19世纪是我国特大暴雨洪水发生期

本文用大量资料,论述了我国七个江河历史首位洪水均发生在19世纪。而且,洪水泛滥使得平原地区的水系迁移、湖泊淤缩极为严重。同时,存洪水年前后,伴随着一系列寒冷、干旱的气候异常现象。     

Adsorptive removal of resorcinol on a novel ordered mesoporous carbon (OMC) employing COK-19 silica scaffold: Kinetics and equilibrium study

Phenolic compounds and their derivatives have been found in industrial wastewater, which pose threats to the natural environment. Ordered mesoporous carbon(OMC) has been identified as an ideal adsorbent possessing high specific surface area and large pore volume to alleviate these pollutants. A novel ordered mesoporous carbon was prepared using COK-19 template with the cubic Fm3 m structure for the first time. Ordered mesoporous silica COK-19 was synthesized and reported in 2015. Sucrose as the carbon precursor was impregnated into the mesopores of silica and converted to carbon through carbonization process using sulfuric acid as a catalyst. Ordered mesoporous carbon was obtained after the removal of silica framework using hydrofluoric acid. Boric acid was employed for the preparation of OMCs with tunable pore sizes in the range of 6.9–16.6 nm. Several characterization techniques such as nitrogen adsorption–desorption isotherms, transmission electron microscope(TEM), Fourier transform infrared spectroscopy, Boehm titration and elemental analysis were employed to characterize the OMCs. The pore size analysis and TEM images confirmed that OMC has replicated the mesostructure of the COK-19. Results obtained from adsorption kinetics and isotherms suggest that the Pseudo-second-order model and Langmuir isotherm well described the experimental data.     

实施最严格的野生动物保护:中国现状与改革方向

随着全球工业化和城市化的快速发展,野生动物及其栖息地保护面临着前所未有的挑战。本文识别了我国的野生动物保护存在的主要问题:(1)现行《野生动物保护法》对野生动物保护范围界定过窄,资源利用主导思维干扰了野生动物保护,缺乏对生态系统与生物安全的足够重视。(2)由于现行野生动物保护立法、执法和管理制度不健全甚至缺失,导致野生动物驯养繁殖交易市场长期混乱,甚至成为非法野生动物交易的"洗白工具"。(3)社会公众群体尊重和保护野生动物意识淡薄,全民参与和监督举报机制不健全。本文认为,我国应该实施最严格的野生动物保护制度,实现人与野生动物平等、文明、和谐相处,建议:(1)树立尊重野生动物物种生存权、人与野生动物文明和谐相处的理念,摒弃野生动物资源利用观,重构人与野生动物平等共存关系。(2)清晰界定野生动物法律定义,扩大野生动物保护范围,围绕捕猎、繁育、运输、储存、转让、食用等环节,全面、科学、精准地构建最严格的野生动物保护制度。(3)立足于全面保护野生动物,严格禁止滥食滥用野生动物和过度商业化利用,实行野生动物保护利用特许制度,并大幅提高标准严格控制交易和利用,建立职责清晰的执法监管和惩治体系。(4)建立最严格的野生动物保护公众参与和司法治理体系,实施野生动物非法贸易、猎杀的行政公益诉讼制度,引导公众建立爱护保护野生动物、不食不用野生动物的文明行为,最终实现人类社会与野生动物的文明和谐共处。     

Aerosol transmission,an indispensable route of COVID-19 spread: case study of a department-store cluster

• Aerosol transmission is an indispensable route of COVID-19 spread. • Different outbreak sites have different epidemiologic feature. • SRAS-CoV-2 can exist for a long time in aerosol. • SRAS-CoV-2 RNA can be detected in aerosol in diverse places. • Some environmental factors can impact SARS-CoV-2 transportation in aerosol. Patients with COVID-19 have revealed a massive outbreak around the world, leading to widespread concerns in global scope. Figuring out the transmission route of COVID-19 is necessary to control further spread. We analyzed the data of 43 patients in Baodi Department Store (China) to supplement the transmission route and epidemiological characteristics of COVID-19 in a cluster outbreak. Incubation median was estimated to endure 5.95 days (2–13 days). Almost 76.3% of patients sought medical attention immediately upon illness onset. The median period of illness onset to hospitalization and confirmation were 3.96 days (0–14) and 5.58 days (1–21), respectively. Patients with different cluster case could demonstrate unique epidemiological characteristics due to the particularity of outbreak sites. SRAS-CoV-2 can be released into the surrounding air through patient’s respiratory tract activities, and can exist for a long time for long-distance transportation. SRAS-CoV-2 RNA can be detected in aerosol in different sites, including isolation ward, general ward, outdoor, toilet, hallway, and crowded public area. Environmental factors influencing were analyzed and indicated that the SARS-CoV-2 transportation in aerosol was dependent on temperature, air humidity, ventilation rate and inactivating chemicals (ozone) content. As for the infection route of case numbers 2 to 6, 10, 13, 16, 17, 18, 20 and 23, we believe that aerosol transmission played a significant role in analyzing their exposure history and environmental conditions in Baodi Department Store. Aerosol transmission could occur in some cluster cases when the environmental factors are suitable, and it is an indispensable route of COVID-19 spread.     

