黄土丘陵区不同土地利用类型下土壤酶活性和养分特征

研究了土地利用类型对土壤酶活性和土壤养分的影响.首先通过最小显著性差异(LSD)评价各样地之间和同一样地土壤剖面四个不同层次的土壤酶活性和养分的差异,其次分析四种土壤酶(转化酶、碱性磷酸酶、脲酶和过氧化氢酶)活性和土壤养分之间相关性;最后以农地为对照,应用土壤恢复指数研究不同土地利用类型对土壤的改良效果.研究结果表明,同农地相比,不同土地利用类型的表层(0～5 cm)土壤四种酶活性、全氮、有机质和碱解氮含量均有所提高,且在同一土地利用类型下表层土壤酶活性和养分均显著大于下部各土层.相关性分析表明,土壤四种酶活性与有机质、全氮、碱解氮呈极显著正相关关系.同农地相比,其余土地利用类型表层土壤质量显著提高,而以杨树、侧柏、油松、仁用杏和刺槐5种人工林地的土壤质量提高最为明显,同龄树种中,杨树对土壤的恢复效果大于刺槐和油松.     

Multi-dimension apportionment of clean air “parade blue”phenomenon in Beijing

The mass concentration and major chemical components of fine particulate matter were measured before, during and after Beijing''s massive parade commemorating 70th anniversary of the Chinese Victory in World War II on September 3, 2015. Regional emission inventory, positive matrix factorization (PMF), observations from space and backward air mass trajectories were jointly applied to identify the major pollution sources and their temporal and spatial variations. The contributions of emissions, their variations and the meteorological conditions related to the “parade blue” phenomenon in Beijing and its surrounding areas were investigated in detail. The main cause of the decreased PM_2.5 mass concentration was attributed to the absolute reduction in emissions of primary air pollutants. The chemical composition of PM_2.5 varied significantly before, during and after the parade. Fugitive dust particles were well controlled, the secondary formation of PM_2.5 was reduced along with the controlled gaseous precursors'' emissions from vehicles and industrial sources during the temporary intensified control period. During the parade period, the SO₂ and NO₂ column concentrations in Beijing and the surrounding areas decreased sharply, indicating that the coordinated reduction in primary emissions from the surrounding areas of Beijing played an important role in lowering the ambient concentration of SO₂ and NO₂ and accordingly lowered PM_2.5 and improved the regional air quality. A comparison of the temperature, humidity, and wind speed and direction during the same periods in 2014 and 2015 showed that the meteorological conditions positively influenced the achievement of “parade blue”.     

Influence of workpiece materials on aerosol emission from die sinking electrical discharge machining process

Simultaneous investigation of environmental emissions and machining aspects of electrical discharge machining process is essential for achieving hygienic and efficient machining. The main objective of the present work is to experimentally investigate and analyze the aerosol emission rate and the material removal rate from a die sinking electrical discharge machining process for three commonly used work piece materials viz., tool steel, mild steel and aluminum using Taguchi methodology of Experimental Design in order to suggest suitable process conditions for green manufacturing. The aerosol emission profile of all workpiece materials was found to be closely related to the material removal profile. A significant variation in emission and material removal rate was observed for workpiece materials which may be accorded to the variation in melting and vaporization temperatures. It was also observed that majority of aerosol constituents evolved from workpiece materials and that the constituents with low melting points were having high relative concentration in the aerosol emitted. The study introduced a parameter, the relative emission rate for comparing the emission for various process parameters and workpiece–tool material combinations. The favorable machining parameters for each material were then identified by employing signal to noise ratio analysis of the relative emission rate.     

苏南典型工农业交错区土壤铅富集特征及源解析 ——基于PCA-PMF方法

为阐明长江三角洲典型工农业交错区土壤中Pb富集特征以及污染源贡献,以常熟地区典型水稻土为研究对象,分析了该地区表层土壤和土壤剖面中Pb、Cu、Zn、Cd以及主量元素等的含量及Pb形态分布.结果显示,研究区表层土壤发生了显著的Pb富集,土壤Pb平均含量超出了当地水稻土Pb背景值近一倍,地学统计分析反映表层土壤Pb处于轻度...     

焦化废水中多环芳烃的成分谱及污染特征

液-液萃取-高效液相色谱法分析了焦化废水中EPA优先控制的16种多环芳烃含量,总结出其成分谱及污染特征。结果表明:16种多环芳烃在焦化废水中浓度差异较大,主要以在水中溶解度较大的萘、苊、芴、菲、荧蒽、芘为主。其中萘对多环芳烃总量的贡献最大,占总量的36.70%~86.78%。焦化企业排放废水中6种多环芳烃的总量无超标现象,苯并[a]芘单体超标较普遍。     

江苏省汽车零部件涂装行业VOCs排放情况初步调查

收集150家江苏省典型汽车零部件企业VOCs排放信息,对2家典型企业进行排放测试,分析江苏省该行业原辅料使用情况、产排污环节与核查要点、VOCs的排放特征,并提出最佳治理建议。研究表明,江苏省汽车零部件行业使用的涂料以溶剂型为主(占比约为79%)。废气按排放量大小依次为苯类、醇类、酯类和酮类,使用燃烧法处理后排放物种以烷烃为主,使用活性炭吸附法处理前后物种差异较小。吸附浓缩+燃烧组合处理工艺为目前最佳组合技术,处理效率 95%。     

