铝钛改性MCM-41材料对污水中铅镉的吸附研究

研究了改性MCM-41材料对污水中重金属铅、镉离子的吸附行为。在MCM-41材料中加入Al、Ti两种诱因金属离子来合成新的Al-Ti-MCM-41及Ti-Al-MCM-41改性材料,通过氮气吸附-脱附等温线对Al-Ti-MCM-41(Al/Ti=1∶1)及Al-Ti-MCM-41(Al/Ti=2∶1)样品进行了表征,并采用改性后的MCM-41材料为吸附剂对含有二价铅、镉离子的溶液进行吸附实验,考察了吸附剂投加量,Pb2+、Cd2+初始质量浓度和吸附温度对吸附的影响。结果表明:改性Al-Ti-MCM-41(Al/Ti=1∶1)材料的最可几孔径和比孔容分别为16.68 nm和0.046 cm3/g,由BJH计算得到的平均孔径为17.02 nm;Al-Ti-MCM-41(Al/Ti=2∶1)的最可几孔径和比孔容分别为16.88 nm和0.083 cm3/g,由BJH计算得到的平均孔径为17.08 nm。Al-Ti-MCM-41(Al/Ti=1∶1)对Cd2+的吸附率为99.8%;Al-Ti-MCM-41(Al/Ti=2∶1)对Pb2+的吸附率为99.96%;Pb2+和Cd2+的吸附容量随吸附剂投加量的增加而降低,随离子初始浓度的增大而增加;温度越高越有利于吸附。该研究重点考察改性MCM-41材料在重金属铅镉离子污染治理中的性能,从而为解决重金属铅镉的污染,加强环境保护提供理论支撑和技术支持,具有明确的现实意义。     

Biofilm-overproducing Bacillus subtilis B12ΔYwcc decreases Cd uptake in Chinese cabbage through increasing Cd-immobilizing related gene abundance and root surface colonization

Biofilm-producing bacteria can decrease Cd uptake in vegetables, but mechanisms underlying this effect are poorly characterized. In this study, two mutant strains B12ΔYwcc and B12ΔSlrR were constructed from a biofilm-producing Bacillus subtilis strain B12. Then, the impacts of strain B12 and its high biofilm-producing mutant strain B12ΔYwcc and low biofilm-producing mutant strain B12ΔSlrR on Cd availability and uptake in Chinese cabbage and the related mechanisms were investigated in the Cd-polluted soil. Strain B12 and its mutants B12ΔYwcc and B12ΔSlrR increased the dry biomasses of edible tissues by 54%–130% compared with the controls. Strain B12 and its mutant B12ΔYwcc reduced the soil available Cd content by 36%–50% and root and edible tissue Cd contents by 23%–50% compared with the controls. Furthermore, the mutant strain B12ΔYwcc reduced the edible tissue Cd content by 40% and increased the polysaccharide content by 23%, invertase activity by 139%, and gene copies of the cumA by 4.5-fold, epsA by 7.1-fold, and cadA by 4.3-fold, which were involved in Cd adsorption in the rhizosphere soils, respectively, compared with strain B12. The polysaccharide content and cumA, epsA, and cadA gene copy numbers showed significantly reverse correlations with the available Cd content. Notably, the mutant strain B12ΔYwcc showed better ability to colonize the vegetable root surface than strain B12. These findings demonstrated that the biofilm-overproducing mutant strain B12ΔYwcc increased the polysaccharide production and Cd-immobilizing related cumA, epsA, and cadA gene copies, resulting in lower Cd availability and accumulation in Chinese cabbage in the Cd-polluted soil.     

Cultivar-dependent rhizobacteria community and cadmium accumulation in rice: Effects on cadmium availability in soils and iron-plaque formation

