彭佳屿岛春季TSP中痕量金属组成及其来源解析

通过大气环流向海洋大气边界层传输的人为源和陆源物质,明显改变了海洋气溶胶中痕量金属的组成.但基于开阔海域岛屿连续观测研究海洋气溶胶中痕量金属元素组成及其来源的研究较少.2010年3—5月在我国台湾北部东海海域彭佳屿岛采集了60个TSP（总悬浮颗粒物）样品,采用电感耦合等离子体质谱仪（ICP-MS）分析了19种痕量金属（Al、Fe、Ti、Y、Mn、Ba、Sr、Co、Cr、V、Ni、Tl、Zn、Sn、Pb、As、Cd、Sb、Se）的质量浓度.基于TSP中Al浓度、气团后向轨迹分析和美国国家宇航局CALIPSO卫星星载激光雷达扫描图像,将采集的TSP分为非沙尘TSP（不受沙尘影响的TSP）和沙尘TSP（受沙尘影响的TSP）.沙尘TSP中所有痕量金属的浓度都高于非沙尘TSP,表明沙尘对彭佳屿岛TSP中痕量金属有贡献.结合富集因子、相关性分析和PMF模型研究结果表明,彭佳屿岛春季非沙尘TSP中Al、Fe、Ti和Y主要来源于地壳矿物,Mn、Ba、Sr、Co和Cr同时受地壳矿物和人为源的影响;沙尘TSP中Al、Fe、Ti、Y、Mn、Ba、Sr、Co和Cr主要来源于地壳矿物.V和Ni在彭佳屿岛春季非沙尘TSP中主要来源于燃料油燃烧,而在沙尘TSP中同时受燃料油燃烧和地壳矿物的影响.非沙尘TSP和沙尘TSP中,Tl、Zn、As、Sn、Pb、Cd、Sb和Se的来源相似.Tl主要源于交通和煤燃烧,Zn、Sn、Pb、Cd和Sb同时来源于交通、煤和燃料油燃烧,As主要来源于煤燃烧,Se则主要来源于煤和燃料油燃烧.研究显示,人为源释放到大气中的Tl、Zn、As、Sn、Pb、Cd、Sb和Se可以通过大气环流长距离传输至开阔海域.      

Delignification of disposable wooden chopsticks waste for fermentative hydrogen production by an enriched culture from a hot spring

Hydrogen(H2) production from lignocellulosic materials may be enhanced by removing lignin and increasing the porosity of the material prior to enzymatic hydrolysis. Alkaline pretreatment conditions,used to delignify disposable wooden chopsticks(DWC) waste, were investigated. The effects of NaOH concentration, temperature and retention time were examined and it was found that retention time had no effect on lignin removal or carbohydrate released in enzymatic hydrolysate. The highest percentage of lignin removal(41%) was obtained with 2% NaOH at 100℃, correlated with the highest carbohydrate released(67 mg/gpretreated DWC) in the hydrolysate. An enriched culture from a hot spring was used as inoculum for fermentative H2 production, and its optimum initial pH and temperature were determined to be 7.0 and 50℃, respectively. Furthermore, enzymatic hydrolysate from pretreated DWC was successfully demonstrated as a substrate for fermentative H2 production by the enriched culture. The maximum H2 yield and production rate were achieved at 195 mL H2/g total sugarsconsumedand 116 mL H2/(L·day), respectively.     

