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151.
152.
A new imidacloprid (IMI) degrading bacterium Z-9 (deposited number CGMCC 6648) was isolated and identified as Pseudoxanthomonas indica by 16S rRNA gene analysis. Two metabolites were identified as olefin and 5-hydroxy IMI by liquid chromatography-mass spectrometry and nuclear magnetic resonance analysis. P. indica CGMCC 6648 degraded 70.1% of IMI (1.22 mmol L?1) and formed 0.93 mmol L?1 5-hydroxy IMI and 0.05 mmol L?1 olefin IMI in 6 days and in the presence of 100 mmol L?1 glucose. The half-life of IMI degradation was 3.6 days. P. indica CGMCC 6648 transforms IMI via a co-metabolism mechanism and different carbohydrates have significant effects on 5-hydroxy IMI formation, whereas different organic acids have substantial effects on olefin IMI production. Lactose is the best co-substrate for IMI degradation and 5-hydroxy IMI formation with 0.77 mmol L?1 degraded and 0.67 mmol L?1 formed in 48 h, respectively. Pyruvate is the best co-substrate for olefin IMI formation with 0.17 mmol L?1 produced in 96 h for all carbon sources tested. Pyruvate significantly stimulates the conversion of 5-hydroxy IMI to olefin IMI, whereas glucose slightly inhibits this reaction. P. indica CGMCC 6648 rapidly degrades IMI and forms olefin IMI, which may enhance its potential for biodegradation of IMI and increase its insecticidal activity, which can decrease the IMI dosage required.  相似文献   
153.
154.
Red soil may play an important role in nitrous oxide (N2O) emissions due to its recent land use change pattern. To predict the land use change effect on N2O emissions, we examined the relationship between soil N2O flux and environmental determinants in four different types of land uses in subtropical red soil. During two years of study (January 2005-January 2007), biweekly N2O fluxes were measured from 09:00 to 11:00 a.m. using static closed chamber method. Objectives were to estimate the seasonal and annual N2O flux differences from land use change and, reveal the controlling factors of soil N2O emission by studying the relationship of dissolved organic carbon (DOC), microbial biomass carbon (MBC), water filled pore space (WFPS) and soil temperature with soil N2O flux. Nitrous oxide fluxes were significantly higher in hot-humid season than in the cool-dry season. Significant differences in soil N2O fluxes were observed among four land uses; 2.9, 1.9 and 1.7 times increased N2O emissions were observed after conventional land use conversion from woodland to paddy, orchard and upland, respectively. The mean annual budgets of N2O emission were 0.71-2.21 kg N2O-N ha−1 year−1 from four land use types. The differences were partly attributed to increased fertilizer use in agriculture land uses. In all land uses, N2O fluxes were positively related to soil temperature and DOC accounting for 22-48% and 30-46% of the seasonal N2O flux variability, respectively. Nitrous oxide fluxes did significantly correlate with WFPS in orchard and upland only. Nitrous oxide fluxes responded positively to MBC in all land use types except orchard which had the lowest WFPS. We conclude that (1) land use conversion from woodland to agriculture land uses leads to increased soil N2O fluxes, partly due increased fertilizer use, and (2) irrespective of land use, soil N2O fluxes are under environmental controls, the main variables being soil temperature and DOC, both of which control the supply of nitrification and denitrification substrates.  相似文献   
155.
Six common algal fatty acids (FAs) with different numbers of double bonds, lipophilic fractions and proteins extracted from the diatom Navicula pelliculosa and algal cells were chlorinated to evaluate their potential in generating disinfection by-products (DBPs). The result showed that the more double bonds in the FAs, the higher the amounts of chloroform and dichloroacetic acid (DCAA) produced, but such a pattern was not observed for trichloroacetic acid (TCAA). Based on the previously reported composition of fatty acids in algal lipids, the DBP generation potentials of algal lipids were calculated. These predicted values were much lower than those measured in the chlorinated algal lipophilic fraction, suggesting unknown lipophilic fraction(s) served as potent DBPs precursors. Another calculation attempted to predict DBP production in algal cells based on algal lipid and protein composition, given quantified measured DBP production per unit algal lipid and proteins. The analysis showed that the observed DBP production was similar to that predicted (< 35% difference), suggesting that algal biochemical compositions may serve as a bioindicator for preliminary estimation of chloroform, DCAA and TCAA formation upon chlorinating algae.  相似文献   
156.