The association between the rhizospheric microbial community and Cd accumulation in rice is poorly understood. A field trial was conducted to investigate the different rhizobacterial communities of two rice cultivars with high Cd accumulation (HA) and low Cd accumulation (LA) at four growth stages. Results showed that the Cd content in the roots of the HA cultivar was 1.23 - 27.53 higher than that of the LA cultivar (0.08 - 10.5 µg/plant) at four stages. The LA cultivar had a significantly lower Cd availability in rhizosphere and a higher quantity of iron plaque (IP) on the root surface than the HA cultivar at four stages. This resulted in the reduction of Cd concentration in IPs and Cd translocation from IP-to-root. Microbial analysis indicated that the LA cultivar formed a distinct rhizobacterial community from the HA cultivar and had less α-diversity. The rhizosphere of the LA cultivar was enriched in specific bacterial taxa (e.g., Massilia and Bacillus) involved in Cd immobilization by phosphate precipitation and IP formation by iron oxidization. However, the rhizosphere in the HA cultivar assembled abundant sulfur-oxidizing bacteria (e.g., Sulfuricurvum) and iron reduction bacteria (Geobacter). They promoted Cd mobilization and reduced IP formation via the metal redox process. This study reveals a potential approach in which specific rhizobacteria decrease or increase Cd accumulation in rice on contaminated soil and provides a new perspective for secure rice production.     

Effects of long-term amendment of organic manure and nitrogen fertilizer on nitrous oxide emission in a sandy loam soil

To understand the effects of long-term amendment of organic manure and N fertilizer on N2O emission in the North China Plain, a laboratory incubation at different temperatures and soil moistures were carried out using soils treated with organic manure （OM）, half organic manure plus half fertilizer N （HOM）, fertilizer NPK （NPK）, fertilizer NP （NP）, fertilizer NK （NK）, fertilizer PK （NK） and control （CK） since 1989. Cumulative N2O emission in OM soil during the 17 d incubation period was slightly higher than in NPK soil under optimum nitrification conditions （25℃ and 60% water-filled pore space, WFPS）, but more than twice under the optimum denitrification conditions （35℃ and 90% WFPS）. N2O produced by denitrification was 2.1-2.3 times greater than that by nitrification in OM and HOM soils, but only 1.5 times greater in NPK and NP soils. These results implied that the long-term amendment of organic manure could significantly increase the N2O emission via denitrification in OM soil as compared to NPK soil. This is quite different from field measurement between OM soil and NPK soil. Substantial inhibition of the formation of anaerobic environment for denitrification in field might result in no marked difference in N2O emission between OM and NPK soils. This is due in part to more rapid oxygen diffusion in coarse textured soils than consumption by aerobic microbes until WFPS was 75% and to low easily decomposed organic C of organic manure. This finding suggested that addition of organic manure in the tested sandy loam might be a good management option since it seldom caused a burst of N2O emission but sequestered atmospheric C and maintained efficiently applied N in soil.     

Biological control experiment of excess propagation of Cyclops for drinking water security

Cyclops of zooplankton propagated excessively in eutrophic water body and could not be effectively inactivated by the conventional disinfections process like chlorination due to its stronger resistance to oxidation. In this study, an ecological project was put forward for the excess propagation control of Cyclops by stocking the filter-feeding fishes such as silver carp and bighead carp under the condition of no extraneous nutrient feeding. The results of experiments with different stocking biomass showed that the propagation of Cyclops could be controlled effectively, and the water quality was improved simultaneously by impacting on nutriment level and plankton community structure at proper stocking density of 30 g/m^3 of water. The growth of Cyclops may not be effectually controlled with lower biomass of fish （10 g）, and the natural food chain relation may be destroyed for Cyclops dying out in water while the intense stocking of 120 g per cubic meter of water. In addition, the high predator pressure may accelerate supplemental rate of nutrients from bottom sediments to water body to add the content of total nitrogen and phosphorus in water.     

不同粒径羟基磷灰石对污染土壤铜镉磷有效性和酶活性的影响

为研究不同粒径羟基磷灰石对重金属污染土壤的修复效果,采用向污染土壤添加常规磷灰石（150 μm）、微米（3 μm）和纳米（40 nm）羟基磷灰石的田间原位试验方法,考察其钝化修复5 a后对土壤铜镉磷有效性和酶活性的影响.结果表明:3种粒径羟基磷灰石均提高了土壤pH,降低了土壤交换性酸和交换性铝的含量,且微米羟基磷灰石处理效果最好.常规磷灰石、微米和纳米羟基磷灰石处理分别使w（离子交换态铜）降低了62.6%、74.3%和70.4%,w（离子交换态镉）降低了15.7%、25.3%和26.7%.3种材料均增加了土壤w（TP）,其中4.61%~17.4%和73.4%~89.8%分别转化为树脂磷和稳定态磷.微米羟基磷灰石处理分别使土壤脲酶活性和微生物量碳含量提高了4.66和0.66倍.研究显示,微米羟基磷灰石更有利于铜和镉由活性态向非活性态转化,增加土壤磷的有效性,提高土壤微生物活性,在我国南方重金属污染红壤区具有较好的应用潜力.      

