地膜覆盖对菜地生态系统N2O排放的影响

为了探讨地膜覆盖对菜地N_2O的排放通量、土壤剖面N_2O浓度以及土壤温度和湿度的影响,选取西南地区常见菜地(辣椒-萝卜轮作)为研究对象,采用静态暗箱/气相色谱法,进行了为期1 a的野外观测实验.结果表明,在辣椒季,常规处理(不覆膜)N_2O的平均排放通量为1000.0μg·(m~2·h)~(-1),覆膜处理为400.6μg·(m~2·h)~(-1),覆膜显著低于常规处理(P0.05);而在萝卜季,N_2O的平均排放通量则表现为覆膜处理[128.1μg·(m~2·h)~(-1)]高于常规处理[107.8μg·(m~2·h)~(-1)],但两者差异未达到显著水平(P0.05).覆膜和常规菜地土壤中N_2O含量均基本随土层深度的增加而增加,表现为:30 cm20cm10 cm,相同处理各层次土壤N_2O含量间均呈显著相关,不同处理相同深度处的土壤N_2O含量间也存在显著的正相关关系.对不同土层中的N_2O含量与地表N_2O排放通量的相关性分析可得出,常规处理各土层处的N_2O含量与地表N_2O排放通量呈显著正相关关系.覆膜处理的N_2O排放通量仅与30 cm深土壤中的N_2O含量存在显著正相关关系.通过对土壤湿度和温度的观测可以得出,地膜覆盖对土壤的增温效应在夏季更加明显,对土壤的保水作用在秋冬季更加突出.相关性分析和主成分分析结果表明,土壤中氮素形态是决定农田N_2O排放最重要的因素,其中常规菜地N_2O排放主要受土壤中总氮含量的影响,而覆膜菜地N_2O的排放对土壤中无机态氮含量的变化更加敏感.     

挥发性有机物污染场地挖掘过程中污染扩散特征

我国城市工业污染场地主要受挥发性及半挥发性有机污染物(VOCs/SVOCs)的污染.挥发性有机污染物挥发性大,在环境中容易迁移,土壤被挖掘和扰动时,土壤中VOCs很容易形成短时间内的相对较高浓度释放;如果施工人员没有进行适当防护,极易产生健康危害.本研究通过现场快速监测与采样管采样技术相结合,研究污染场地修复开挖过程中气态污染物的分布规律.监测结果表明,在场地开挖的主导风向上,气态污染物浓度分布随距离而下降,并呈现波峰和波谷交替出现的特征.监测结果可以用多个高斯烟团的叠加来拟合.本研究结合工业场所职业健康与安全有关限值,推导污染土壤修复开挖现场安全区域划分的方法,并提出相应分区的个人安全防护响应措施.     

防沙堤风场特征数值模拟

基于FLUENT软件,采用标准湍流模型对防沙堤风场特征进行了数值模拟,研究了防沙堤迎风面和背风面设计方式对风场的影响。结果表明,防沙堤风场主要受迎风面坡度控制,坡度越陡对风速的衰减效果越好;对于固定形式的防沙堤,风场结构特征与风速无关,对不同风速的衰减比率是一定的。     

高压输电线路的工频电磁场对环境的影响分析及对策建议

依据《500kV超高压送变电工程电磁辐射环境影响评价技术规范》（HJ/T24-1998）中的预测模式,分析不同技术参数对输电线路周围环境工频电磁场强度的影响,并有针对性地提出减少输电线路对周围环境影响的环境保护措施及优化输电线路的架设方式。     

轮式装甲车整车外流场热管理浅析

某改进的轮式装甲车在使用过程中,发动机附近环境的温度比原车高。针对这一问题,通过FLUENT软件对装甲车外形流场进行三维模拟计算,找到了故障发生的原因,并根据计算结果提出了最佳改进方案。通过对原车和改进整车的发动机冷却系统进行热平衡道路试验对比,验证了改进方案的合理性。     

基于改进道化学指数法的野战油库安全评估

野战油库的安全性对提高其战时生存与保障能力具有重要的作用。根据野战油库的特性,通过对道化学指数评价法进行适当改进,提出了一种新的安全评估方法,该方法通过计算野战油库战时的安全指数,从而划分出野战油库的安全等级及危险程度,对指导野战油库制定安全防护措施、提高其战时生存与保障能力具有重要的作用。     

沼液复合型杀虫剂的田间应用试验研究

通过沼液复合型杀虫剂的田间应用试验,对各种沼液复合型杀虫剂的抗病防虫性能进行了深入研究.在大田应用条件下测试了沼液复合型杀虫剂的杀虫效果.结果表明,该沼液复合型杀虫剂对蚜虫的毒杀作用均比较明显.为了推进沼液复合型杀虫剂的商业化进程,提出便于其田间应用的各种最佳配比浓度,即BP01号、BP02号、BP03号、BP04号、BP05号沼液复合型杀虫剂抗病防虫性能最佳的配比分别为9 500倍液、26000倍液、11 667倍液、22 000倍液和13 333倍液.     

