除臭微生物分离及效果测定

为治理禽畜废弃物产生的恶臭对环境的污染，采用合适的分离方法从环境中分离了诸多除臭微生物，并且通过初筛和复筛相结合的方法成功地筛选出具有减少氨气释放量64%以上，硫化氢释放量50%以上，降低2个臭味等级的微生物F1。结果表明，选择合适的分离方法是分离除臭微生物的关键，初筛和复筛相结合可以快速，有效地筛选除臭微生物，除臭生物F1显示了良好的应用前景。     

北京市畜禽粪便土地利用适宜性分析

以北京市为研究区域,基于GIS下采用权重线性加和模型(WLC),综合自然、环境、社会和经济等多因子.对北京市畜禽粪便土地利用的适宜性进行了定量分析.结果表明,北京市10个郊区县适合施用畜禽粪便的耕地面积为1605.3 km2,占耕地总面积的35.3%,主要分布在北京市的南部、东南部和中部地区.聚类分析将全市郊区划分为东南部、北部、西南部和中部4个区域.东南部和中部远郊平原区比较适合发展畜禽养殖业,目前的养殖量与最大承载量之间尚存在一定空间;但是由于城镇化的加快,可施用粪便的农田与居民区的安全距离成为影响粪便施用的主要因素,需要结合有效的管理措施以避免畜禽粪便土地利用的污染风险.北部和西南部远郊低山丘陵区应适度控制畜禽养殖业的发展,由于北部区县(延庆、怀柔、密云和平谷)河流密集,并分布有北京市的主要地表水源,故与水体的安全距离对该地区的耕地施用粪便有重要影响;应控制和减少土壤沙化及水土流失,同时建立滨岸缓冲带来控制畜禽粪便土地利用对水体的进一步污染,以达到经济发展和环境保护的双重目的.     

河岸材料对河流有机污染物净化能力的影响

在河流水质号模型(RWQM1)的基础上,根据河岸材料影响河流对有机污染物净化能力的机理,建立了"简化河流水质1号模型"(S-RWQM1),并利用该模型模拟受河岸材料影响的生物化学反应过程,以及分析河岸材料及水体中微生物含量、代谢状况、有机污染物降解率与模型参数的相关性。对S-RWQM1的动力学参数进行灵敏度分析,发现对CODCr组分中易生物降解溶解性有机物Ss以及异养菌XH模拟计算结果影响较大的参数分别为异养菌好氧生长速率常数Kgro,H,aer,T0、异养菌好氧内源呼吸速率常数Kresp,H,aer,T0。相关性分析结果显示,以釉面瓷砖、透水砖、松木片为河岸材料的微生物脂磷含量、甲基萘醌与泛醌的摩尔比值MK/UQ、有机污染物降解率与模型参数中Kgro,H,aer,T0的相关系数分别为0.995、-0.904、0.988;格宾护岸的微生物脂磷含量、有机污染物降解率与Kgro,H,aer,T0的相关系数分别为0.862、0.990,与Kresp,H,aer,T0的相关系数分别为0.951、0.997。通过调整Kgro,H,aer,T0以及Kresp,H,aer,T0值,可提高CODCr模拟精度。结果表明,S-RWQM1可较好地反映河岸材料对水体中有机污染物净化能力的影响。     

钙镁磷肥与有机物料配施对作物镉铅吸收的控制效果

通过田间定位试验,采用钙镁磷肥(G)、泥碳(P)、猪粪(M)、钙镁磷肥+泥碳(GP)、钙镁磷肥+猪粪(GM)等处理对福建省龙岩市新罗区特钢厂附近的污染田进行改良。试验表明,大部分处理能提高土壤的pH值;处理钙镁磷肥、钙镁磷肥+泥碳和钙镁磷肥+猪粪对提高作物产量均有显著效果;大部分处理能抑制水稻、花生对镉铅的吸收;说明通过调节土壤pH值,改变土壤重金属活性是有机-中性化改良技术的主要机理。     

奶牛粪便翻堆式与槽式堆肥过程气体排放规律及养分损失原位监测

为探究奶牛粪便翻堆式与槽式堆肥过程中温室气体和氨气(NH3)排放规律及养分损失情况,采用原位监测的方法,通过静态采气箱和气体在线监测设备,分别对奶牛粪便翻堆式和槽式堆体开展为期36 d的气体监测.结果表明,翻堆式堆肥过程中甲烷(CH4)、氧化亚氮(N2O)和NH3排放主要集中于翻堆阶段;槽式堆肥过程中CH4和NH3排放...     

长期定位施用牛粪对夏玉米-冬小麦体系农田N2O和NO排放的影响

利用静态暗箱法对关中平原27 a长期定位施肥农田氧化亚氮(N_2O)和一氧化氮(NO)排放通量进行周年(2017年6月到2018年6月)观测,目的是阐明N_2O和NO的排放特征及其影响因子,定量评估施用牛粪对气体排放的影响.田间试验采用随机区组试验设计,设置3种处理.对照(CK)处理全年不施肥.全化肥(NPK)和化肥加牛粪(NPKM)处理全年施氮(N)量为353 kg·hm~(-2),其中夏玉米季为188 kg·hm~(-2),均为尿素N;冬小麦季为165 kg·hm~(-2),NPK处理全部为尿素N,而NPKM处理尿素N与牛粪N的比例为3∶7.结果表明,CK处理气体排放通量较低且无明显季节变化,NPK和NPKM处理气体排放高峰主要与施肥和灌溉有关,N_2O和NO排放最高峰值分别为103. 0 g·( hm~2·d)~(-1)和71. 0 g·( hm~2·d)~(-1),均出现在NPKM处理玉米季.当土壤温度高于20℃时,NPK和NPKM中NO/N_2O比均与土壤充水孔隙度呈显著负相关关系(P 0. 01),说明土壤温度和水分含量共同影响气体排放.各处理N_2O年排放量分别为0. 21、2. 32和2. 15 kg·hm~(-2),NPK与NPKM处理间差异不显著(P=0. 74); NO年排放量分别为0. 23、0. 80和1. 46 kg·hm~(-2),NPK和NPKM处理间差异显著(P 0. 05).说明长期施用牛粪对N_2O排放无影响,但可显著增加NO排放.     

