氯和紫外消毒过程中胞外抗性基因的产生特征

考察了城市污水氯和紫外消毒过程中不同物理形态的胞外抗性基因的产生行为与及微生物群落的关联特征.结果表明,氯消毒尽管使胞内抗性基因丰度下降,但使结合型胞外抗性基因丰度明显上升（0.7±0.1）log,而游离型胞外抗性基因丰度下降（0.2±0.1）log.紫外消毒也使胞内抗性基因下降,但使游离型胞外抗性基因显著上升（0.4±0.2）log,而结合型胞外抗性基因丰度下降（0.3±0.1）log.氯消毒后,结合型胞外DNA（a-eDNA）中变形菌门丰度下降而其他菌门的丰度上升,细菌多样性指数由4.2上升到4.7;而游离型胞外DNA（f-eDNA）中变形菌门上升了6.6%,多样性指数则从3.5降低到2.8.紫外消毒后,a-eDNA中变形菌门丰度下降了36.6%,多样性则上升到4.8,而f-eDNA中细菌丰度变化较小.分子生态网络分析揭示了抗性基因与细菌间广泛的寄存关系,tetA、tetX、sulI和sulII分别与17、15、15和5种菌属间存在共现性,表明抗性基因潜在宿主的变化是导致消毒后胞外抗性基因产生的关键原因.本研究表明氯和紫外消毒不能消除抗性基因风险,反而通过导致不同胞外抗性基因的大量产生,使风险的形式发生变化.     

兼氧条件下厨余垃圾发酵液作碳源的反硝化性能

在兼氧条件下,利用厨余垃圾厌氧发酵液调节反硝化系统的碳氮比（COD/TN,C/N）,并考察了其脱氮性能.结果表明,不同C/N条件下,反应系统均未出现有机物的积累,但高C/N条件下的亚硝酸盐最大积累浓度和积累速率高于低C/N;随着进水C/N的增大,反应整体脱氮率和反硝化速率不断增大,当C/N为13时,反硝化速率达到了最大值,为9.79mg/（gVSS·h）,其脱氮率超过95%;相同C/N条件下,反硝化速率和最大亚硝酸盐积累浓度均与进水硝酸盐浓度成正比.此外,实验结果表明,兼氧条件下的反硝化过程虽不易出现COD残留,但去除单位氮所需的有机物更多,且整体反硝化速率以及亚硝酸盐还原速率均低于厌氧条件.     

多元复合调理剂对镉砷污染农田土壤微生物群落结构的影响

通过温室盆栽试验,研究多元复合调理剂（石灰石、铁粉、硅肥和钙镁磷肥,简称LISP）对土壤基本理化性质、Cd和As的生物有效性和微生物群落结构的影响.结果表明,LISP可改变土壤基本理化性质,降低土壤有效态Cd和As含量,并改变土壤微生物群落结构.在0.4%的LISP添加下,土壤pH值、有效磷和总磷含量较CK处理分别显著（P< 0.05）提高0.57单位、130.6%和18.38%,同时土壤有效态Cd和As含量较对照分别显著（P< 0.05）降低21.76%和16.39%.高通量测序结果表明,添加LISP可维持污染土壤中正常微生物群落的多样性和丰富度,而显著改变土壤微生物群落的组成和结构,其中厚壁菌门、放线菌门和浮霉菌门等门水平物种的相对丰度增加,而绿弯菌门、酸杆菌门和疣微菌门等门水平物种的相对丰度降低.冗余分析和Mantel检验分析表明,土壤pH值、有效磷以及有效态Cd和As含量是影响土壤微生物群落结构的主要环境因子.上述结果表明,LISP是一种有效的、生态安全的调理剂用于农田土壤Cd和As污染土壤修复.     

路边微环境PM2.5化学组分特征及来源解析

采集并分析了武汉市机动车尾气源PM_2.5样品,并于2019年10月18~27日采集了武汉市不同路边微环境（市区路边、环线路边、环境背景点）PM_2.5样品并分析其化学组分特征,利用化学质量平衡模型（CMB）解析评估了机动车尾气对城市不同路边微环境PM_2.5的贡献.结果表明,机动车尾气成分谱以OC和EC为主,汽油车OC质量分数约为柴油车的1.14倍,柴油车EC质量分数是汽油车的1.08倍.路边碳组分主要来源于机动车尾气,其中OC浓度在市区路边最高,EC浓度在环线路边最高;市区路边NO₃^-和NH₄⁺浓度较高,与二次转化有关;环线路边Fe、Si、Al质量浓度高于市区路边.CMB来源解析结果显示,机动车尾气源是环线路边、市区路边微环境的主要来源,分担率为35.20%和38.89%,是环境背景点的2倍左右.不同路边微环境污染源贡献差异明显,与环线路边相比,市区路边机动车尾气源与二次来源均相对较高,而扬尘源贡献低于环线路边.     

Distribution and source of microplastics in China's second largest reservoir - Danjiangkou Reservoir

Fresh water microplastic pollution is of pressing concern globally, but its distribution and sources in reservoirs are poorly documented. Danjiangkou Reservoir is the second largest reservoir in China and is divided into the Han Reservoir and Dan Reservoir. In this work, microplastic abundances and morphological characteristics of the reservoir were investigated. The microplastic abundance of 15 main tributaries of the reservoir was also measured. The vertical distribution (in water column and sediment), horizontal distribution (in Han Reservoir and Dan Reservoir) and source of microplastics were analyzed. Microplastics accumulated in the middle layer of the reservoir, and the size and color of the microplastic particles changed from the surface to the bottom, which implies that surveys of surface water are not enough to determine the microplastic contamination for deep water reservoirs. In the surface water, the microplastic abundance in the Han Reservoir was lower than that in the Dan Reservoir (p < 0.05), but microplastic abundance did not differ significantly in the intermediate and bottom water. Tributaries were one of the main sources of microplastics for Han Reservoir but not for Dan Reservoir. Agricultural cultivation in the hydro-fluctuation belt might be an important source of microplastics in the Dan Reservoir, which should be given additional attention. The results of this study can provide valuable information for developing microplastic sampling strategies in deep water reservoirs. Further studies are recommended to investigate the process through which microplastics in the hydro-fluctuation belt enter the reservoir and the sinking behavior of microplastics in the reservoir.     

