东北玉米热量指数预测方法研究(Ⅲ)——GM(1,1)预测方法

GM(1,1)是开展时间序列环境要素变化趋势预测的有效方法之一。通过对东北地区玉米热量指数的分析,建立了热量指数时间变化趋势的GM(1,1)预测模型,各模型的平均预测精度虽低于逐步回归统计模型,但也都达91%以上,可以应用该模型的预测结果指导农业生产。     

城镇社区地震应急工作模式的建立

社区地震应急工作是我国地震应急管理工作的重要内容之一,是减轻地震灾害的有效途径。如何依托社区开展地震应急工作是近年来,特别是汶川地震后全社会关注的问题。从地震应急组织管理、应急预案、志愿者队伍建设、宣传培训、应急演练、物资储备、避难场地和疏散通道设置以及地震应急处置等几个方面讨论了社区地震应急工作模式。     

城市再生水生产工艺中典型紫外防晒剂的去除

随着紫外防晒剂在个人护理用品中的大量使用,其环境及健康风险效应开始得到人们的关注.采用固相萃取-气相色谱-质谱联用(SPE-GC-MS)技术对天津某再生水厂不同处理单元中4种典型紫外防晒剂4-甲氧基肉桂酸-2-乙基己基酯(ethylhexylmethoxycinnamate,EHMC),羟苯甲酮(benzophenone-3,BP-3),3-(4-甲苯基亚甲基)-d-1-樟脑(4-methylbenzylidene,4-MBC),2-氰基-3,3-二苯基丙酸-(2-乙基)己基酸(octocylene,OC)的分布及去除情况进行了检测.结果表明,污水处理厂二级出水中4种目标化合物的浓度范围在34ng·L-1￣2128ng·L-1之间;4种物质在夏秋季(7月和9月)的浓度普遍高于冬季(2月).污水处理厂二级出水中的这4种紫外防晒剂在经过混凝-絮凝处理、连续膜过滤和臭氧氧化处理后出水中的浓度呈下降趋势,总去除率为28.3%￣43.1%,其中臭氧氧化阶段对目标物的去除率最大(16%￣29%),而连续膜过滤阶段去除率最小(3.6%￣8.5%),混凝-絮凝阶段去除率介于2者之间(8%￣21%).由此可见,紫外防晒剂在再生水处理过程中并未得到完全去除,因此再生水的使用需经周密规划,以免对人体健康和生态环境造成威胁.     

硫酸铜和马度米星铵联合暴露对鲫鱼的毒性和效应标记物研究

为探究硫酸铜和马度米星铵对水产动物的生态毒性,本研究以鲫鱼为模型,从急性毒性、亚急性毒性和遗传毒性3个方面研究硫酸铜和马度米星铵单一与联合暴露对鲫鱼的毒性效应.结果 表明,硫酸铜对鲫鱼96 h的半数致死浓度(50％ lethal concentration,LC50)为3.6 mg·L-1,硫酸铜和马度米星铵联合暴露时,硫酸铜对鲫鱼的96 h-LC50为1.4 mg· L-1,马度米星铵对鲫鱼的96 h-LC50为4.2 mg·L-1,硫酸铜对鲫鱼为高等毒性;硫酸铜和马度米星铵对鲫鱼的联合毒性表现为协同作用.染毒第7天,硫酸铜和马度米星铵均可影响过氧化氢酶(catalase,CAT)和谷胱甘肽过氧化物酶(glutathione peroxidase,GPx)的活性,随着剂量和染毒时间的增加,CAT和GPx的活性逐渐下降.硫酸铜和马度米星铵单一或联合暴露7d或21 d显著下调cat基因表达,对sod和gpx基因表达无显著影响.染毒后期,染毒组谷丙转氨酶(alanine aminotransferase,ALT)、谷草转氨酶(aspartate transaminase,AST)和碱性磷酸酶(alkaline phosphatase,ALP)活性及丙二醛(malondialdehyde,MDA)含量均高于对照组.硫酸铜和马度米星铵单一及联合染毒均能诱导鲫鱼红细胞产生微核,微核数与硫酸铜和马度米星铵的浓度呈正相关;随着硫酸铜和马度米星铵浓度的增加,肝细胞的脱氧核糖核酸(deoxyribonucleic acid,DNA)出现断裂,彗星尾部所占比例逐渐升高;高浓度联合染毒组红细胞微核率和肝细胞尾部DNA百分比显著高于单一染毒组.硫酸铜和马度米星铵联合暴露可导致鲫鱼血液毒性、肝细胞氧化损伤及遗传毒性的加和性,为评估Cu2+与马度米星铵复合污染对鲫鱼的生态毒性提供基础数据和理论依据.     