Impacts of microbial redox conditions on the phase distribution of pyrene in soil-water systems

Variations in the soil/sediment organic matter (SOM)-hydrophobic organic contaminant (HOC) bindings upon microbially mediated redox conditions were examined. While the extractability of pyrene associated with soil declined after its biodegradation began during aerobic incubation, its variations were almost constant (±3.0-4.4%) during anoxic/anaerobic incubations. The dissolved organic matter released from the soil incubated under highly reduced conditions became more humified and aromatic, had a higher average molecular weight, and was more polydispersed compared to that obtained from oxic incubation, similar to the SOM alterations in the early stage of diagenesis (humification). The concentrations of pyrene in the aqueous phase increased significantly during the soil incubations under highly reduced conditions due to its favorable interaction with the altered DOM. Our results suggest that the microbially mediated redox conditions have significant impacts on SOM and should be considered for the transport, fate, bioavailability, and exposure risk of HOCs in the geo-environments.     

Reduction of the movement and persistence of pesticides in soil through common agronomic practices

Laboratory and field studies were conducted in order to determine the leaching potential of eight pesticides commonly used during pepper cultivation by use of disturbed soil columns and field lysimeters, respectively. Two soils with different organic matter content (soils A and B) were used. Additionally, soil B was amended with compost (sheep manure). The tested compounds were cypermethrin, chlorpyrifos-methyl, bifenthrin, chlorpyrifos, cyfluthrin, endosulfan, malathion and tolclofos-methyl. In soil B (lower organic matter content), only endosulfan sulphate, malathion and tolclofos-methyl were found in leachates. For the soil A (higher organic matter content) and amended soil B, pesticide residues were not found in the leachates. In addition, this paper reports on the use of common agronomic practices (solarization and biosolarization) to enhance degradation of these pesticides from polluted soil A. The results showed that both solarization and biosolarization enhanced the degradation rates of endosulfan, bifenthrin and tolclofos-methyl compared with the control. Most of the studied pesticides showed similar behavior under solarization and biosolarization conditions. However, chlorpyrifos was degraded to a greater extent in the solarization than in biosolarization treatment. The results obtained point to the interest in the use of organic amendment in reducing the pollution of groundwater by pesticide drainage and in the use of solarization and biosolarization in reducing the persistence of pesticides in soil.     

Applications of thermal hazard analyses on process safety assessments

In 2011, a large petrochemical complex in Taiwan incurred several fire and explosion accidents, which had considerable negative impact for the industry on both environmental and safety issues. Reactive substances are widely used in many chemical industrial fields as an initiator, hardeners, or cross-linking agents of radical polymerization process with unsaturated monomer. However, the unpredictable factors during the process having risk to runaway reaction, thermal explosion, fire, and exposure to harmful toxic chemicals release due to the huge heat and gas products by thermal decomposition could not be removed from the process. This study used differential technology of thermal analysis to characterize the inherent hazard behaviors of azo compounds and organic peroxides in the process, to seek the elimination of the source of the harmful effects and achieve the best process safety practices with zero disaster and sound business continuity plan.     

Regional differences in mercury levels in aquatic ecosystems: A discussion of possible causal factors with implications for the Tennessee river system and the Northern Hemisphere

Concern about mercury pollution from atmospheric deposition has risen markedly in the last decade because of high levels of mercury in freshwater fish from relatively pristine waters. Whereas high concentrations have been found principally in Canada, the northern United States, and Scandinavia, they have also recently been observed throughout much of Florida. Recent surveys of the Tennessee River system, however, have found no locations where fish levels exceed EPA guidelines for fish consumption. This paper evaluates a number of factors that may cause certain regions in the northern hemisphere to experience unacceptable fish mercury levels while other regions do not. Relevant regional differences include: (1) Waters of the Tennessee River system are generally nonacidic (pH>6) and well buffered, whereas 16%, 22%, and 40% of the lakes in upper Midwest, Northeast, and Florida, respectively, have acid-neutralizing capacities below 50 μeq/liter. Acidity correlates highly with fish mercury levels in a number of lake surveys, and experimental manipulations of acidity have significantly raised fish mercury levels. (2) The ratio of land area to water surface area in the Tennessee Valley averages about 30, whereas it is 15 in the upper Midwest and 6 in Florida. Low ratios allow mercury in precipitation to be directly deposited to aquatic bodies, without an opportunity for the mercury to be sequestered by terrestrial ecosystems. (3) Stream organic matter concentrations in Florida, the upper Midwest, and Sweden are 2–10 times those in the Tennessee Valley. Mercury binds strongly to organic matter, and organic matter transport in runoff is a major pathway by which mercury enters aquatic ecosystems.