被动式吸收采样监测空气中二氧化硫、二氧化氮主要影响因素探讨

论述了关于被动式吸收采样法用于监测环境空气中的二氧化硫、二氧化氮的影响因素,包括风向、风速、温度、湿度、吸收液种类及浓度、吸收液加入方式等;提出在四季温差较大地区,监测结果的计算中需引入温度校正系数;建议采样时间以2～3周为宜。     

干季滇池水质与盘龙江水质的研究

通过对滇池水域和盘龙江下游水质进行采样,分析了水中pH值、浊度、溶解氧(DO)、电导率、叶绿素、化学需氧量(COD)、总磷(TP)、氨态氮(NH3-N)等8个指标。研究表明,滇池近岸水域中pH值偏碱性、浊度大、叶绿素含量和化学需氧量高、总磷量高、溶解氧过饱和;在滇池外海水域,除溶解氧、叶绿素较高外,其余指标大多在水质标准(Ⅲ类)范围内;而在盘龙江下游区域内,水质差,各项指标都超过地表水Ⅴ类标准,这一事实可能会加重滇池的水体污染。     

广东某粮食基地土壤酸性条件对地下水质量影响

研究了广东省某粮食基地土壤中的全氮和浅层地下水中氨氮的关系,发现土壤酸性—强酸性环境条件和高铁锰的第四系全新统现代滩涂沉积为农业区地下水氨氮局部污染提供了环境条件。而不合理的施用氮肥是地下水氨氮长期面状污染的主要来源。     

浅谈河套灌区农田氮磷流失量及对乌梁素海输入量的估算

内蒙古的乌梁素海近年来出现了严重的富营养化现象,入湖的营养源主要有工业污染源、农业面源、城市生活废水.由于该湖主要水源为农田退水,而且城市生活废水和工业污染源都是经过河套灌区的总排水渠流入乌梁素海,本文通过调查河套灌区农田氮磷的流失量及估算向乌梁素海的输入量,确定各污染源的入湖量,特别是农田面源的入湖量对乌梁素海的富营养化防治是非常重要的.     

Runoff water quality from manured riparian grasslands with contrasting drainage and simulated grazing pressure

Globally, management of grazed riparian areas is critically important to agricultural sustainability and environmental quality. However, the potential impacts of riparian grazing management on water quality are not well-documented, particularly in the southeastern USA. The objective of this work was to determine sediment and nutrient export under simulated rainfall from poorly drained and well-drained riparian soils where heavy or light grazing pressure by cattle was simulated. Plots were established on stands of existing vegetation to create grazing pressure treatments of (a) light-use (full ground cover, uncompacted), and with stands modified to establish (b) heavy-use (bare ground, compacted) treatments. Vegetation on poorly drained soils consisted of several typical wetland species (e.g., Pontederia cordata L., Juncus coriaceus Mackenzie) in the southeastern USA, whereas mixed tall fescue (Festuca arundinacea Schreb.)–dallisgrass (Paspalum dilatatum Poir.) stands were the dominant vegetation on well-drained soils. Runoff volume was generally greater from heavy-use than from light-use for poorly drained soils and for well-drained soils. Greater runoff volume was also observed from poorly drained soils compared to well-drained soils for both light-use and for heavy-use treatments. Light-use plots were remarkably effective at minimizing export of total suspended solids (TSS) on both soils (<30 kg ha⁻¹). Mean total Kjeldahl P (TKP) export was fourfold greater from heavy-use plots than from light-use plots on both soils. While export of nitrate-nitrogen (NO₃-N) was unaffected by grazing pressure and soil drainage, mean ammonium-nitrogen (NH₄-N) and total N (TN) export from poorly drained heavy-use plots was greater than fivefold that from well-drained light-use plots. Results indicate that livestock heavy-use areas in the riparian zone may export substantial TSS and nutrients, especially on poorly drained soils. However, when full ground cover is maintained on well-drained soils, TSS and nutrient losses may be limited.     