2020年初疫情管控对山东省空气质量影响的模拟

利用2020年初新冠疫情对人类生产、生活的一次自然冲击及由此导致的大气污染状况变化,研究了空气质量对污染物减排及气象因素的响应关系.通过对疫情管控前（1月15~23日）和疫情控制关键期（1月24日~2月7日）这2个阶段空气质量对比分析发现,疫情期间山东省除O₃浓度上升外,PM₁₀、PM_2.5、NO₂、SO₂及CO浓度分别降低72.6 μg·m^-3、47.4 μg·m^-3、25.6 μg·m^-3、3.0 μg·m^-3和0.5 mg·m^-3;降幅分别为45.86%、41.24%、58.00%、17.71%和31.40%;RAMS-CMAQ模拟显示,疫情期气象扩散条件改善导致的PM₁₀、PM_2.5、NO₂、SO₂和CO浓度改善幅度为26.04%、33.03%、28.35%、43.27%和23.29%,人为减排造成的各污染物浓度降低幅度为19.82%、8.21%、29.65%、-25.56%和8.12%.疫情期间O₃浓度上升20.51%,气象因素和人为活动的影响分别占10.47%和10.04%.结果表明一次污染物对减排响应更敏感,二次污染物对减排响应有一定时滞性且受气象因素影响更显著,臭氧浓度对污染物减排线性响应关系不明显,总体呈负相关,说明臭氧的控制需探索科学的污染物减排比例.     

京津冀及周边地区秋冬季大气污染物排放变化因素解析

基于大气污染源排放清单技术方法,定量分析2016~2017年秋冬季"跨年霾"至2019~2020年秋冬季"疫情霾"期间京津冀及周边地区主要大气污染物排放量变化,解析大气污染防治政策实施带来的减排和疫情造成的活动水平下降对主要污染物排放的贡献,并利用空气质量模型模拟分析不利气象条件下措施减排和疫情影响对空气质量改善的贡献.结果表明,从"跨年霾"（2016-12-16~2017-01-14）至"疫情霾"（2020-01-22~2020-02-14）该区域主要大气污染物排放量大幅下降50%左右,不利气象条件下,区域PM_2.5平均浓度可削减40%以上.措施减排主要来自火电、钢铁等重点工业行业提标改造和工业锅炉、民用燃煤等燃煤源治理,对SO₂和PM_2.5排放量的削减贡献较大,贡献率分别为67.1%和53.4%;疫情主要影响移动源和轻工业活动水平,对NO_x和VOCs排放量的削减贡献较大,贡献率分别为71.9%和68.2%.措施减排对区域空气质量改善贡献突出,有效抑制了重污染过程的强度和范围.在"跨年霾"的不利气象条件下,措施减排使区域PM_2.5平均浓度下降26%,重度及以上污染天数减少44%.受疫情影响,区域PM_2.5平均浓度继续下降24%,重污染持续时间和范围进一步缩减.     

新冠肺炎疫情对咸阳市空气质量的影响

利用机器学习模型控制气象因素影响,定量分析了疫情期间污染源减排对咸阳空气质量的影响.结果表明,与未发生疫情情景相比,疫情期间咸阳PM_2.5、PM₁₀、SO₂、NO₂和CO浓度分别下降19.3%、26.0%、13.4%、60.1%和9.1%,NO₂降幅最大,SO₂和CO降幅较小,O₃浓度不降反而上升50.9%.在一次排放和二次生成前体物都下降的情况下,PM_2.5降幅低于预期,O₃浓度不降反升,反映出PM_2.5和O₃治理的复杂性,暗示了剩余污染源对咸阳空气质量影响较大,而停产限产政策（与疫情影响类似）对咸阳空气质量改善有限,未来应重点关注散煤和生物质燃烧、热力生产和供应、原油加工及石油制品制造等剩余污染源的治理.     