施用生物炭对土壤Cd形态转化及烤烟吸收Cd的影响

采用盆栽试验模拟Cd污染土壤,研究施用烟秆炭(0、10、20 g·kg~(-1))对土壤pH、有机质含量、土壤Cd形态分布及烤烟Cd含量和Cd累积量的影响.结果表明:随着生育期的延长,土壤pH和有机质含量均呈现升高的趋势.在同一Cd污染水平下,土壤pH和有机质含量均随生物炭施用量的增加而升高.随生物炭施用量的增加,土壤有效态Cd和可交换态Cd含量显著降低,土壤碳酸盐结合态Cd、铁锰氧化物结合态Cd、有机结合态Cd和残渣态Cd含量升高.移栽后30 d,处理G2T2和G2T1的土壤有效态Cd含量的降幅分别达到45.59%和24.56%.外源添加Cd的土壤中,土壤pH和有机质含量均与土壤有效态Cd和可交换态Cd含量呈显著负相关关系(p0.01),与土壤碳酸盐结合态Cd、铁锰氧化物结合态Cd和有机结合态Cd含量呈显著正相关关系(p0.01).在Cd污染土壤上,施用生物炭能明显降低烟株各部位Cd含量,烟株各部位干物质积累量随生物炭施用量的增加显著升高,烟株各部位Cd累积量和总Cd累积量随生物炭施用量的增加呈降低的趋势.由此说明,在Cd污染的土壤上施用生物炭能够使土壤中可被植物吸收利用的有效态Cd转化为潜在的无效态Cd,从而达到修复土壤并减轻作物受Cd毒害的目的.     

镉的淡水水生生物水质基准研究

镉是一种有毒重金属,具有高毒性、难降解和易残留等特点,会对水生生物及水生态系统产生有害影响.为有效控制镉给水生生物带来的不利影响,亟需开展镉的水生生物基准研究,为水质标准的制订提供依据. 以我国淡水生态系统及其生物区系为保护对象,结合大量国内外文献报道的镉对我国淡水生物区系中代表物种的毒理学数据,运用评价因子法、毒性百分数排序法和物种敏感度分布法等当前国际上广泛使用的基准推导方法,研究我国淡水中镉的基准值及其推导过程. 结果表明:评价因子法得出的基准值为单值,其值为0.15 μg/L;毒性百分数排序法得出的基准值包括基准最大浓度和基准连续浓度,二者分别为7.30和0.12 μg/L;物种敏感度分布法得出的基准值分为短期危险浓度和长期危险浓度,二者分别为32.50和0.46 μg/L. 比较了3种方法的优缺点,以及与国内外已有研究基准值之间的差异及形成原因,分析了影响镉的水生生物基准的关键因素.      

城市工业区环境系统中的Cd污染循环及其健康风险——以杭州市半山工业区为例

为揭示重金属元素Cd在城市环境系统多种介质中的迁移途径及其潜在危害性,系统分析了杭州市半山工业区主要环境介质（土壤-尘埃-水-底泥-生物）样品中Cd的指标含量,并用连续提取法分析了土壤、尘埃、底泥中Cd的化学形态特征.结果表明,Cd的迁移途径主要有两种,一是以尘埃为媒介在地表环境中迁移,二是通过水介质进入水体环境（水和...     

商陆耐重金属Cd关键酶抗氧化酶的研究

研究商陆(Phytolacca americana L.)对Cd胁迫的抗氧化酶响应,对于揭示其耐Cd机制具有重要意义.商陆幼苗在200μmol/L或400 μmol/L CdCl2营养液中处理4 d,叶片活性氧自由基和MDA含量升高,膜透性增加,光合速率降低,表明Cd胁迫诱导产生氧化胁迫.随着Cd处理含量的提高和时间的...