开发和建设西南能源基地是解决我国能源短缺的重要途径

西南地区是我国第二大能源基地，水能蕴藏可开发年发电量１．０３万亿ｋｗ·ｈ，占全国的５４％，煤炭保有储量７７０亿ｔ左右，占全国的１０％。和以山西为中心的能源基地一起，形成了“北煤南运”和“西电东送”两个格局。但是西南能源基地的水能资源开发程度很低，按发电量计算，仅占水电可开发总量的１．３％。目前能源短缺已成为我国工业发展中的突出问题。因此，合理布局、综合开发和建设西南能源基地，是解决我国能源短缺的重要途径。     

涟水县农业区域开发规划

搞好综合开发是建设现代化农业的战略措施之一,而要搞好综合开发,必先搞好农业区域开发规划。本文根据涟水地区的自然资源、社会经济条件和市场对农副产品及其制品需求出发,把涟水县域划分为2个开发区域,从分析开发的潜力入手,通过投资和效益的分析,提出了区域近、远期的开发目标、步骤和相应的开发措施。     

Dry deposition velocity of total suspended particles and meteorological influence in four locations in Guangzhou, China

Dry deposition velocity of total suspended particles (TSP) is an effective parameter that describes the speed of atmospheric particulate matter deposit to the natural surface. It is also an important indicator to the capacity of atmosphere self-depuration. However, the spatial and temporal variations in dry deposition velocity of TSP at different urban landscapes and the relationship between dry deposition velocity and the meteorological parameters are subject to large uncertainties. We concurrently investigated this relationship at four different landscapes of Guangzhou, from October to December of 2009. The result of the average dry deposition velocity is (1.49 ± 0.77), (1.44 ± 0.77), (1.13 ± 0.53) and (1.82 ± 0.82) cm/sec for urban commercial landscape, urban forest landscape, urban residential landscape and country landscape, respectively. This spatial variation can be explained by the difference of both particle size composition of TSP and meteorological parameters of sampling sites. Dry deposition velocity of TSP has a positive correlation with wind speed, and a negative correlation with temperature and relative humidity. Wind speed is the strongest factor that affects the magnitude of TSP dry deposition velocity, and the temperature is another considerable strong meteorological factor.We also find out that the relative humidity brings less impact, especially during the dry season. It is thus implied that the current global warming and urban heat island effect may lead to correlative changes in TSP dry deposition velocity, especially in the urban areas.     

Identification of rice cultivars with low brown rice mixed cadmium and lead contents and their interactions with the micronutrients iron, zinc, nickel and manganese

Paddy fields in mining areas are usually co-contaminated by a cocktail of mixed toxic heavy metals (e.g., Cd and Pb in Pb/Zn mines). However, previous studies on rice cultivars screened for effective metal exclusion have mostly focused on individual metals, and have been conducted under pot-trial or hydroponic solution conditions. This study identified rice cultivars with both low Cd and Pb accumulation under Cd-and Pb-contaminated field conditions, and the interactions of the toxic elements Cd and Pb with the micronutrient elements Fe, Zn, Mn and Ni were also studied. Among 32 rice cultivars tested, there were significant differences in Cd (0.06-0.59 mg/kg) and Pb (0.25-3.15 mg/kg) levels in their brown rice, and similar results were also found for the micronutrient elements. Significant decreases in concentrations of Fe and Mn were detected with increasing Cd concentrations and a significant elevation in Fe, Mn and Ni with increasing Pb concentrations. A similar result was also shown by Cd and Ni. Three cultivars were identified with a combination of low brown rice Cd and Pb, high micronutrient and grain yield (Wufengyou 2168, Tianyou 196 and Guinongzhan). Present results suggest that it is possible to breed rice cultivars with low mixed toxic element (Cd, Pb) and high micronutrient contents along with high grain yields, thus ensuring food safety and quality.     

Soil warming effect on net ecosystem exchange of carbon dioxide during the transition from winter carbon source to spring carbon sink in a temperate urban lawn

The significant warming in urban environment caused by the combined effects of global warming and heat island has stimulated widely development of urban vegetations. However, it is less known of the climate feedback of urban lawn in warmed environment. Soil warming effect on net ecosystem exchange (NEE) of carbon dioxide during the transition period from winter to spring was investigated in a temperate urban lawn in Beijing, China. The NEE (negative for uptake) under soil warming treatment (temperature was about 5℃ higher than the ambient treatment as a control) was -0.71 μmol/(m².sec), the ecosytem was a CO₂ sink under soil warming treatment, the lawn ecosystem under the control was a CO₂ source (0.13 μmol/(m².sec)), indicating that the lawn ecosystem would provide a negative feedback to global warming. There was no significant effect of soil warming on nocturnal NEE (i.e., ecosystem respiration), although the soil temperature sensitivity (Q₁₀) of ecosystem respiration under soil warming treatment was 3.86, much lower than that in the control (7.03). The CO₂ uptake was significantly increased by soil warming treatment that was attributed to about 100% increase of α (apparent quantum yield) and A_max (maximum rate of photosynthesis). Our results indicated that the response of photosynthesis in urban lawn is much more sensitive to global warming than respiration in the transition period.     

