded the direct absorption of this metal in natural water, and was remarkably similar to the Hg^2＋ adsorbed in their prey. Overall, DOM concentration and character affected the adsorption of Hg^2＋ by algae through competitive binding, while the incorporation of Hg^2＋ into the zooplankton was dominated by trophic or dietary transfer.     

Waste oyster shell as a kind of active filler to treat the combined wastewater at an estuary

Estuaries have been described as one of the most difficult environments on Earth. It is difficult to know how to treat the combined wastewater in tidal rivers at the estuary, where the situation is very different from ordinary fresh water rivers. Waste oyster shell was used as the active filler in this study in a bio-contact oxidation tank to treat the combined wastewater at the Fengtang Tidal River. With a middle-experimental scale of 360 ma/day, the average removal efficiency of COD, BOD, NH3-N, TP and TSS was 80.05%, 85.02%, 86.59%, 50.58% and 85.32%, respectively, in this bio-contact oxidation process. The living microbes in the biofilms on the waste oyster shell in this bio-contact oxidation tank, which were mainly composed of zoogloea, protozoa and micro-metazoa species, revealed that waste oyster shell as the filler was suitable material for combined wastewater degradation. This treatment method using waste oyster shell as active filler was then applied in a mangrove demonstration area for water quality improvement near the experiment area, with a treatment volume of 5 × 10^3 m^3/day. Another project was also successfully applied in a constructed wetland, with a wastewater treatment volume of 1 ×10^3 m^3/day. This technology is therefore feasible and can easily be applied on a larger scale,     

敦煌阳关湿地的特点及可持续利用的分析

湿地是自然界生物多样性最丰富的生态景观和人类最重要的生存环境之一。敦煌阳关湿地因其特殊的地理环境形成了其明显的特点。人为活动对该湿地资源的过度开发及不合理利用,加之全球气候变化的影响,湿地面临着环境恶化、资源枯竭、生态退化等的严重威胁。这也对该湿地功能的发挥和可持续利用造成了非常大的影响。本文以敦煌阳关湿地为研究对象,分析了阳关自然保护区内湿地保护面临的问题,并提出科学合理规划湿地、开展湿地资源监测、湿地保护与生态旅游开发的协调发展等一系列措施。本文对甘肃敦煌阳关国家级自然保护区湿地资源的保护和可持续发展有一定的参考意义。     

化学铁盐辅助除磷对生物除磷的影响研究

化学辅助除磷有助于污水厂实现磷达标,但其对生物系统存在潜在的影响。针对除磷药剂对生物除磷过程的影响展开研究,选用硫酸亚铁进行化学辅助除磷。药剂形成的化学污泥干扰生物除磷过程且成分复杂,故以磷酸铁、氢氧化铁模拟化学污泥,由钾离子、K/P摩尔比计算出同步除磷中的生物除磷,来探讨化学污泥对聚磷菌释磷/吸磷过程的影响。结果表明,连续投加硫酸亚铁使聚磷菌的释磷量、吸磷量降低;系统中磷酸铁含量0.075 mmol/L时聚磷菌的释磷和吸磷能力提高了约25%,磷酸铁含量0.15 mmol/L时对聚磷菌吸磷有抑制作用;氢氧化铁对聚磷菌释磷、好氧初期吸磷均有抑制作用。生物污泥与化学污泥存在交互作用。