新疆有机水稻种植对土壤环境质量影响的初步分析

通过初步分析新疆有机水稻种植对土壤环境质量影响的情况,为今后改善农村生态环境、促进生态农业发展提供科学依据。在水稻有机种植方式下,重金属、农残含量要低于常规种植方式,而有机质明显要高于常规。有机水稻种植有利于改善生态环境,提高土壤环境质量,有利身体健康。     

几种常用农药在菠菜中的残留动态研究

在露地栽培条件下,研究了氯氰菊酯、氰戊菊酯、毒死蜱和百菌清在菠菜生产中的残留降解动态.试验结果表明,不同农药在菠菜体内的降解速度有很大差异,其残留量随用药后时间的延长而减少.在推荐用量和加倍用量叶面喷洒处理条件下,毒死蜱的半衰期分别为3.95 d和4.61 d,氯氰菊酯的半衰期分别为5.03 d和5.88 d,氰戊菊酯的半衰期分别为5.26 d和7.22 d,百菌清的半衰期分别为2.63 d和3.39 d.在试验的4种农药中,氰戊菊酯的半衰期最长,百菌清的半衰期最短.因此,在菠菜生产中使用农药时,应充分考虑所用农药的半衰期,严格掌握安全间隔期,确保生产的菠菜达到无公害菠菜的质量标准要求.     

Experimental studies on ozonation of ethylenethiourea

The experimental study on ozonation of ethylenethiourea(ETU) is conducted.The reaction of gas-phase ETU with 0.63 × 10-6 mol/L ozone is carried out in a 200-L reaction chamber.The secondary organic aerosol(SOA) resulted from the ozonation of gas-phase ETU is observed with a scanning mobility particle size(SMPS).The rapid exponential growth of SOA reveals that the atmospheric lifetime of ETU vapor towards ozone reaction is less than four days.The ozonation of dry ETU particles,ETU-contained water droplets an...     

Pretreatment of heterocyclic pesticide wastewater using ultrasonic/ozone combined process

Ultrasonic/O3 combined process was employed to pretreat heterocyclic pesticide wastewater for increasing biodegradability and reducing biological toxicity. Influences of ultrasonic frequency, ultrasonic power, probe diameter, initial pH and O3 dosage on the COD removal were studied. The results showed that the ultrasonic/O3 process significantly improved the biodegradability and reduced the biological toxicity of the wastewater. The ratio of BOD5/COD was increased from 0.03 to 0.55 and the EC50 increased from 11% to 52% under ultrasonic/O3 treatment. Low ultrasonic frequency brought better COD removal. Initial pH was found to have a high influence on the COD removal and alkaline conditions were more favorable. The influences of ultrasonic power and probe diameter were small. With an increase in O3 dosage, COD removal was e ectively improved. The optimal operational parameters for the combined process on COD removal were ultrasonic frequency 20 kHz, initial pH 9.00, ultrasonic power 300Wand dosage of O3 454.8 mg/(L min), under which the e ciency of COD removal reached 67.2%.     

Photoelectrocatalytic degradation of high COD dipterex pesticide by using TiO2/Ni photo electrode

A TiO₂ thin film electrode deposited on porous nickel net (TiO₂/Ni) was prepared by the sol-gel method, and the surface morphology, crystal structure features and the grain size were characterized by Field emission scan electron microscopy (FESEM) and X-ray diffraction (XRD). The photoelectrocatalytic system was set up using a UV high-pressure mercury lamp as the light source, TiO₂ coated on foamed nickel as photo anode, Pt sheet as counter electrode and the pesticide dipterex in synthetic wastewater. Various factors that influence the photoelectrocatalytic decomposition of dipterex pesticide have been studied, such as degradation time, the type of electrolyte, current density, original pH value and different degradation methods. The prepared catalysts were employed to photoelectrocatalytically degrade the pesticide dipterex under UV irradiation, comparing the results with photocatalytic degradation and electrochemical oxidation. The results indicated that under the optimal conditions of 0.02 mol/L NaCl as the supporting electrolyte, current density = 2.5 mA/cm², pH 6.0 and dipterex pesticide 40 mg/L, and reaction time 2 hr, dipterex chemical oxygen demand (COD) removal rate and organophosphorous conversion of up to 82.6% and 83.5% were achieved, respectively. The method of photoelectrocatalytic degradation is more efficient than photocatalysis and electrochemical oxidation. The possible roles of the electrolytes on the reactions and probable mechanisms were also discussed.     