藻类水华对太湖梅梁湾不同粒径有机组分结构的影响

运用过滤和切向流超滤系统,分离得到2009年8月至2010年8月每月的太湖梅梁湾不同粒径水体有机物,测定了水体中颗粒态有机碳,高分子量和低分子量可溶解性有机碳的含量,并同步分析了叶绿素浓度,水体中各种有机物的碳氮比值和中性单糖含量.对不同形态有机碳浓度的比较发现颗粒态有机碳是太湖碳存在的主要形式.统计分析结果表明叶绿素浓度与颗粒态有机碳之间具有显著的相关性,说明浮游植物是颗粒态有机物的主要来源.此外高分子量可溶性有机物的碳氮比值和中性单糖含量均相对较高,这表明该有机碳的生物可利用性比其它形态的水体有机碳高.     

溶解性有机质对罗红霉素光降解的影响研究

近年来,罗红霉素(ROX)因其用量大、检出频率高和生态风险大引起了广泛关注.本文主要研究了环境pH条件下不同的溶解性有机质(DOM),包括富里酸(PLFA)、腐殖酸(SRHA)和天然有机质(SRNOM)对罗红霉素光降解的影响及主要活性物种对其光降解的贡献.结果表明:纯水中罗红霉素可发生自敏化光降解,在pH 6～8条件下,罗红霉素光降解的一级反应速率常数为0.0033～0.0049 h~(-1).DOM促进了罗红霉素光降解,其促进效果从大到小为PLFASRNOMSRHA.DOM共存时罗红霉素光降解的反应速率常数随pH增加而增加,在pH 6时为0.0145～0.0266 h~(-1),在pH 8时为0.0273～0.0577 h~(-1).通过异丙醇淬灭实验发现,羟基自由基(·OH)对罗红霉素光降解起主要贡献,其贡献率在pH 6时为83.45%～98.70%,在pH 8时降低至76.76%～78.02%;3种DOM体系中产生的单态氧(~1O_2)的稳态浓度在(5.15～7.86)×10~(-14) mol·L~(-1)范围内;在pH 6、7和8的条件下,~1O_2与罗红霉素的二级反应速率常数分别为2.27×10~5、1.96×10~6和1.51×10~7 L·mol~(-1)·s~(-1).~1O_2对罗红霉素的光降解的贡献随pH升高而升高,在pH 6时为0.21%～0.43%,在pH 8时为4.85%～11.33%.     

Morphology and composition of particles emitted from a port fuel injection gasoline vehicle under real-world driving test cycles

Traffic vehicles, many of which are powered by port fuel injection (PFI) engines, are major sources of particulate matter in the urban atmosphere. We studied particles from the emission of a commercial PFI-engine vehicle when it was running under the states of cold start, hot start, hot stabilized running, idle and acceleration, using a transmission electron microscope and an energy-dispersive X-ray detector. Results showed that the particles were mainly composed of organic, soot, and Ca-rich particles, with a small amount of S-rich and metal-containing particles, and displayed a unimodal size distribution with the peak at 600?nm. The emissions were highest under the cold start running state, followed by the hot start, hot stabilized, acceleration, and idle running states. Organic particles under the hot start and hot stabilized running states were higher than those of other running states. Soot particles were highest under the cold start running state. Under the idle running state, the relative number fraction of Ca-rich particles was high although their absolute number was low. These results indicate that PFI-engine vehicles emit substantial primary particles, which favor the formation of secondary aerosols via providing reaction sites and reaction catalysts, as well as supplying soot, organic, mineral and metal particles in the size range of the accumulation mode. In addition, the contents of Ca, P, and Zn in organic particles may serve as fingerprints for source apportionment of particles from PFI-engine vehicles.     

天然气输送管道事故分析与防范

基于国内天然气输送管道西气东输、海气登陆、就近供应的现状,统计了2018年天然气事故,针对发生频率最高的输送管道事故,从事发省份、事发月份以及事发原因等方面进行初步分析,从完善各建设部门联合规划与信息共享机制、制定管道巡线方案和员工培训制度、提高天然气输送管道防腐检测能力以及规范天然气管道建设中承包商的HSE管理等角度提出防范措施,为预警预防国内天然气输送管道事故提供参考。     

Citric and Oxalic Acids Effect on Pb and Zn Uptake by Maize and Winter Wheat

A pot experiment was conducted to investigate the influence of citric and oxalic acids effect on Pb and Zn uptake by corn and winter wheat. The experiment was employed with citric acid (CA) applied at 3 rates (0, 1.5 and 3.0 mmol kg-1 soil), oxalic acid (OA) at 3 rates (0, 1.5 and 3.0mmol kg-1 soil) and citric acid combined with oxalic acid (1.5 mmol citric acid combined with 1.5 mmol oxalic acid kg-1). Two types of soil were chose in the experiment. One was collected from the agricultural soil near a battery-recycling factory in Anhui province, China (site A) and the other was collected from a Pb-Zn mine residues in Hunan province, China (site B). The results showed that soil pH varied with the different treatment of citric and oxalic acids. However, there were no differences in all the treatments. 3.0mmol CA kg-1 soil addition significantly increased the concentrations of the CaCI2-extractable Pb and Zn and other treatments have no significantly increased. The highest shoot concentrations of Pb and Zn