城市再生水景观回用的主要问题是水体富营养化导致水华的暴发。为了抑制藻类的大规模生长,需要提前采取预防措施,以便将有可能爆发水华的藻类及时杀死或除去。目前,人们已经对景观水体中常见藻类的生长规律做了深入的研究,发现水体中藻数量(藻密度)的多少与水体的pH值和DO值的变化有密切而相对稳定的关系。通过在线实时监控pH值和DO值,找到△pH、△DO与藻类生长之间的关系,并结合pH、DO、温度、正磷酸盐和总氮等指标,实现实时识别和预测水华爆发的目的。  相似文献   
157.
目的研究卫星上外露导线在空间辐射环境下的耐受能力。方法通过分析GEO轨道下在轨10年航天器外露瑞侃导线的辐照环境,研究低能和高能电子对导线性能的影响,地面模拟试验参数选择能量分别为45 keV和1 MeV,注量率均为8.3×10^10 e/(cm^2·s),总注量均为2×10^16 e/cm^2。考察瑞侃导线力学性能(断裂伸长率、拉伸强度)和电性能(击穿电压)的退化情况,并用XPS和SEM测试分析手段,对其电子辐照损伤机理进行研究。结果在不同能量电子辐照下,瑞侃导线的力学性能均略有下降,没有显著区别,而电学性能严重退化,且低能电子较高能电子对其电学性能影响更为严重,其击穿电压分别下降了100%和50%。结论通过剂量-深度分布计算,45 keV入射电子能量全部沉积在样品表层下数微米的深度范围内,完全被导线外皮吸收,对样品的损伤较大;而1 MeV入射电子能量绝大部分穿透表皮沉积在样品铜芯中,因而其性能退化情况相对低能电子较小。进一步的,通过SEM和XPS测试和分析发现,电子辐照造成瑞侃导线分子链降解,形成自由基以及气体,自由基的再交联是造成瑞侃导线损伤的重要机理。  相似文献   
158.
郭凯  赵文  王珊  戴玉新  张荣坤  李东明 《环境科学》2015,36(12):4430-4435
于2013年10月对辽宁省白石水库水质、颗粒有机物及底泥沉积物中δ~(13)C和δ~(15)N值的空间分布特征进行了研究.结果表明:白石水库POC的平均浓度为(1.76±0.98)mg·L~(-1);TP的平均浓度为(0.04±0.03)mg·L~(-1);TN的平均浓度为(1.80±0.08)mg·L~(-1),TP和POC从上游到下游呈现逐渐降低的趋势;TN的水平分布变化不大.小型颗粒有机物的δ~(13)C值平均为(-24.6±0.9)‰;δ~(15)N值平均为(4.8±0.4)‰.大型颗粒有机物的δ~(13)C值平均为(-22.5±0.9)‰;δ~(15)N值平均为(6.7±0.5)‰,颗粒有机物的δ~(13)C和δ~(15)N变化范围都很广,小型颗粒有机物的δ~(13)C和δ~(15)N值最大差异可达4.6‰和2.7‰,大型颗粒有机物的δ~(13)C和δ~(15)N值最大差异分别为3.3‰和1.8‰.底泥沉积物的δ~(13)C值平均为(-24.2±1.2)‰;δ~(15)N值平均为(4.1±0.7)‰.大型颗粒有机物与小型颗粒有机物之间的δ~(13)C和δ~(15)N值存在极显著正相关关系(P0.01).颗粒有机物和底泥沉积物中δ~(13)C和δ~(15)N值的水平分布具有由上游到下游逐渐增大的规律,颗粒有机物与沉积物之间的δ~(13)C和δ~(15)N值存在显著正相关关系(P0.05).垂直分布中,颗粒有机物的δ~(15)N值是表层大于底层,TN和大型颗粒有机物的δ~(15)N值呈显著正相关(P0.05),POC与颗粒有机物的δ~(15)N值呈极显著正相关关系(P0.01).白石水库水中和沉积物中的有机质主要来源于浮游生物和土壤有机质,颗粒有机物的δ~(13)C值与POC和TP呈显著负相关(P0.05).  相似文献   
159.