Seasonal variation of transport pathways and potential source areas at high inorganic nitrogen wet deposition sites in southern China

This study attempts to identify the dominant transport pathways, potential source areas, and their seasonal variation at sites with high inorganic nitrogen (IN) wet deposition flux in southern China. This is a long-term study (2010–2017) based on continuous deposition measurements at the Guangzhou urban site (GZ) and the Dinghushan Natural Reserve site (DHS) located in the Pearl River Delta (PRD) region. A dataset on monthly IN concentration in precipitation and wet deposition flux were provided. The average annual fluxes measured at both sites (GZ: 33.04±9.52, DHS: 20.52±10.22 kg N/(ha∙year)) were higher, while the ratios of reduced to oxidized N (GZ: 1.19±0.77, DHS: 1.25±0.84) were lower compared with the national mean level and the previous reported level throughout the PRD region. The dominant pathways were not always consistent with the highest proportional trajectory clusters. The transport pathways contributing most of deposition were identified in the north and north-northeast in the dry season and in the east-southeast, east, and south-southwest in the wet season. A weighted potential source contribution function (WPSCF) value >0.3 was determined reasonably to define the potential source area. Emission within the PRD region contributed the majority (≥95% at both sites) of the IN deposition in the wet season, while the contribution outside the region increased significantly in the dry season (GZ: 27.86%, DHS: 95.26%). Our results could help create more effective policy to control precursor emissions for IN fluxes, enabling reduction of the ecological risks due to excessive nitrogen.     

Achieving air pollutant emission reduction targets with minimum abatement costs: An enterprise-level allocation method with constraints of fairness and feasibility

• Quantification of efficiency and fairness of abatement allocation are optimized. • Allocation results are refined to the different abatement measures of enterprises. • Optimized allocation results reduce abatement costs and tap the abatement space. • Abatement suggestions are given to enterprises with different abatement quotas. For achieving air pollutant emission reduction targets, total pollutant amount control is being continuously promoted in China. However, the traditional pattern of pollutant emission reduction allocation regardless of economic cost often results in unreasonable emission reduction pathways, and industrial enterprises as the main implementers have to pay excessively high costs. Therefore, this study adopted economic efficiency as its main consideration, used specific emission reduction measures (ERMs) of industrial enterprises as minimum allocation units, and constructed an enterprise-level pollutant emission reduction allocation (EPERA) model with minimization of the total abatement cost (TAC) as the objective function, and fairness and feasibility as constraints for emission reduction allocation. Taking City M in China as an example, the EPERA model was used to construct a Pareto optimal frontier and obtain the optimal trade-off result. Results showed that under basic and strict emission reduction regulations, the TAC of the optimal trade-off point was reduced by 46.40% and 45.77%, respectively, in comparison with that achieved when only considering fairness, and the Gini coefficient was 0.26 and 0.31, respectively. The abatement target was attained with controllable cost and relatively fair and reasonable allocation. In addition, enterprises allocated different emission reduction quotas under different ERMs had specific characteristics that required targeted optimization of technology and equipment to enable them to achieve optimal emission reduction effects for the same abatement cost.     

Grazing as a measure against grass encroachment in Dutch dry dune grassland: effects on vegetation and soil

A grazing experiment was started in 1984 and 1989 respectively, in two parts of a dune grassland in the nature reserve ‘Zwanenwater’, North Holland; a third part with similar geology and topography was used as a control area and not grazed. An evaluation of the effects of grazing on vegetation patterns, species composition, vegetation structure and humus form was made with the help of vegetation maps from 1986 and 1992 as well as field surveys. Dense tall-grass communities dominated byAmmophila arenaria increased over the period 1986–1992 in the grazed areas, and especially in the non-grazed area (increase in area to 20 %, 22 % and 50 %, respectively). Open communities decreased in the grazed areas, but are still prevalent, while in the ungrazed area they virtually disappeared, with the result that the present percentage areas are 53 %, 38 % and 17 %. Field survey data were classified by TWINSPAN producing four vegetation types. These occur more or less equally in grazed and ungrazed areas, albeit with different percentage areas: (1) open vegetation dominated byCorynephorus canescens; (2) open vegetation characterized byKoeleria macrantha; (3) heathland dominated byEmpetrum nigrum; and (4) tall-grass communities dominated byAmmophila arenaria. Within a vegetation type, species composition was only marginally affected by grazing regime. Within the open communities the number of species, vegetation height, vegetation cover and soil organic horizons were not affected by grazing. In the tall-grass communities the number of species was significantly larger and the height of the vegetation significantly lower in the area grazed since 1984. In the heathland community the number of species and cover of the moss layer were significantly higher in the 1984 area and ectorganic and endorganic horizons significantly thicker in the ungrazed area. It is suggested that these effects are the result of an increased availability of light, but possibly also of a decreased stock of organic matter and nutrients, due to a decreased input of litter and accelerated rates of decomposition. Nomenclature: Van der Meijden et al. (1992) for phanerogams; Corley et al. (1981) for mosses; Grolle (1983) for hepatics.