新冠期间河北省典型钢铁企业大气污染影响

基于国家气象局气象预报数据,建立了基于AERMOD的钢铁企业污染预报模型,模拟了新冠疫情管控期（2020年2~3月）及解封后期（2020年4~10月）河北省某钢铁企业对大气污染的影响,并结合空气质量实测数据进行模型验证.结果显示,不利风向条件下,该钢铁厂大气污染物排放对当地3个国控站点SO₂、NO_x和PM₁₀的平均浓度贡献占比,在疫情管控期分别为20.19%~33.81%,17.49%~23.46%和2.02%~2.69%,在解封后期分别为13.43%~21.01%,11.09%~20.92%和1.20%~2.22%.由于疫情管控期受其他人为源干扰较少,该钢铁厂SO₂、NO_x和PM₁₀的预报值和三个国控站点实际监测值的相关系数,在新冠疫情管控期（在单个站点中,最高分别为0.43、0.48和0.29）高于解封后期（最高分别为0.42、0.39和0.07）.     

Spatiotemporal variations of ambient air pollutants and meteorological influences over typical urban agglomerations in China during the COVID-19 lockdown

To investigate the air quality change during the COVID-19 pandemic, we analyzed spatiotemporal variations of six criteria pollutants in nine typical urban agglomerations in China using ground-based data and examined meteorological influences through correlation analysis and backward trajectory analysis under different responses. Concentrations of PM_2.5, PM₁₀, NO₂, SO₂ and CO in urban agglomerations respectively decreased by 18%–45% (30%–62%), 17%–53% (22%–39%), 47%-64% (14%–41%), 9%–34% (0%–53%) and 16%-52% (23%–56%) during Lockdown (Post-lockdown) period relative to Pre-lockdown period. PM_2.5 pollution events occurred during Lockdown in Beijing-Tianjin-Hebe (BTH) and Middle and South Liaoning (MSL), and daily O₃ concentration rose to grade Ⅱ standard in Post-lockdown period. Distinct from the nationwide slump of NO₂ during Lockdown period, a rebound (～40%) in Post-lockdown period was observed in Cheng-Yu (CY), Yangtze River Middle-Reach (YRMR), Yangtze River Delta (YRD) and Pearl River Delta (PRD). With slightly higher wind speed compared with 2019, the reduction of PM_2.5 (51%–62%) in Post-lockdown period is more than 2019 (15%–46%) in HC (Harbin-Changchun), MSL, BTH, CP (Central Plain) and SP (Shandong-Peninsula), suggesting lockdown measures are effective to PM_2.5 alleviation. Although O₃ concentrations generally increased during the lockdown, its increment rate declined compared with 2019 under similar sunlight duration and temperature. Additionally, unlike HC, MSL and BTH, which suffered from additional (> 30%) air masses from surrounding areas after the lockdown, the polluted air masses reaching YRD and PRD mostly originated from the long-distance transport, highlighting the importance of joint regional governance.     

Impact of meteorological condition changes on air quality and particulate chemical composition during the COVID-19 lockdown

Stringent quarantine measures during the Coronavirus Disease 2019 (COVID-19) lockdown period (January 23, 2020 to March 15, 2020) have resulted in a distinct decrease in anthropogenic source emissions in North China Plain compared to the paralleled period of 2019. Particularly, 22.7% decrease in NO₂ and 3.0% increase of O₃ was observed in Tianjin, nonlinear relationship between O₃ generation and NO₂ implied that synergetic control of NO_x and VOCs is needed. Deteriorating meteorological condition during the COVID-19 lockdown obscured the actual PM_2.5 reduction. Fireworks transport in 2020 Spring Festival (SF) triggered regional haze pollution. PM_2.5 during the COVID-19 lockdown only reduced by 5.6% in Tianjin. Here we used the dispersion coefficient to normalize the measured PM_2.5 (DN-PM_2.5), aiming to eliminate the adverse meteorological impact and roughly estimate the actual PM_2.5 reduction, which reduced by 17.7% during the COVID-19 lockdown. In terms of PM_2.5 chemical composition, significant NO₃^? increase was observed during the COVID-19 lockdown. However, as a tracer of atmospheric oxidation capacity, odd oxygen (O_x = NO₂ + O₃) was observed to reduce during the COVID-19 lockdown, whereas relative humidity (RH), specific humidity and aerosol liquid water content (ALWC) were observed with noticeable enhancement. Nitrogen oxidation rate (NOR) was observed to increase at higher specific humidity and ALWC, especially in the haze episode occurred during 2020SF, high air humidity and obvious nitrate generation was observed. Anomalously enhanced air humidity may response for the nitrate increase during the COVID-19 lockdown period.