阿特拉津在土壤中的降解途径及其对持留性的影响

通过田间和实验室试验，研究了除草剂阿特拉津在土壤中的降解代谢规律及其与土壤特性的关系。试验表明，阿特拉津施用后、在作物生长期内可降解９０％以上，土壤酸碱度对阿特拉津在土壤中的代谢有显著影响。在碱性土壤中阿特拉津主要经过微生物代谢而被降解；在酸性土壤中化学水解占优势地位。阿特拉津在强酸性土壤中的持留性（半衰期为６３ｄ）低于弱酸性土壤中的持留性（半衰期为８４ｄ），而在碱性土壤中由于较强的微生物降解作用，其持留性（半衰期为５１ｄ）最低。     

阿特拉津对不同肥力土壤磷酸酶的影响

通过室内恒温培养法，研究除草剂阿特拉津对4种长期定位施肥处理下的土壤的磷酸酶活性的影响。试验结果表明，在阿特拉津质量分数不同和处理时间长短不同的情况下，阿特拉津对土壤磷酸酶的活性既有激活作用又有抑制作用。在试验过程中，4种不同肥力的土壤其磷酸酶活性随着处理时间的延续而呈现出“降低→升高→降低→升高”的消长趋势。不同阿特拉津质量分数对磷酸酶的影响没有规律，同一质量分数处理既有激活作用，也有抑制作用。在4种不同肥力的土壤中，磷酸酶活性最高的是以氮、磷、钾无机肥配合有机肥施用的土壤。     

生物炭对土壤中阿特拉津吸附特征的影响

为探究生物炭对土壤中阿特拉津的吸附特征及影响因素,采用批处理实验研究了灭菌(T1)、5％秸秆生物炭+灭菌(T2)、未灭菌(T3)和5％秸秆生物炭+未灭菌(T4)条件下对土壤中阿特拉津吸附特征及土壤理化性质的影响.结果表明,在最初0-12 h内,不同处理下阿特拉津吸附量均随时间的延长而快速增加,而在12-96 h内增加较...     

Study of atrazine degradation in soil from Kenyan sugarcane-cultivated fields in controlled laboratory conditions

A study to compare the extent of atrazine mineralization in soils from Kenyan sugarcane-cultivated fields with and without history of atrazine use was carried out in the laboratory under controlled conditions. The study was testing the hypothesis that repeated atrazine application to soil will not result in enhanced atrazine mineralization. The study was carried out with ¹⁴C-uniformly ring-labeled atrazine in a laboratory under controlled conditions. Atrazine mineralization to ¹⁴CO₂ in soil with no history of atrazine use was negligible (0.16%) after 163 days of soil incubation. The three metabolites hydroxyatrazine, desisopropylatrazine, and desethylatrazine in the proportion of 17.7%, 1.3%, and 2.6%, respectively, were in the soil after 75 days. In the soil from the sugarcane-cultivated field with history of atrazine use, atrazine mineralization was 89.9% after 98 days. The same soil, amended with mature compost, showed a lag phase of eight days before rapid atrazine mineralization was observed.     

皇竹草对土壤阿特拉津的修复作用

通过盆栽试验探讨了种植皇竹草（Pennisetum hydridum）对阿特拉津污染土壤的修复效果,阿特拉津对皇竹草生长的影响,以及皇竹草对土壤微生物数量的影响,以期为阿特拉津污染土壤的植物修复提供参考。结果表明：在≤200 mg.kg-1质量分数范围以内,种植皇竹草对土壤阿特拉津的初期降解效率比对照明显提高,最大提高了29.64%,达到显著或极显著差异;阿特拉津质量分数在≤200 mg.kg-1范围内对皇竹草株高没有影响,≤50 mg.kg-1质量分数范围内对生物量没有影响,根冠比变化不明显;随阿特拉津质量分数的增加皇竹草根际和非根际土壤中的细菌、真菌、放线菌数量均呈先增加后减少的趋势,在质量分数为100 mg.kg-1时达到最大,根际土壤中细菌和放线菌数量明显高于非根际土壤,真菌数量在根际与非根际土壤中变化不明显。说明种植皇竹草有助于阿特拉津降解效率的提高,且与种植皇竹草后改变了土壤微生物数量及皇竹草的生长状况有关。     