高氟温泉水中氟在周边水环境中的分布特征与评价

针对温泉水中高氟现象,本实验利用离子选择性电极法,分析测定高氟温泉水周边河水中氟含量及河水底泥中氟含量。通过对高氟温泉水分布特征的研究可初步得知,温泉中高氟在周边水环境中分布因其氟含量大、不易被重视,对环境的影响相对较大。     

Gaseous elemental mercury concentration in atmosphere at urban and remote sites in China

An investigation of gaseous elemental mercury concentration in atmosphere was conducted at Beijing and Guangzhou urban, Yangtze Delta regional sites and China Global Atmosphere Watch Baseline Observatory (CGAWBO) in Mt. Waliguan of remote continental area of China. High temporal resolved data were obtained using automated mercury analyzer RA-915 . Results showed that the overall hourly mean Hg0 concentrations in Mt. Waliguan were 1.7± 1.1 ng/m3 in summer and 0.6±0.08 ng/m3 in winter. The concentration in Yangtze Delta regional site was 5.4±4.1 ng/m3, which was much higher than those in Waliguan continental background area and also higher than that found in North America and Europe rural areas. In Beijing urban area the overall hourly mean Hg0 concentrations were 8.3±3.6 ng/m3 in winter, 6.5±5.2 ng/m3 in spring, 4.9±3.3 ng/m3 in summer, and 6.7±3.5 ng/m3 in autumn, respectively, and the concentration was 13.5±7.1 ng/m3 in Guangzhou site. The mean concentration reached the lowest value at 14:00 and the highest at 02:00 or 20:00 in all monitoring campaigns in Beijing and Guangzhou urban areas, which contrasted with the results measured in Yangtze Delta regional site and Mt. Waliguan. The features of concentration and diurnal variation of Hg0 in Beijing and Guangzhou implied the importance of local anthropogenic sources in contributing to the high Hg0 concentration in urban areas of China. Contrary seasonal variation patterns of Hg0 concentration were found between urban and remote sites. In Beijing the highest Hg0concentration was in winter and the lowest in summer, while in Mt. Waliguan the Hg0 concentration in summer was higher than that in winter. These indicated that different processes and factors controlled Hg0 concentration in urban, regional and remote areas.     

地震断层作用下的埋地管道等效分析模型

地震作用下,活动断层附近的埋地管道易发生强度屈服、局部屈曲或整体失稳等形式的破坏,建立准确、高效的埋地管道在断层作用下的计算模型,对管道的抗震设计和震后安全状态评估具有重要的实用价值。本文采用非线性弹簧模拟远离断层处埋地管道的反应,基于管土之间小变形段管道处于强化阶段,提出一种改进的管土等效分析模型,进一步减小了管土之间大变形段的分析长度,从而提高了有限元分析效率。该模型采用ALA推荐的方法计算管土间的滑动摩擦力,可以考虑土体种类的影响;用Kennedy方法确定管道的计算长度。通过与精确模型比较,验证了管土等效模型的合理性和有效性。     

应用EPIC模型计算黄土塬区作物生产潜力的初步尝试

黄土高原地区土壤侵蚀强烈,土地现实生产力水平低,研究该地区作物生产潜力可以为有效提高作物产量及合理进行农业生产规划提供依据。论文介绍了EPIC(侵蚀-生产力影响计算模型)的特点、组成部分及应用步骤,对部分作物参数进行了修订。以黄土塬区冬小麦和春玉米为例,对EPIC模型的适用性进行了分析和验证,表明EPIC在黄土高原地区作物生产潜力模拟研究中具有较好的适用性。结果显示,冬小麦产量模拟值与实测值之间多年平均误差为7.78%;春玉米多年平均误差为9.60%。冬小麦水分胁迫天数多年平均为9.9天,最少为1.7天(1993年),最多为23.1天(1995年);春玉米水分胁迫天数多年平均为13.4天,最少为1.1天(1993年),最多为44.2天(1995年),与各年作物生育期降水情况基本一致。此模型经修正后在正常年份模拟值较为精确,在干旱年份对作物、土壤等参数的修正方法需要进一步探讨。     

