膜序批式反应器运行特性研究

膜生物反应器采取序批式运行方式,实验室人工配水,系统不排泥,运行220 d.结果表明,系统对COD、氨氮的去除率均在96%以上,细菌胞外多聚物(EPS)以蛋白质为主,污泥浓度达到10 g/L以上,污泥沉降性能得到改善时,跨膜压力(TMP)呈缓慢增长趋势,出现了相当数量的纤毛虫、轮虫等原后生动物.     

Modeling uptake kinetics of cadmium by field-grown lettuce

Cadmium uptake by field grown Romaine lettuce treated with P-fertilizers of different Cd levels was investigated over an entire growing season. Results indicated that the rate of Cd uptake at a given time of the season can be satisfactorily described by the Michaelis-Menten kinetics, that is, plant uptake increases as the Cd concentration in soil solution increases, and it gradually approaches a saturation level. However, the rate constant of the Michaelis-Menten kinetics changes over the growing season. Under a given soil Cd level, the cadmium content in plant tissue decreases exponentially with time. To account for the dynamic nature of Cd uptake, a kinetic model integrating the time factor was developed to simulate Cd plant uptake over the growing season: C Plant=C Solution.PUF max.exp[-b.t], where C Plant and C Solution refer to the Cd content in plant tissue and soil solution, respectively, PUF max and b are kinetic constants.     

Phytoextraction by arsenic hyperaccumulator Pteris vittata L. from six arsenic-contaminated soils: Repeated harvests and arsenic redistribution

This greenhouse experiment evaluated arsenic removal by Pteris vittata and its effects on arsenic redistribution in soils. P. vittata grew in six arsenic-contaminated soils and its fronds were harvested and analyzed for arsenic in October, 2003, April, 2004, and October, 2004. The soil arsenic was separated into five fractions via sequential extraction. The ferns grew well and took up arsenic from all soils. Fern biomass ranged from 24.8 to 33.5 g plant(-1) after 4 months of growth but was reduced in the subsequent harvests. The frond arsenic concentrations ranged from 66 to 6,151 mg kg(-1), 110 to 3,056 mg kg(-1), and 162 to 2,139 mg kg(-1) from the first, second and third harvest, respectively. P. vittata reduced soil arsenic by 6.4-13% after three harvests. Arsenic in the soils was primarily associated with amorphous hydrous oxides (40-59%), which contributed the most to arsenic taken up by P. vittata (45-72%). It is possible to use P. vittata to remediate arsenic-contaminated soils by repeatedly harvesting its fronds.     

三七及种植土壤重金属污染特征与风险评价

以主产地云南省文山州三七及其种植土壤为研究对象,测定土壤和三七地上和地下部重金属镉(Cd)、砷(As)、铅(Pb)含量,揭示三七对重金属的吸收转运特征,通过分析重金属日摄入量(ADI)和靶标危害商数(THQ),评估三七中Cd、As、Pb的食品安全风险和人体健康风险.结果表明:种植土壤Cd、As含量为0.07～4.1和13.9～310mg/kg,超标率为63.2%和79%,Pb未超标;综合污染指数P>3,均值3.52,表明达重度污染等级;Cd、As单因子污染指数P_Cd/As>1的土壤样品占比为63.2%和84.2%,表明土壤Cd、As达轻度污染等级.三七地上和地下部Cd、As、Pb含量分别为0.05～0.69、0.07～0.73,0.25～1.06、0.09～1.73和0.12～1.13、0.07～0.66mg/kg dw,Cd超标率为26.3%～36.8%,As、Pb无超标,表明三七易吸收Cd且存在超标现象,需重点关注.三七Cd含量与土壤Cd含量呈极显著正相关(p<0.01),As、Pb表现为负相关,生物浓缩因子BCF_Cd=...     

亚微米颗粒物和微米颗粒物中的铅在水稻叶片中的富集比较

叶片对大气颗粒物中铅的吸收富集会对水稻本身产生毒性效应,然而目前关于叶片对不同粒径颗粒物中铅富集能力的研究较少.因此,本研究采用叶片喷施等铅浓度飞灰颗粒物的方法,探讨水稻生长后期剑叶对亚微米颗粒物和微米颗粒物中铅的吸收作用,讨论不同粒径颗粒物中铅向叶片迁移的可能机制.结果表明,向水稻剑叶分别喷施等铅浓度的亚微米飞灰颗粒物和微米颗粒物后,亚微米颗粒物处理组的剑叶和稻米的铅含量均显著高于微米颗粒物处理组.亚微米颗粒物中的铅从叶片反面表皮向内扩散,富集在维管束中,并引起叶肉中铅含量的显著升高.相比之下,微米颗粒物处理组的铅向植物叶片内迁移扩散趋势较弱.基于铅同位素分析,亚微米颗粒物组飞灰源对叶肉中铅含量的贡献为80%,而微米颗粒物组飞灰源的贡献仅为31%～42%.亚微米颗粒物组铅在细胞质中的含量比例升高,由此产生的毒性作用会更大.因此,关注大气亚微米颗粒物中铅在水稻叶片的迁移富集具有一定的必要性.     

石灰岩和砂岩地区豆科类植物紫花光叶苕(Vicia villosa)中铁和锰的不同分配模式

豆科类植物生物量的减少主要与氮和磷之间的平衡受到影响而有紧密的相关性。然而,其他营养元素之间的不平衡也能响应生物量的减少,比如铁和锰营养元素。选择了贵州茂兰相邻的石灰岩和砂岩地区土壤进行了野外种植实验。实验结果表明:生长着的豆科类植物铁(Fe)和锰(Mn)出现互为相反的分配模式:在砂岩地区生长的豆科类植物根部对铁的吸收相对高于石灰岩地区;而对锰的吸收,石灰岩地区高于砂岩地区。因此,植物根部的Fe∶Mn,砂岩地区高于石灰岩地区。这个结果说明豆科类植物根部对Fe和Mn的吸收存在不同模式。然而,在叶片中的Fe∶Mn砂岩地区和石灰岩地区之间基本没有区别,这说明铁和锰从根部到叶片的迁移具有不同模式。当叶片的Fe∶Mn(质量之比)低于2.9时,有可能响应豆科类植物生物量的减少。我们在研究植物与土壤的营养元素含量之间相关性时,越过环境因素,必须考虑植物内部随生长过程而发生变化的营养元素的化学计量,比如,生长着的植物中Fe∶Mn比值的变化等。