In vitro degradation of the herbicide atrazine by soil and wood decay fungi controlled through Elisa technique

The interaction between atrazine, a triazine herbicide, and a series of decay fungi was characterized in terms of biodegradation of the herbicide and its influence on fungal growth. The following fungi were studied: thermophilic cellulolytic (Penicillium sp. 13) and noncellulolytic (Humicola lanuginosa sp. 5 and 12) strains isolated from self‐heated plant composts, mesophilic diphenol oxidase producing strain Mycelia sterilia INBI 2–26, white‐rot fungi Cerrena maxima, Coriolopsis fulvocinerea and Coriolus hirsutus. Competitive enzyme immunoassay was elaborated for detection of atrazine in cultural liquid. During agar plate cultivation the growth of Humicola sp. 5 was promoted by atrazine whereas the growth of Humicola sp. 12 and Penicillium sp. 13 was suppressed whereas M. sterilia INBI 2–26 was not affected by the herbicide. Neither atrazine‐accelerated nor atrazine‐depressed thermophilic strains decomposed atrazine during 21‐day cultivation according to ELISA data. In contrast, white‐rot fungi Coriolus hirsutus, Coriolopsis fuhocinerea and Cerrena maxima degraded nearly 50% of the herbicide in 5‐day submerged cultivation and 80–92% of the herbicide up to the 40th day. The soil strain M. sterilia INBI 2–26 decomposed 70% of atrazine in 17‐day cultivation. The degradation level depended of the time of atrazine introduction to the growing media. The relationships between the degree of atrazine decomposition and laccase and Mn‐peroxidase production were shown.     

Environmental fate of pesticides used in Australian viticulture V. Behaviour of atrazine in the soils of the south Australian Riverland

The transport of the s‐triazine herbicide, atrazine, through the red, calcareous earth soils of the South Australian Riverland was investigated. Small, undisturbed soil cores were extracted from the inter‐row topsoil of a vineyard adjacent to the River Murray, approximately 10 km south‐west of Overland Corner, South Australia. The vines were grown in a deep (1–4 m) reddish brown, strongly alkaline, sandy loam with a low organic carbon content (<2%). Atrazine concentrations in the leachate were dependent on application rate and soil type. High application rates on subsoil gave high rates of leaching for a longer time compared to the same application rate on topsoil and/or lower application rates on either topsoil or subsoil. Overall, 37–65% of the applied atrazine was detected in the leachate from subsoil cores, 14–25% in topsoil core leachates. Small amounts of atrazine (< 10% of applied dose) were found only in the top 2 cm of the core profiles. The results suggest that this herbicide is somewhat mobile in such strongly alkaline, sandy loam soils and that the irrigated soils of this region are likely to be prone to leaching of atrazine, and therefore that groundwater supplies in this area may be at risk of contamination through use of triazine herbicides.     

Investigation of the effects of humic acid and H 2 O 2 on the photocatalytic degradation of atrazine assisted by microwave

A solution of atrazine in a TiO₂ suspension, an endocrine disruptor in natural water, was tentatively treated by microwave-assisted photocatalytic technique. The effects of mannitol, oxygen, humic acid, and hydrogen dioxide on the photodegradation rate were explored. The results could be deduced as follows: the photocatalytic degradation of atrazine fits the pseudo-first-order kinetic well with k = 0.0328 s⁻¹, and ·OH was identified as the dominant reactant. Photodegradation of atrazine was hindered in the presence of humic acid, and the retardation effect increased as the concentration of humic acid increased. H₂O₂ displayed a significant negative influence on atrazine photocatalysis efficiency. Based on intermediates identified with gas chromatography-mass spectrometry (GC-MS) and Liquid chromatography-mass spectrometry (LC-MS/MS) techniques, the main degradation routes of atrazine are proposed.     