Identification of close relationship between atmospheric oxidation and ozone formation regimes in a photochemically active region

Understanding ozone (O₃) formation regime is a prerequisite in formulating an effective O₃ pollution control strategy. Photochemical indicator is a simple and direct method in identifying O₃ formation regimes. Most used indicators are derived from observations, whereas the role of atmospheric oxidation is not in consideration, which is the core driver of O₃ formation. Thus, it may impact accuracy in signaling O₃ formation regimes. In this study, an advanced three-dimensional numerical modeling system was used to investigate the relationship between atmospheric oxidation and O₃ formation regimes during a long-lasting O₃ exceedance event in September 2017 over the Pearl River Delta (PRD) of China. We discovered a clear relationship between atmospheric oxidative capacity and O₃ formation regime. Over eastern PRD, O₃ formation was mainly in a NO_x-limited regime when HO₂/OH ratio was higher than 11, while in a VOC-limited regime when the ratio was lower than 9.5. Over central and western PRD, an HO₂/OH ratio higher than 5 and lower than 2 was indicative of NO_x-limited and VOC-limited regime, respectively. Physical contribution, including horizontal transport and vertical transport, may pose uncertainties on the indication of O₃ formation regime by HO₂/OH ratio. In comparison with other commonly used photochemical indicators, HO₂/OH ratio had the best performance in differentiating O₃ formation regimes. This study highlighted the necessities in using an atmospheric oxidative capacity-based indicator to infer O₃ formation regime, and underscored the importance of characterizing behaviors of radicals to gain insight in atmospheric processes leading to O₃ pollution over a photochemically active region.     

贵州丹寨汞矿土壤汞含量的变化趋势

在自然条件下,尽管汞在土壤中相对较稳定,但对丹寨汞矿区土壤中汞含量检测表明:土壤中汞含量自1996年以来有相当大的减少。笔者认为,导致此结果的原因可能是土壤中汞在物理化学的影响下大部分转化为单质并向大气中迁移。但最近和将来一段时间,由于受汞价上涨的影响,小规模土法炼汞又会给当地环境再次造成新一轮的污染。建议对造成环境污染的工矿企业进行严格的管理。     

Predicting future invasion risk of three widespread malignant weeds on Qinghai-Tibet Plateau,using multi-algorithm ensemble models北大核心CSCD

农田恶性杂草相比普通杂草的传播更为迅速且难以有效防治,对农业生产危害严重.明确典型恶性杂草当前潜在分布面积及未来气候变化下对耕地的潜在入侵风险对农业生产管理具有重要意义.以广泛分布于青藏高原农田中的3种常见恶性杂草,即野燕麦(Avena fatua L.)、一年生早熟禾(Poa annua L.)和狗尾草[Setaria viridis(L.)P.Beauv.]为研究对象,利用广义增强模型(GBM)、广义线性模型(GLM)、人工神经网络(ANN)、最大熵(MaxEnt)、随机森林(RF)及多元自适应回归样条(MARS)算法集合预测上述3种杂草在青藏高原的潜在地理分布以及驱动其变化的关键因子,以评估其对耕地的入侵风险.未来气候场景采用最新的第六次国际耦合模式比较计划(CMIP6)框架下2050年的4种共享经济路线(SSP1-2.6、2-4.5、3-7.0、5-8.5).结果显示:野燕麦适宜分布区面积约为3.5912×10^(5) km^(2),主要分布于四川西南部及青海东部,零星分布于甘肃、西藏和新疆;一年生早熟禾和狗尾草的适宜分布区面积约为4.3046×10^(5) km^(2)和2.0036×10^(5) km^(2),均主要分布于四川西南部和西藏东南部,零星分布于青海东部和甘肃南部.年均温是3种杂草分布的最主要驱动因子.此外,人类足迹和土壤有效氮是影响野燕麦分布的相对重要因子;土壤酸碱度、最暖季降水量是影响一年生早熟禾分布的重要因子;温度季节性、最暖季降水量是影响狗尾草分布的重要因子.预计至2050年,3种杂草在4种情境下均会出现不同程度的扩张,狗尾草的扩张面积表现出随辐射强迫的增强呈先升高后趋于稳定的趋势,而另两种杂草则呈先升后降的趋势.预计3种杂草的潜在分布面积在耕地中的占比与扩张面积的变化趋势一致,且在主产区的占比高于非主产区.模拟结果表明,未来气候变化下,随着3种恶性杂草的适宜分布区面积的扩张,其对青藏高原耕地的入侵风险将增加,尤其是粮食主产区所面临威胁更为严峻,建议应重点关注青藏高原粮食主产区恶性杂草的生理生态、迁移扩散和防治技术研究.(图6表2参61)     

Preparation and performance characterization of a new dust suppressant with a cross-linked network structure for use in open-pit coal mines

Environmental Science and Pollution Research - In an effort to control dust pollution in open-air environments such as pit coal mines and coal transportation systems, a new dust suppressant with a...