利用超高效液相色谱串联质谱法(HPLC-MS)对白洋淀水体和沉积物中喹诺酮类(Quinolones,QNs)抗生素进行检测,并研究其生态风险空间分异特征,探究其与环境因子的相关性.结果表明:①白洋淀氧氟沙星(Ofloxacin,OFL)和氟甲喹(Flumequine,FLU)的检出率最高(100%),其次为马波沙星(Marbofloxacin,MAR)和氟罗沙星(Fleroxacin,FLE)(≥60%),其余QNs的检出率较低(≤35%);②白洋淀水体和沉积物中QNs抗生素浓度范围分别为153.39~1550.07 ng·L~(-1)和10.22~381.85 ng·g~(-1),水体中QNs在S1处浓度最高,S4处最低,沉积物中QNs在S2处浓度最高;③相关性分析结果表明,水体透明度(Secchi depth,SD)、总氮(Total nitrogen,TN)、总磷(Total phosphorus,TP)、硝氮(Nitrate nitrogen,NO~-_3-N)、沉积物氨氮(Ammonia nitrogen,NH_3-Ns)和沉积物总氮(TNs)与QNs相关性显著,其中,SD、TP和NH_3-Ns与部分QNs(MAR、恩诺沙星(Enrofloxacin,ENR)和FLE)显著相关(p0.01),表明生活污水和养殖废水对QNs的贡献较大;④生态风险评价结果表明,白洋淀QNs总体处于中低风险水平,其中,ENR处于中高风险水平,其余QNs处于低风险水平;就空间分布而言,除S1和S9为高风险区外,其余各点为中低风险区.  相似文献   
160.
生物质炭对华北平原4种典型土壤N2O排放的影响   总被引:1,自引:0,他引:1  
张秀玲  孙赟  张水清  岳克  曹红亮  林杉 《环境科学》2019,40(11):5173-5181
生物质炭作为一种新型的土壤改良剂,在降低土壤温室气体排放方面发挥着重要作用.为明确生物质炭对冬小麦苗期土壤N_2O排放的影响,以华北平原的4种典型土壤(水稻土、砂姜黑土、褐土和潮土)为研究对象,进行田间试验,设置了4个处理:对照(CK)、单施化肥(NPK)、单施生物质炭(BC)和化肥与生物质炭配施(NPK+BC).结果表明,单施化肥显著增加了4种土壤N_2O排放,与对照相比,水稻土、砂姜黑土、褐土和潮土N_2O排放分别增加了314%、116%、240%和282%.添加生物质炭对华北平原4种土壤N_2O排放影响存在差异,与CK相比,单施生物质炭水稻土、褐土N_2O排放显著增加了72. 4%和50. 9%,而砂姜黑土和潮土BC与CK处理无显著差异.与NPK相比,生物质炭与化肥配施显著降低了4种土壤N_2O排放.添加生物质炭提高了4种土壤pH,其中,初始pH最低的水稻土,受生物质炭影响较显著,施肥则降低了4种土壤pH.砂姜黑土、褐土和潮土施肥处理N_2O排放通量均与铵态氮含量呈显著正相关,水稻土和砂姜黑土单施生物质炭处理N_2O排放通量与硝态氮含量呈显著正相关.  相似文献   
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