Potential of rice husk ash in atrazine removal

An experimental study was carried out to explore the possibility of using a prepared microporous material, Rice Husk Ash (RHA) as an alternative to the commercial Powdered Activated Carbon (PAC), to remove atrazine (ATZ) pesticide from aqueous solution. The effects of contact time and pH on the adsorption were studied using the batch technique. Based on Hückel model calculations, the zwitterion behaviour of atrazine molecule was proved to be related to the pH of zero charge point of adsorbents (6.8 for RHA and 8.2 for PAC). The results showed that the Pseudo Second Order model is applicable to both adsorbents, suggesting that chemisorption is the rate-limiting step. The equilibrium data fitted well with the Langmuir model in the case of RHA, whereas the Freundlich model better fitted the equilibrium data in the PAC case, suggesting the existence of multi-layer adsorption of atrazine. The adsorption for RHA was found to be feasible and spontaneous, with a removal capacity of atrazine of more than 7?mg?g^?1. With regard to the BET surface, this removal capacity (50.5?µg_ATZ / m²_RHA) was 25% better than that PAC (37.75µg_ATZ / m²_PAC).     

Exposure of ground water to alachlor,atrazine and metolachlor in maize areas of ribatejo and oeste (Portugal)

In irrigated maize areas of an important Portuguese agricultural area, Ribatejo and Oeste Region, alachlor, atrazine and metolachlor were detected in ground water.

During the study performed from 1996 to 1998 atrazine was the herbicide that showed the highest frequency of detection. In the 177 ground water samples collected 62% were contaminated with atrazine, 30% with alachlor and 12% with metolachlor. All these herbicides were detected both in ground water for human consumption and for irrigation, in some cases above 0.1 ug/L. The maximum levels quantified were 13μg/L for alachlor, 30μg/L for atrazine and 56 μg/L for metolachlor.

Seasonal variation of residues in ground water it is also presented through several examples of studies performed during the period 1991–1999.     

人为诱导下中国的土壤退化问题

根据ASSOD人为诱导下土壤退化的概念，结合中国的实际情况，分析了中国土壤侵蚀、荒漠化、盐碱化、贫瘠化、潜育化、土壤污染和土壤生产力丧失等主要土壤退化类型的动态变化，概括了中国人为诱导下土壤退化的特点及研究前景。到目前为止，中国土壤侵蚀的总面积约占全国土地面积的六分之一，主要分布在黄河流域、南方红色土壤丘陵地区和东北地区；土壤荒漠化主要分布在北部和西北部，特别是农牧交错地带，其原因主要包括不当的土地利用方式和沙丘移动占据农地或牧场而使之丧失生产功能；土壤盐碱化主要分布在黄淮海平原、东北平原西部、黄河河套地区、西北内陆地区，其原因主要是由于人为灌溉造成的土壤次生盐碱化所致；由于过度垦殖，土壤因有机质匮乏而导致养分失衡；土壤养分长期的低投入、高支出造成全国范围土壤肥力的下降；土壤潜育化主要分布在东北和四川阿坝地区，冻融造成土壤表层滞水是其主要成因；随着化学农业和城市化对农田的影响，土壤中的有毒物质不断积累，土壤大量被用于非农业，土壤性状、环境发生了显著变化，也对人类健康构成了严重的威胁。     

绿麦隆、阿特拉津单一与复合污染对蚯蚓的毒性效应研究

以赤子爱胜蚓为研究对象,采用滤纸急性毒性实验研究了农药绿麦隆、阿特拉津对蚯蚓的单一和复合毒性效应。单一毒性实验表明,绿麦隆与阿特拉津单独存在时,均对赤子爱胜蚓产生毒性。阿特拉津对蚯蚓的毒性大于绿麦隆,绿麦隆和阿特拉津48h的半致死质量浓度分别为189.64和43.33mg·L-1。复合毒性实验表明,绿麦隆与30mg·L-1和40mg·L-1的阿特拉津复合,其48h的半致死量分别为116.03和48.14mg·L-1。绿麦隆和阿特拉津的复合污染对蚯蚓具有明显的协同作用,而这种协同作用与污染物的质量浓度有关。     

