我国农田土壤碳氮耦合特征的区域差异

利用中国第2次土壤普查数据,分析了稻作和旱作方式下农田耕层土壤有机碳和全氮特征及其区域差异。结果表明,水田土壤有机碳和全氮含量分别为旱地的147.8%和145.5%,但水田碳氮含量的区域变异低于旱地。全国水田和旱地土壤有机碳氮比值分别为10.8和9.9,各区域水田土壤碳氮比值普遍高于旱地,其中东北水田最高,而华东旱地和西北旱地最低。旱地碳氮比值的区域变异显著,水田则不显著。农田耕层土壤有机碳和全氮含量呈显著正相关,除华北地区外,各区域无论水田还是旱地其碳氮含量之间相关系数都超过0.8,达极显著水平。由此可见,我国农田耕层土壤有机碳和全氮含量之间存在显著耦合关系,而且不同利用方式和区域之间差异显著;相同氮水平下,水田土壤可能储存更多的有机碳。     

不同温度条件下呋喃丹对赤子爱胜蚓体内蛋白含量以及SOD和AChE活性的影响

采用滤纸法研究不同温度下呋喃丹对赤子爱胜蚓(Eisenia foetida)死亡率、体内蛋白含量以及超氧化物歧化酶(SOD)和乙酰胆碱酯酶(AChE)活性的影响.研究发现,10 ℃下,蚯蚓体内蛋白含量在30 mg·L-1呋喃丹处理时略有升高,而后随时间和浓度的升高,蛋白含量则随之降低;各浓度处理组的SOD活性值基本上高于对照组,48和72 h的SOD活性比24 h时平均提高220%和148%.时间和浓度对蛋白含量和SOD活性的影响达到极显著(P＜0.01).而在20 ℃下,蚯蚓体内蛋白含量和SOD活性变化规律均不明显,表明当温度升高时,呋喃丹对蚯蚓生理生化指标的作用更趋于复杂.在2种温度下,农药对蚯蚓体内AChE活性都具有明显抑制作用,AChE活性在处理时段内的最高降低率为90%.结果表明:温度对蚯蚓死亡率、蛋白含量以及SOD和AChE活性影响显著,AChE可以作为一个稳定的生物监测指标用于评价农药对土壤环境的污染影响.     

HepG2细胞对垃圾渗滤液经SND/UF/RO处理前后的毒性评估

垃圾渗滤液含有高浓度难降解毒性污染物及致癌、致诱变和致畸物质,其较为成熟的处理工艺主要有硝化反硝化(SND)、超滤(UF)和反渗透(RO)等.目前,关于SND/UF/RO技术对渗滤液处理前后的毒性降低情况尤其与细胞凋亡相关的研究较缺乏,故本文选用HepG2细胞为评价对象,研究经SND/UF/RO处理前后垃圾渗滤液的细胞...     

Characteristics of ozone pollution and the sensitivity to precursors during early summer in central plain, China

In this study, we conducted an observation experiment from May 1 to June 30, 2018 in Zhengzhou, a major city in central China, where ground ozone (O₃) pollution has become serious in recent years. The concentrations of O₃ and its precursors, as well as H₂O₂ and meteorological data were obtained from the urban site (Yanchang, YC), suburban (Zhengzhou University, ZZU) and background sites (Ganglishuiku, GLSK). Result showed that the rates of O₃ concentration exceeded Chinese National Air Quality Standard Grade II (93.3 ppbv) were 59.0%, 52.5%, and 55.7% at the above three sites with good consistency, respectively, indicating that O₃ pollution is a regional problem in Zhengzhou. The daily peak O₃ appeared at 15:00–16:00, which was opposite to VOCs, NO_x, and CO and consistent with H₂O₂. The exhaustive statistical analysis of meteorological factors and chemical effects on O₃ formation at YC was advanced. The high concentration of precursors, high temperature, low relative humidity, and moderately high wind speed together with the wind direction dominated by south and southeast wind contribute to urban O₃ episodes in Zhengzhou. O₃ formation analysis showed that reactive alkenes such as isoprene and cis-2-butene contributed most to O₃ formation. The VOCs/NO_x ratio and smog production model were used to determine O₃-VOC-NO_x sensitivity. The O₃ formation in Zhengzhou during early summer was mainly under VOC-limited and transition regions alternately, which implies that the simultaneous emission reduction of alkenes and NO_x is effective in reducing O₃ pollution in Zhengzhou.     

