奥运前期与奥运期间北京市大气细颗粒物特征比较分析

利用城市生态系统研究站对北京市奥运前后(2008年6～9月)大气中细颗粒物(PM2.5)进行连续监测,获得不同阶段PM2.5日平均浓度的动态特征,分析气象因素、人为控制管理措施对颗粒物浓度的影响.结果表明,近北五环的生态中心站点(RCEES)颗粒物日均浓度平均值为0.067 mg.m-3,奥运期间的颗粒物浓度(0.060 mg.m-3)比奥运前期(0.081 mg.m-3)减少了约26%.而位于南二环市中心的教学植物园站点(JX)颗粒物浓度平均含量为0.078 mg.m-3.JX站点奥运期间的颗粒物浓度(0.069 mg.m-3)比奥运前期(0.095 mg.m-3)减少了约27%.各个阶段PM2.5的日变化都基本呈现双峰态势.第一个峰值出现在08:00～10:00左右,RCEES站点颗粒物浓度为0.068 mg.m-3,JX站点浓度值为0.089 mg.m-3;另一个峰值出现在晚20:00～22:00左右,RCEES和JX站点颗粒物浓度为0.079 mg.m-3和0.083 mg.m-3,这主要与上班交通高峰导致的尾气排放污染和道路扬尘污染等有关.研究气象参数发现奥运期间与奥运前期气象条件无显著差异,属于高温高湿风力不大的典型北京夏季天气条件.奥运期间颗粒物浓度与温度呈显著正相关(P<0.01),而与风速、相对湿度及降水相关性不显著(P>0.05).而连续多年大气污染综合治理措施和奥运空气质量保障措施的实施,产生了显著环境效益.在自然因素相差不大的条件下,人为控制因素对奥运期间颗粒物的下降起到主导作用.     

Unravelling the effects of complexation of transition metal ions on the hydroxylation of catechol over the whole pH region

Catechol pollutants (CATPs) serving as chelating agents could coordinate with many metal ions to form various CATPs-metal complexes. Little information is available on the effects of complexation of metal ions on CATPs degradation. This work presents a systematical study of •OH-mediated degradation of catechol and catechol-metal complexes over the whole pH range in advanced oxidation processes (AOPs). Results show that the pH-dependent complexation of metal ions (Zn²⁺, Cu²⁺, Ti⁴⁺ and Fe³⁺) promotes the deprotonation of catechol under neutral and even acidic conditions. The radical adduct formation (RAF) reactions are both thermodynamically and kinetically favorable for all dissociation and complexation species, and OH/O⁻ group-containing C positions are more vulnerable to •OH attack. The kinetic results show that the complexation of the four metal ions offers a wide pH range of effectiveness for catechol degradation. At pH 7, the apparent rate constant (k_app) values for different systems follow the order of catechol+Ti⁴⁺ ≈ catechol+Zn²⁺ > catechol+Cu²⁺ > catechol+Fe³⁺ > catechol. The mechanistic and kinetic results would greatly improve our understanding of the degradation of CATPs-metal and other organics-metal complexes in AOPs. The toxicity assessment indicates that the •OH-based AOPs have the ability for decreasing the toxicity and increasing the biodegradability during the processes of catechol degradation.     

Physicochemical properties and greenhouse gas emissions of water body during the decomposition of Potamogeton crispus with different values of initial debris biomass

Environmental Science and Pollution Research - A sediment-water mesocosm experiment was set up to identify the effects of different debris biomass P. crispus decomposition on water body...