有机氯农药微生物降解技术研究进展

文章综述了有机氯农药的污染化学特征、环境介质中的分布水平、降解功能微生物的种类以及典型有机氯农药的降解途径等,并对有机氯农药微生物降解相关的酶和基因以及降解机理进行了重点讨论。参与有机氯农药微生物降解过程的酶主要有脱氯化氢酶、水解酶和脱氢酶三种,它们通过共代谢,中间协同代谢或矿化等作用完成降解过程。相关降解基因主要是Lin家族基因,包括LinA～LinJ的10个典型功能基因编码。微生物降解有机氯农药的机理主要包括矿化作用、共代谢作用、种间协同代谢作用、活化作用和间接作用等,其中矿化过程包括氧化、还原、水解、脱水、脱卤和裂解等生化反应。由于有机氯农药的持久性和广泛污染性,其降解机理及中间产物的类型、毒性以及新型降解菌的效能开发仍是该领域今后的研究重点。     

种植基地有机磷农药污染土壤的微生物修复

针对我国土壤普遍受到有机磷农药污染的现状,从有机磷农药污染土壤中筛选出降解作用大、生理性状稳定的5种抗性菌株,根据细菌形态观察、生理生化指标检测及16SrDNA基因序列分析,初步确定其生物学分类地位。通过富集培养及固定化技术,分别研究其对甲拌磷、对硫磷、甲基异柳磷和氯氰菊酯等农药的生物降解作用及其影响因素。初步探讨了微生物对甲拌磷农药的降解机理。上述研究结果表明：利用微生物降解农药是一种较有开发前景的有效方法。     

某污灌区污水-土壤-地下水污染物分布特征

通过对某污灌区灌溉水、土壤及地下水的取样分析,研究了灌区污染物的分布特征。结果表明:灌区主要污染物为重金属Zn、多环芳烃和农残六六六。不同污染物分布特征不同。重金属主要富集于土壤表层,如Zn大部分富集于耕植层中(0～30cm),但浓度过高,其可向深部迁移。多环芳烃按分子量可分为三类,小分子量芳烃迁移过程中降解转化显著;中分子量芳烃迁移至深部土壤和地下水,土壤各深度吸附量几乎相同;大分子量芳烃化学性质稳定,易吸附沉积于表层土壤和底泥中。农残六六六迁移深度至少可达50m。     

现行农产品质量监管体系下农药残留控制路径探析--以浙江省某村为例

农药的施用关系到农产品质量安全问题。本文以浙江省某村农药管理与施用为例,通过对政府部门、镇农技站、农资销售点和农民等相关方的访谈,从农业发展战略高度系统思考农产品安全问题的成因与对策。指出农药施用过程监管的缺失和结果监管的缺位仅是表象,其根本原因在于农民的组织化程度低导致监管成本高、农技服务不到位。提出多功能农业发展定位的确立、制度创新基础上农业生产服务体系的优化以及村委会角色责任的调整是应对之策。     

4种甲氧基丙烯酸酯类杀菌剂不同剂型对斑马鱼急性毒性效应

采用半静态法测定了4种甲氧基丙烯酸酯类杀菌剂原药及制剂对斑马鱼(Brachydonio rerio)急性毒性。结果表明,以实测浓度计,250 g·L~(-1)嘧菌酯悬浮剂对斑马鱼的96 h半数致死浓度(LC50)值为0.539 mg·L~(-1),急性毒性为高毒,95%嘧菌酯原药和50%嘧菌酯水分散粒剂对斑马鱼的LC50(96 h)值分别为1.09和1.21 mg·L~(-1),急性毒性均为中毒;98%啶氧菌酯原药和22.5%的啶氧菌酯悬浮剂对斑马鱼的LC50(96 h)值分别为0.0974和0.0972 mg·L~(-1),急性毒性均为剧毒;95%吡唑醚菌酯原药、15%吡唑醚菌酯悬浮剂和250 g·L~(-1)吡唑醚菌酯乳油对斑马鱼的LC50(96 h)值为0.0613、0.0549和0.0487 mg·L~(-1),急性毒性均为剧毒;95%醚菌酯原药和50%醚菌酯水分散粒剂对斑马鱼的LC50(96 h)值分别为0.468和0.702 mg·L~(-1),急性毒性均为高毒。这4种甲氧基丙烯酸酯类杀菌剂对斑马鱼均有较高风险,会对其他水生生物也存在潜在的风险。