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.     

北京山区小流域治理措施综述

山区小流域综合治理,是中国治理水土流失的主要形式.近10年来,随着可持续发展概念的引入,山区小流域治理与经济开发、资源保护相结合的战略思想逐渐被人们认识和接受,实现流域的可持续发展,已成为当今小流域治理活动的准则.综述主要对北京山区小流域治理措施进行了总结,并指出小流域治理需要综合运用多种措施;小流域治理必须充分考虑流域特征,因地制宜,分类治理.     

基于卫星遥感与地面监测分析北京大气NO_2污染特征

分析了1999—2010年北京大气NO2地面质量浓度、2004年以来北京及周边NO2柱浓度的变化.结果表明：1999—2007年来北京大气NO2质量浓度以升高为主.2008年实施奥运空气质量保障措施极大地缓解了北京NO2污染状况,地面质量浓度与垂直柱浓度都出现不同程度的回落.2009年北京大气NO2污染又有所反弹,但低...     

Seasonal and diurnal variations of atmospheric peroxyacetyl nitrate, peroxypropionyl nitrate, and carbon tetrachloride in Beijing

Atmospheric peroxyacetyl nitrate(PAN), peroxypropionyl nitrate(PPN), and carbon tetrachloride(CCl4) were measured from September 2010 to August 2011 in Beijing. PAN exhibited low values from mid-autumn to early spring(October to March) with monthly average concentrations ranging from 0.28 to 0.73 ppbV, and increased from early spring to summer(March to August), ranging from 1.37–3.79 ppbV. The monthly variation of PPN was similar to PAN, with low values(below detection limit to 0.18 ppbV) from mid-autumn to early spring, and a monthly maximum in September(1.14 ppbV). The monthly variation of CCl4was tightly related to the variation of temperature, exhibiting a minimum in winter(69.3 pptV) and a maximum of 180.6 pptV in summer. Due to weak solar intensity and short duration, PAN and O3showed no distinct diurnal patterns from morning to night during winter, whereas for other seasons, they both exhibited maximal values in the late afternoon(ca. 15:00 to 16:00 local time) and minimal values during early morning and midnight. Good linear correlations between PAN and PPN were found in autumn(R = 0.91), spring(R = 0.94), and summer(R = 0.81), with slopes of 0.130, 0.222, and 0.133, respectively, suggesting that anthropogenic hydrocarbons dominated the photochemical formation of PANs in Beijing. Positive correlation between PAN and O3 in summer with the low slopes( O3 / PAN) ranging from 9.92 to 18.0 indicated serious air pollution in Beijing, and strong negative correlation in winter reflected strong O3consumption by NO titration and less thermal decompositin of PAN.     

北京师范大学环境学院副教授、博士生导师程红光：健康风险，环评关注了多少？

环境影响评价难以提供合理有效的健康影响信息,是环境群体性事件中公众质疑最多的地方。我们知道,环境会影响健康。那么,到底环境在影响健康因素中占多大比重？世界卫生组织公布的疾病负担研究报告称,全球24％的疾病或者23％的死亡,是环境因素造成的。把环境健康风险纳入环评,可以提高环评的有效性,使决策者能够更多地考虑公众利益,通过与公众进行沟通交流,降低和防止因信息不对称造成的社会恐慌。     

北京市污水资源化利用现状及其对策分析研究

北京是水资源严重匮乏的城市,水资源短缺已经成为制约北京经济社会可持续发展进程的重要因素.污水资源化将城市污水进行加工处理,转化为达标的、可供人们二次利用的合格水资源,既能增加水源,又能减少水环境污染,是解决北京目前水资源紧缺问题的最为有效的途径.文章梳理了近年来北京市污水资源化利用的发展现状,指出了北京市污水资源化利用所面临的困境,并提出了加快北京市污水资源化利用的对策.     

奥运场馆多姿多彩

2008年将在北京举办的第29届奥林匹克运动会,北京赛区需要31个比赛场馆。其中新建场馆12个、改扩建场馆11个、8个临时场馆。新建的12个场馆是：国家体育场(“鸟巢”)、国家游泳中心(“水立方”)、国家体育馆(体操、手球、蹦床)、北京射击馆(射击)、五棵松体育馆(兰球)、老山自行车馆(场地自行车)、奥     

北京市交通环境监测点大气污染特征分析

研究分析了2013—2017年北京市交通环境点位大气污染物浓度分布特征,结果发现:交通监测点NO、NO_2与PM_(2.5)浓度时间变化特征与城区总体状况基本一致,与交通环境密切相关的NO_2浓度采暖季高于非采暖季,重污染日期间交通监测点峰值浓度也明显偏高;周末交通监测点NO浓度在5:00—23:00低于工作日4.9%～32.1%,周末NO_2浓度在7:00—23:00低于工作日0.7%～7.4%,NO_x浓度周末偏低与车流量降低密切相关;重大活动期间空气质量减排措施实施后,北京市作为区域NO_2浓度高值区中心明显消失,PM_(2.5)浓度分布梯度减小,本地减排效果明显。     

2016—2018年北京城市湿地遥感监测分析

为全面了解北京城市湿地的现状及近年来的动态变化情况,利用高分辨率卫星遥感数据,综合运用GIS技术与景观生态学方法,定量分析了北京市6环内的湿地空间格局。结果表明,北京6环内城市湿地以河流湿地和湖库湿地为主;2016—2018年间湿地面积有所下降,2年间减少了126.58 hm²,主要转化为草地,少量转化为建设用地和林地;由于城市外围的开发建设强度较大,5-6环湿地被侵占面积相对较大,而4环内湿地面积的波动较小;2016—2018年,北京城市湿地的斑块密度增加,平均斑块面积有所减小,表明湿地斑块随时间变化呈破碎化的趋势,且从城市中心向城市边缘,湿地斑块的破碎化程度增强。     

北京地区土壤对柴油的吸附及影响因素研究

通过静态吸附实验,研究了北京地区土壤对柴油的吸附行为,考察了溶液pH和添加乙醇对柴油吸附的影响. 结果表明,6种不同土样对柴油的吸附等温线均较好地符合Langmuir吸附方程,其吸附系数(K)分别为0.193, 0.218, 0.203, 0.199, 0.211和0.182 L/mg,6种土样吸附能力依次为轻壤土>轻粘土>中壤土>砂壤土>重壤土>紧砂土,这主要是由于6种土样的pH,有机质含量和机械组成不同所致;溶液pH的升高,不利于柴油在土壤中的吸附,pH从4升高到10,柴油在1～6号土样中的吸附量分别从1　012, 1　800, 1　377, 1　272, 1　601和862 μg/g降低到114, 236, 163, 150, 201和85 μg/g;向柴油中添加乙醇会减小柴油的吸附量,并且吸附量随添加乙醇量的增大而降低,这有利于柴油的向下运移.