75％戊唑·嘧菌酯可溶性粉剂对3种昆虫的急性毒性与初级风险评估

为明确75％戊唑·嘧菌酯可溶性粉剂对意大利蜜蜂、玉米螟赤眼蜂和家蚕的急性毒性和初级风险.采用国标《化学农药环境安全评价试验准则》(GB/T 31270—2014)中的4种方法,包括饲喂法(蜜蜂经口)、点滴法(蜜蜂接触)、药膜法(赤眼蜂)和浸叶法(家蚕),分别测定了该农药对上述3种非靶标昆虫的急性毒性,并根据国标《农药登记环境风险评估指南》(NY/T 2882—2016)把这些结果用于该药的初级风险评估.结果表明,75％戊唑·嘧菌酯可溶性粉剂对意大利蜜蜂的急性接触毒性48 h半致死剂量(48 h-LD50)为>105μg·蜂-1,急性经口毒性48 h-LD50为65.9μg·蜂-1,对蜜蜂的风险可接受(风险商(RQ)=0.135≤1).对玉米螟赤眼蜂的急性毒性24 h半致死用量(24 h-LR50)为2.81×10-6 mg·cm-2,对玉米螟赤眼蜂的农田内和农田外喷雾场景风险均不可接受(危害商HQin=1199>5,HQoff=24.2>5).对家蚕的急性毒性96 h半致死浓度(96 h-LC50)为596 mg·L-1,对家蚕的喷雾场景下的最外围桑树风险不可接受(RQ=7.47>1),次外围桑树风险可接受(RQ=0.457≤1).对不可接受的风险,宜采取风险减轻措施,如喷雾施药期间禁止释放赤眼蜂,避免在桑园周围喷雾法施药等,以达到保护非靶标环境生物的目的.     

Optimization of the O3/H2O2 process with response surface methodology for pretreatment of mother liquor of gas field wastewater

• Real ML-GFW with high salinity and high organics was degraded by O₃/H₂O₂ process. • Successful optimization of operation conditions was attained using RSM based on CCD. • Single-factor experiments in advance ensured optimal experimental conditions. • The satisfactory removal efficiency of TOC was achieved in spite of high salinity. • The initial pH plays the most significant role in the degradation of ML-GFW. The present study reports the use of the O₃/H₂O₂ process in the pretreatment of the mother liquor of gas field wastewater (ML-GFW), obtained from the multi-effect distillation treatment of the gas field wastewater. The range of optimal operation conditions was obtained by single-factor experiments. Response surface methodology (RSM) based on the central composite design (CCD) was used for the optimization procedure. A regression model with Total organic carbon (TOC) removal efficiency as the response value was established (R² = 0.9865). The three key factors were arranged according to their significance as: pH>H₂O₂ dosage>ozone flow rate. The model predicted that the best operation conditions could be obtained at a pH of 10.9, an ozone flow rate of 0.8 L/min, and H₂O₂ dosage of 6.2 mL. The dosing ratio of ozone was calculated to be 9.84 mg O₃/mg TOC. The maximum removal efficiency predicted was 75.9%, while the measured value was 72.3%. The relative deviation was found to be in an acceptable range. The ozone utilization and free radical quenching experiments showed that the addition of H₂O₂ promoted the decomposition of ozone to produce hydroxyl radicals (·OH). This also improved the ozone utilization efficiency. Gas chromatography-mass spectrometry (GC-MS) analysis showed that most of the organic matters in ML-GFW were degraded, while some residuals needed further treatment. This study provided the data and the necessary technical supports for further research on the treatment of ML-GFW.     