岛礁环境对吊耳疲劳性能影响研究

目的 研究吊耳在岛礁环境下的腐蚀特征及其对疲劳性能的影响。方法 通过开展吊耳试验件的岛礁自然环境试验,测试其不同在试验周期的疲劳性能,分析断口形貌、元素含量变化,研究腐蚀对吊耳抗疲劳性能的影响。结果 在1 a的岛礁自然环境试验中,吊耳的腐蚀部位主要为表面镀层,并且呈非均匀腐蚀特征。随着试验时间的延长,吊耳平均疲劳断裂循环次数呈下降趋势,疲劳断口的韧性断裂特征减弱,并且氢含量有所增加。吊耳内部存在MnS夹杂物,位于韧窝底部。结论 吊耳表面点蚀坑、内部MnS夹杂物对疲劳载荷作用下裂纹的萌生和生长起到促进作用,降低了其抗疲劳性能,应加强腐蚀防护和质量控制。     

基于能值分析的价值型水资源资产负债表编制

水资源在社会经济发展中的重要性逐渐显著,强化水资源综合管理是当今世界各国实现水资源可持续利用的重要途径。目前针对水资源资产负债表的基本表式、相关概念、核算方法还存在一定争议,研制水资源资产负债表,实物核算是基础,价值核算是目标。水资源价值化方法是水资源资产负债表编制的关键和难点,这一问题一直制约水资源的价值认同及其纳入国民经济核算的可行性和准确性。按照水资源负债表核算基本原理,遵循"水资源资产-水资源负债=水资源资产净值"编制思路,构建反映经济社会用水导致的水资源过度消耗、水环境损害以及生态用水挤占的水资源资产负债表。在水资源实物量资产负债表编制的基础上,根据水文循环和水资源自身特性,通过能值分析方法,把水资源多用途转换成同一标准的能值进行定量化价值研究,从而在一定程度上改进或弥补水资源价值测算方法存在的判断标准差异的不足,尝试在一张表中实现水量和水质统一核算,从水资源、水环境、水生态三方面阐明经济体对环境体产生的水资源价值量债权关系。结果表明:成都市2015年水资源耗减量不存在负债,但水环境损害和水生态用水挤占分别存在1.52亿元和1.15亿元负债,这为水资源有偿使用和水生态保护和补偿提供了依据,为真正实现编制价值型水资源资产负债表提供了新的思路和方法。     

反复等向加卸载路径下粉质黏土变形特性研究

黏土的变形特性与应力路径密切相关,直接影响到相关工程的安全性。针对三峡库岸某路基边坡粉质黏土,采用应力路径控制试验系统,开展了两组等向固结应力状态下反复多次的加卸载试验,揭示了土体的体积变形发展规律,发现再固结过程呈现为一条先平缓后变陡的曲线,说明前期固结压力范围内的再加载也会产生不可恢复的塑性变形,且变形速率随加卸载循环次数逐渐减小。最后,结合试验曲线特点,建立了土体再固结系数与加卸载次数及应力状态相关的数学模型,能够较好的模拟反复等向加卸载条件下土样的体变特征,且可预测土体经历更多次加卸载循环中的次固结过程,为土体的持续塑性变形分析和预测提供参考。     

微电解联合物化法处理维生素B12难降解废水的研究

对使用微电解联合物化法处理维生素B12难降解废水进行了分析。通过实验研究了微电解联合物化法处理维生素B12废水的最佳工艺条件。在最佳工艺条件下,维生素B12废水色度去除达88.46%,COD去除率达到71.06%。该处理方法最后将污染物质直接吸附于改性膨润土上,不产生浓缩废水、酸碱废水等更加难以处理的废水,并且不带入有毒有害物质,可以有效降低水中污染物含量,减少后续生物处理设备的污染负荷。     

弹性系数在“绿色GDP”核算研究中的应用

本文总结了四川省在"中国环境经济核算体系总体框架"下"绿色GDP"核算结果的局限性,进而提出了"绿色弹性系数"的概念,并比较分析了2005~2007年四川省各地区的"绿色弹性系数",有效地反映了环境污染负荷的变化与社会经济的发展相互制约的关系以及发展趋势和规律。     

Nocturnal NO3 radical chemistry in Houston,TX

Radical chemistry in the nocturnal urban boundary layer is dominated by the nitrate radical, NO₃, which oxidizes hydrocarbons and, through the aerosol uptake of N₂O₅, indirectly influences the nitrogen budget. The impact of NO₃ chemistry on polluted atmospheres and urban air quality is, however, not well understood, due to a lack of observations and the strong impact of vertical stability of the boundary layer, which makes nocturnal chemistry highly altitude dependent.Here we present long-path DOAS observations of the vertical distribution of the key nocturnal species O₃, NO₂, and NO₃ during the TRAMP experiment in Summer 2006 in Houston, TX. Our observations confirm the altitude dependence of nocturnal chemistry, which is reflected in the concentration profiles of all trace gases at night. In contrast to other study locations, NO₃ chemistry in Houston is dominated by industrial emissions of alkenes, in particular of isoprene, isobutene, and sporadically 1,3-butadiene, which are responsible for more than 70% of the nocturnal NO₃ loss. The nocturnally averaged loss of NO_x in the lowest 300 m of the Houston atmosphere is ～0.9 ppb h^?1, with little day-to-day variability. A comparison with the daytime NO_x loss shows that NO₃ chemistry is responsible for 16–50% of the NO_x loss in a 24-h period in the lowest 300 m of the atmosphere. The importance of the NO₃ + isoprene/1,3-butadiene reactions implies the efficient formation of organic nitrates and secondary organic aerosol at night in Houston.