Principal components derived from soil physicochemical data explained a land degradation gradient,and suggested the applicability of new indexes for estimation of soil productivity in the Sakaerat Environmental Research Station,Thailand

To find a principal component (PC) that quantifies the degree of soil degradation, we analyzed various physicochemical characteristics of soils over a land degradation gradient related to aboveground vegetation in the Sakacrat Environmental Research Station (SERS), Thailand. The aboveground vegetative types representing the degradation gradient were bare ground (BG, highly degraded), dry dipterocarp forest (DDF, moderately disturbed) and dry evergreen forest (DEF, the original vegetation). Soils under these vegetative types were sampled in February (dry season). March just after temporal precipitation) and June (rainy season) 2001. Through the period of this research, the degradation was consistently explained by sandy texture, high bulk density, lower pH, high exchangeable acidity, poor mineral and organic nutrients and dryness. Principal component analysis (PCA) was applied to determine significant principal components (PCs) that clarify the differences in soil properties between the vegetative types and between the timing of soil sampling. The PC loadings suggested that the first PC was the component that indicates total fertility of soil in the site, while the fifth PC indicates the dry to wet seasonal transition. The first PC was named the total fertility component (TFC). The linear regression between the TFC score and recently proposed indexes, the soil fertility index (SFI) or the soil evaluation factor (SEF), was highly significant (p < 0.001), indicating that the SFI and the SEF are applicable to measuring total fertility of soils in the SERS.     

氯虫苯甲酰胺在甘蓝和土壤中的残留及消解动态

参照《农药残留试验准则》,采用田间试验方法,研究了济南和杭州两年两地的氯虫苯甲酰胺在甘蓝和土壤中的消解动态和最终残留。结果表明,氯虫苯甲酰胺最终残留在甘蓝、土壤中的质量分数分别是〈0.297 mg.kg-1,〈0.097 mg.kg-1;在甘蓝、土壤中的降解均符合一级动力学方程,降解半衰期分别为7.2～8.9 d和6.9～10.7 d;统计分析表明,两地区甘蓝中的残留消解行为无显著性差异,土壤中的残留消解行为差异性显著,土壤性质的不同是影响消解过程的主要因素。文章为制定该农药在甘蓝上最大残留限量标准和合理使用准则以及风险评估提供了科学依据。     

土壤样品中四溴双酚A和六溴环十二烷的测定

建立了LC-MS/MS法同时测定土壤样品中四溴双酚A(Tetrabromobisphenol A,TBBPA)和六溴环十二烷(Hexabromocyclododecanes,HBCDs)的分析方法.样品经索氏抽提后,采用去活化硅胶柱进行净化.TBBPA、α-HBCD、β-HBCD和γ-HBCD的方法检出限分别为0.0315 ng.g-1、0.767 ng.g-1、0.197 ng.g-1和0.163 ng.g-1,方法加标回收率为59.0%—69.4%,可用于土壤样品中痕量TBBPA和HBCDs的测定.经过严格的质量控制,采用本方法对某郊区土壤样品进行了测定,其TBBPA和HBCDs的含量均在pg.g-1量级.     

不同退化程度喀斯特生态系统根际土壤的养分分布特征

以贵州中部喀斯特地区由乔木林、灌木林和灌草丛等不同退化程度生态系统中的优势物种根际土壤为研究对象,测定其C、N、P全量及有效态质量分数,分析各优势物种根际土壤的养分变化。结果表明：3个生态系统中不同优势物种根际各类土壤养分质量分数变化较大,其中,土壤C、N、P养分为乔木林中园果化香根际土壤质量分数最高,白枥根际养分质量分数最低。可溶性有机碳质量分数为乔木林中最低,其平均水平不超过10 mg·kg-1。土壤磷素的供给能力为乔木林的园果化香和刺秋相对较强,其中园果化香中达到1.5%。而且优势树种间根际土壤有效态养分质量分数的差异明显高于全量养分,说明喀斯特地区根际土壤养分差异性主要受植被因素的影响,土壤有效态养分较全量养分对植被群落演替的响应更为灵敏,而且根际土壤养分质量分数和形态的变化与土壤有机碳质量分数有显著的正相关关系,这进一步说明喀斯特地区植被类型的变化对土壤养分的循环利用具有重要的影响作用。     