太湖春季水-气界面碳通量日变化观测研究

利用静态箱观测法对春季太湖不同生态类型(藻型、草型)的湖区春季水-气界面碳通量进行了昼夜连续观测,结果表明,水-气界面碳通量存在显著日变化规律,其极值均出现在凌晨5:00和下午2:00左右,但不同湖区碳通量的日变化存在明显差异。在富营养化较严重的梅梁湾湖区,昼间主要为大气CO2的汇,其平均碳通量为-7.74 mg/(m2h),夜间主要为大气CO2的源,其碳通量为5.32 mg/(m2h);湖心区域,夜间为大气CO2的源,日间在源和汇间波动。而在水质较好的东太湖区域,昼夜均为大气CO2的源,其平均碳通量为11.63 mg/(m2h)。     

基于网络分析解析水源水库春季水体反硝化群落演变特征及驱动因素

结合现场水质调查和nirS反硝化功能基因的高通量测序技术,对周村水库春季热分层形成过程中的反硝化群落演变特征以及影响因素进行解析.结果表明,该时期水体分层逐渐形成,水体硝氮(NO^-₃)、氨氮(NH⁺₄)、总氮(TN)、总有机碳(TOC)、五日生化需氧量(BOD₅)、高锰酸盐指数、总磷(TP)、铁(Fe)和锰(Mn)均呈现显著差异(P<0.01),氮素呈现明显地下降趋势;高通量测序得到8703个OTU,共归属于3个门、 8个主要的属,其中变形菌门占比最大、达到45.27%～78.90%;α-多样性指数计算显示除辛普森指数(Simpson指数)外,ACE指数、Chao指数、香农指数(Shannon指数)以及覆盖率指数(coverage指数)呈现显著差异(P<0.05);主坐标分析春季3～5月间水体反硝化群落存在显著差异,与置换多因素方差分析的结果相一致(P<0.001);物种间网络分析显示,该时期共有7个主要的模块,包含131个节点316个边,正向相关的边所占比例...     

溪源水库蓄水前后冬春季水体营养盐和浮游植物特征研究

于2007—2008年溪源水库蓄水前,2014—2015年溪源水库蓄水后对溪源宫水源地水体进行采样,分析了冬春季水体的理化指标、浮游植物生物量及群落组成。蓄水前共鉴定出浮游植物6门26属43种,水体水质状况较好,浮游植物细胞密度平均为7.31×10~5cells/L,以硅藻、绿藻门为优势门类,两者占浮游植物总生物量的比例约为54.7%、32.2%,水体呈贫-中营养状态。蓄水后,水体氮、磷营养盐浓度分别约为蓄水前的2.4倍、3倍,浮游植物细胞密度平均为1.42×10~7cells/L,约为蓄水前的20倍,且群落结构发生改变,优势门类为硅藻、蓝藻、绿藻,所占比例分别为40.2%、38.7%、14.4%,蓝藻门比例有显著提高,约为蓄水前的5倍。说明建库蓄水对浮游植物的影响显著。     

Is Standardized Precipitation Index (SPI) a Useful Indicator to Forecast Groundwater Droughts? — Insights from a Karst Aquifer

The study sought to understand the relationships between meteorological and groundwater droughts on water levels and spring discharges in Edwards Aquifer, Texas. Standardized Precipitation Index (SPI)‐styled Standardized Groundwater Index (SGI) was used to quantify groundwater droughts. SGI time series signal was delayed and damped, while SPI was volatile. SGI values correlated well with SPI values that were observed five to eight months ago. Dynamic regression models with lagged SPI terms and autoregressive integrated moving average errors indicated a statistically significant yet weak relationship between Lag‐1 SPI and SGI. The utility of SPI for groundwater drought forecasting was minimal in this aquifer. Nonseasonal and seasonal autoregressive terms played an important role in forecasting SGI and highlighted the need for long‐term, high‐resolution monitoring to properly characterize groundwater droughts. Spring flows exhibited stronger and quicker responses to meteorological droughts than changes in storage. In aquifers with spring discharges, groundwater monitoring programs must make efforts to inventory and monitor them. Groundwater drought contingency measures can be initiated using SPI but this indicator is perhaps inappropriate to remove groundwater drought restrictions.