Environmental effects and risk control of antibiotic resistance genes in the organic solid waste aerobic composting system: A review

• ARGs were detected in livestock manure, sludge, food waste and fermentation dregs. • The succession of microbial community is an important factor affecting ARGs. • Horizontal transfer mechanism of ARGs during composting should be further studied. Antibiotic resistance genes (ARGs) have been diffusely detected in several kinds of organic solid waste, such as livestock manure, sludge, antibiotic fermentation residues, and food waste, thus attracting great attention. Aerobic composting, which is an effective, harmless treatment method for organic solid waste to promote recycling, has been identified to also aid in ARG reduction. However, the effect of composting in removing ARGs from organic solid waste has recently become controversial. Thus, this article summarizes and reviews the research on ARGs in relation to composting in the past 5 years. ARGs in organic solid waste could spread in different environmental media, including soil and the atmosphere, which could widen environmental risks. However, the conventional composting technology had limited effect on ARGs removal from organic solid waste. Improved composting processes, such as hyperthermophilic temperature composting, could effectively remove ARGs, and the HGT of ARGs and the microbial communities are identified as vital influencing factors. Currently, during the composting process, ARGs were mainly affected by three response pathways, (I) “Microenvironment-ARGs”; (II) “Microenvironment-microorganisms-ARGs”; (III) “Microorganisms-horizontal gene transfer-ARGs”, respectively. Response pathway II had been studied the most which was believed that microbial community was an important factor affecting ARGs. In response pathway III, mainly believed that MGEs played an important role and paid less attention to eARGs. Further research on the role and impact of eARGs in ARGs may be considered in the future. It aims to provide support for further research on environmental risk control of ARGs in organic solid waste.     

南京市典型地区大气多环芳烃污染特征及健康风险评价

采用气相色谱-质谱法,于2016年9月和12月对南京市2个典型地区大气中16种多环芳烃(PAHs)的质量浓度进行分析,并开展了PAHs组成特征、来源解析及人体健康风险评价研究。结果表明,工业区(六合区)和生活区(江宁区)大气(气态和可吸入颗粒态)中16种PAHs的质量浓度分别为914.82和712.27 ng/m~3,苯并[a]芘毒性等效浓度分别为274.1和309.84 ng/m~3,且呈现冬季高、秋季低的特征。比值法源解析结果表明,燃煤污染是六合区PAHs污染主要来源,而江宁区主要表现为交通污染。人体健康风险评价结果表明,六合区和江宁区人群通过大气吸入PAHs的超额致癌风险分别为5.17×10~(-5)和5.85×10~(-5),均略高于可接受水平10~(-6)。     

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.     

广西典型岩溶区农田土壤-作物系统Cd迁移富集影响因素

为揭示岩溶区农田土壤-作物系统Cd迁移富集主要影响因素,选择广西典型岩溶区根系土-水稻籽实Cd含量及土壤pH值、有机质（OM）、氧化物含量和质地数据,通过Spearman相关性分析和主成分分析（PCA）,开展了土壤理化性质对土壤和水稻籽实Cd含量的影响研究.结果表明,相比于全国土壤背景基准值,研究区土壤中总氧化铁（TFe₂O₃）、三氧化二铝（Al₂O₃）和氧化锰（MnO）相对富集,平均含量分别为20.2%、19.0%和0.2%,且区内广泛发育Fe-Mn结核;而二氧化硅（SiO₂）相对亏损,平均含量为41.0%,呈现出典型的"脱硅富铝铁"特征,表明研究区土壤经历了较强烈的风化淋溶作用.相关性分析结果显示,土壤TFe₂O₃和MnO含量分别与土壤总Cd含量和残渣态Cd百分比呈显著的正相关性,与有效态Cd含量、水稻籽实Cd含量和Cd的生物富集系数（BCF）呈显著的负相关性.PCA分析结果也显示,土壤TFe₂O₃和MnO含量是影响土壤-作物系统Cd迁移富集的主要因素,而土壤pH值、OM和Al₂O₃含量等影响程度较小,SiO₂含量和土壤质地间接地影响土壤-作物系统Cd的迁移富集.综合研究认为,土壤在交替氧化和还原条件下所形成的新生体Fe-Mn结核对Cd具有较强的吸附和固定作用,导致Cd在残渣态中相对富集,降低了土壤Cd的活动性,因此Fe-Mn结核是研究区土壤Cd生物有效性的主要影响因素.