北方地区人工湿地系统去除氨氮、总磷试验研究

减少排向水体的氨氮和总磷是促进水环境质量好转的有效措施之一。本文根据湿地植物的生长期特点,分不同时段进行了氨氮和总磷净化效果对比。试验表明,人工湿地系统对氨氮的去除率可达到87.1%,对总磷的去除率可达到91.8%,说明了在北方地区利用人工湿地系统去除市政污水中的氨氮和总磷等污染物的可行性,处理方法符合目前水环境生态保护趋势要求。     

推流式SBR工艺可行性研究

根据我国中小型城市生活污水处理的需要,改进SBR部分结构,设计出推流式SBR装置,通过试验寻找推流式SBR运行条件,验证装置对有机物降解效率,同时亦验证装置对氮、磷的脱除效果。研究表明推流式SBR工艺由于特殊的运行方式,对NH3-N和TP的去除彻底,NH3-N去除率最高达到92%,TP的去除率最高达到98.76%,TN的去除率73%,COD去除率达90%。     

The plant-enhanced bio-cathode: Root exudates and microbial community for nitrogen removal

A plant bio-electrochemical system(PBES) was constructed for organic pollutant removal and power generation. The bio-cathode, composed of granular activated carbon(GAC), stainless wire mesh and a plant species(Triticum aestivum L.), was able to catalyze cathodic reactions without any requirement for aeration or power input. During the 60-day-long operation, an average voltage of 516 m V(1000 Ω) and maximum power density(Pmax) of 0.83 W/m~3 were obtained in the PBES. The total nitrogen removal and total organic carbon removal in the PBES were 85% and 97%, respectively. Microbial community analyses indicated that bacteria associated with power generation and organic removal were the predominant species in the bio-cathode, and plant-growth-promoting rhizobacteria were also found in the PBES. The results suggested that the coupling of plants with the GAC cathode may enhance the organicmatter degradation and energy generation from wastewater and therefore provide a new method for bio-cathode design and promote energy efficiency.     

Characteristics and influence factors of NO2 exchange flux between the atmosphere and P. nigra

Nitrogen dioxide(NO_2)is an important substance in atmospheric photochemical processes and can also be absorbed by plants.N02 fluxes between the atmosphere and P.nigrc seedlings were investigated by a double dynamic chambers method in Beijing from June 15to September 3,2017.The range of N02 exchange fluxes between P.nigra seedlings and the atmosphere was from-14.6 to 0.8 nmol/(m~2.sec)(the positive data represent N02 emissior from trees,while the negative values indicate absorption).Under ambient concentrations the mean NO_2 flux during the fast-growing stage(Jun.15-Aug.4)was-3.0 nmol/(m2·sec)greater than the flux of-1.5 nmol/(m2-sec)during the later growth stage(Aug.8-Sept.3)The daily exchange fluxes of NO_2 obviously fluctuated.The fluxes were largest in the morning and decreased gradually over time.Additionally,the N02 fluxes were larger undei high light intensities than under low light intensities during the whole growth period.The effects of temperature on N02 fluxes were different under two growth periods.The NO_2exchange fluxes were larger in a range of temperatures close to 44℃in the fast-growing stage,whereas there were no evident differences in N02 exchange fluxes under widel differing temperatures in the later growth stage.Under polluted conditions,the uptake ability of N02 was weakened.Additionally,the compensation point of N02 was 5.6 ppb ir the fast-growing stage,whereas it was 1.4 ppb in the later growth stage.The depositior velocities of NO_2 were between 0.3 and 2.4 mm/sec.     

Changes in nitrogen budget and potential risk to the environment over 20 years (1990-2010) in the agroecosystems of the Haihe Basin, China

The nitrogen balance can serve as an indicator of the risk to the environment of nitrogen loss from agricultural land. To investigate the temporal and spatial changes in agricultural nitrogen application and its potential threat to the environment of the Haihe Basin in China, we used a database of county-level agricultural statistics to calculate agricultural nitrogen input, output, surplus intensity, and use efficiency. Chemical fertilizer nitrogen input increased by 51.7% from 1990 to 2000 and by 37.2% from 2000 to 2010, concomitant with increasing crop yields. Simultaneously, the nitrogen surplus intensity increased by 53.5% from 1990 to 2000 and by 16.5% from 2000 to 2010, presenting a continuously increased environmental risk. Nitrogen use efficiency decreased from 0.46 in 1990 to 0.42 in 2000 and remained constant at 0.42 in 2010, partly due to fertilizer composition and type improvement. This level indicates that more than half of nitrogen inputs are lost in agroecosystems. Our results suggest that although the improvement in fertilizer composition and types has partially offset the decrease in nitrogen use efficiency, the environmental risk has still increased gradually over the past 20 years, along with the increase in crop yields and nitrogen application. It is important to achieve a better nitrogen balance through more effective management to significantly reduce the environmental risk, decrease nitrogen surplus intensity, and increase nitrogen use efficiency without sacrificing crop yields.