联苯菊酯在棉花和土壤中的残留和降解行为研究

为了评价为联苯菊酯在棉花上使用的安全性,于2010—2011年在济南、杭州两地采用田间试验和气相分析方法研究了联苯菊酯在棉叶、棉籽及土壤中的消解动态和最终残留。联苯菊酯在棉叶和土壤中的降解行为均符合一级降解动力学方程,其降解半衰期分别为4.2-6.7、10.6-16.0 d。联苯菊酯在棉籽和土壤中的最终残留质量分数均小于最低检出限0.01 mg.kg-1,低于联苯菊酯在棉花上的最高残留限量（MRL）0.5 mg.kg-1。建议10%联苯菊酯可溶液剂防治棉花蚜虫,用药次数1-2次,使用剂量是9-18 aig.hm-2,在棉花上的安全间隔期14 d。     

高效氯氟氰菊酯在玉米和土壤中的残留及消解动态

研究了济南和哈尔滨两年两地的玉米Zea maysL.经高效氯氟氰菊酯种子处理微囊悬浮剂拌种后,高效氯氟氰菊酯在玉米植株、籽粒和土壤中的最终残留量,以及在玉米植株和土壤中的降解动力学规律。结果表明,高效氯氟氰菊酯最终残留在植株、籽粒和土壤中的质量分数分别是〈0.005mg·kg-1、〈0.001mg·kg-1和≤0.053mg·kg-1;在土壤中的降解符合一级动力学方程,降解半衰期19.6～28.1d,消解速率哈尔滨慢于济南,这可能与土壤含水量和气温等有关。本研究为制定该农药在玉米上最大残留限量标准和合理使用准则以及风险评估提供了科学依据。     

多效唑在番茄和土壤中的残留与降解动态研究

研究了多效唑（paclobutrazol）在番茄（Lycopersicon eseulentum）和土壤中的残留分析方法及残留动态。建立番茄和土壤样品中多效唑残留的固相萃取-高效液相色谱（SPE-HPLC）检测方法,样品用乙腈提取,再用φ（甲醇-二氯甲烷）=5∶95混合溶剂经LC-NH2固相萃取柱净化,以φ（乙腈-水）=55∶45作流动相,Shiseido C18色谱柱（4.6 mm×250 mm,5μm）于222 nm波长检测,外标法定量。在0.1~5.0 mg·L-1范围内,多效唑峰面积与其质量浓度之间呈良好线性关系,相关系数为0.9995。采用田间试验方法,在番茄幼苗期施用不同多效唑质量分数50、100、200、600 mg·kg-1,研究在不同处理时间1、6 h,1、2、3、7、14、21、30、45、60 d,多效唑在番茄以及土壤中的残留动态变化。添加质量分数水平为0.05、0.1、0.5 mg·kg-1时,多效唑在果实、植株和土壤中的添加回收率分别为92.45%~103.70%、94.52%~98.85%和94.30%~102.10%,变异系数分别为3.69%~5.00%、1.58%~4.53%和1.28%~3.35%。结果表明：多效唑在番茄植株和土壤中的降解规律均符合一级动力学方程C=Coe-kt。当施用质量分数为600 mg·kg-1时,其在番茄植株中的残留半衰期为1.66 d,在土壤中的半衰期为2.78 d;在植株中的降解速率大于在土壤中的降解速率。按照推荐使用的施用浓度,采收时多效唑在番茄和土壤中无残留,证明推荐施用浓度是合理的。     

森林土壤退化及其防治研究综述

介绍了土壤退化的概念；从树种生物学特性、人工林植物群落结构和栽培措施方面探讨了森林土壤退化的机理；提出了防治森林土壤退化的对策。文章最后指出，应从多学科的角度深入系统地研究地力衰退的机理，利用遥感、地理信息系统等高新技术手段构建包括计算机模拟模型、林地指南、关键决策系统、专家系统等在内的不同的预测和决策工具，同时加强天然林的进一步研究。