Observed LATCH use and misuse characteristics of child restraint systems in seven states

INTRODUCTION: Although the LATCH System (Lower Anchors and Tethers for Children) holds the promise of simplifying the installation of a child restraint system (CRS) to the vehicle's seat, many drivers transporting young children have difficulties using this technology. This paper reports on an observation study of LATCH use and misuse. METHOD: Observations of approximately 1,000 children less than 5 years of age in CRSs, in the back seats of vehicles that were equipped with tether and lower anchors, in seven states. RESULTS: Tethers were used for 51% of the children when the forward-facing CRS had tether straps and the vehicle had tether anchors. Lower anchors were used for 58% of the children when the CRS had lower attachments and the vehicle had lower anchors. The most common tether and lower attachment misuses were loose tether straps (18% of cases) and loose lower attachment installation (30% of the cases), respectively. Vehicle safety belts were used in combination with lower attachments in 20% of all lower anchor installations. CONCLUSION: As more caregivers of young children drive vehicles equipped with LATCH, it will be important to promote the proper installation of CRSs using this technology. LATCH education messages must also emphasize that the lower anchors may not always be the safest choice for CRS attachment -- the safest attachment is the one that results in a tight fit and will be used correctly consistently.     

Assessing field vulnerability to phosphorus loss in Beijing agricultural area using Revised Field Phosphorus Ranking Scheme

Guanting Reservoir,one of the drinking water supply sources of Beijing,suffers from water eutrophication.It is mainly supplied by Guishui River.Thus,to investigate the reasons of phosphorus(P)loss and improve the P management strategies in Guishui River watershed are important for the safety of drinking water in this region.In this study,a Revised Field P Ranking Scheme(PRS)was developed to reflect the field vulnerability of P loss at the field scale based on the Field PRS.In this new scheme,six factors are included, and each one was assigned a relative weight and a determination method.The affecting factors were classified into transport factors and source factors,and,the standards of environmental quality on surface water and soil erosion classification and degradation of the China were used in this scheme.By the new scheme,thirty-four fields in the Guishui River were categorized as"low","medium"or"high"potential for P loss into the runoff.The results showed that the P loss risks of orchard and vegetable fields were higher than that of corn and soybean fields.The source factors were the main factors to affect P loss from the study area.In the study area,controlling P input and improving P usage efficiency are critical to decrease P loss.Based on the results,it was suggested that more attention should be paid on the fields of vegetable and orchard since they have extremely high usage rate of P and high soil test of E Compared with P surplus by field measurements,the Revised Field PRS was more suitable for reflecting the characteristics of fields,and had higher potential capacity to identify critical source areas of P loss than PRS.     

Improvement of soil aggregate stability by repeated applications of organic amendments to a cultivated silty loam soil

The objective of this study was to compare the effects of repeated field applications of three urban compost amendments and one farmyard manure amendment over a 9-year period on aggregate stability in a silty loam soil initially characterized by low clay and initial organic matter contents and poor aggregate stability. Three different aggregate stability tests with increasing disruptive intensities (fast wetting > mechanical breakdown > slow wetting tests) and different disaggregation mechanisms, were used. All of the amendments, which were applied at approximately 4 Mg C ha⁻¹ every other year, increased the organic carbon content and improved the stability of the aggregates against the disruptive action of water, as determined by each of the stability tests. However, the year-to-year variations in the aggregate stability that related to factors other than the organic inputs were greater than the cumulative increase in aggregate stability relative to the control. The positive effects of the tested amendments on aggregate stability were linked to their contribution to soil organic C contents (r = 0.54 for the fast wetting test and r = 0.41-0.42 for the mechanical breakdown and slow wetting tests; p < 0.05). The addition of urban composts had a larger positive effect on aggregate stability than farmyard manure at the majority of sampling dates. The addition of biodegradable immature compost, such as municipal solid waste (MSW), improved the aggregate stability through an enhanced resistance to slaking. The addition of mature composts, such as the co-compost of sewage sludge and green wastes (GWS) or biowaste compost (BW), improved the aggregate stability by increasing interparticular cohesion. The MSW compost was the most efficient in improving aggregate stability during the first 6 years of the experiment (average improvements of +22%, +5% and +28% in the fast wetting, mechanical breakdown and slow wetting tests, respectively, compared to the control treatment); this result was likely due to the larger labile organic pool of the MSW compost that was highly effective at stimulating soil microbial activity. After the first 6 years, the two other composts, GWS and BW, became more efficient (average improvements of +25%, +61% and +33% in the fast wetting, mechanical breakdown and slow wetting tests, respectively, compared to the control treatment), which was probably linked to the greater increase in soil organic C contents. Therefore, the application of urban compost to silty soil that is susceptible to water erosion was effective at improving aggregate stability and thus could be used to enhance the resistance of soil to water erosion.