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1.
五氟磺草胺作为苗后除草剂被广泛应用于水稻田中杂草的防除,其对水生植物、陆生植物和土壤微生物群落可能存在潜在风险,因此,对五氟磺草胺在水土环境中的转化规律与归趋开展定量研究,已受到学者们的关注。本文对五氟磺草胺在稻田水土环境中的吸附、降解以及对周围环境影响方面的研究进展进行了综述、归纳和分析。指出目前对五氟磺草胺在土壤中吸附的研究报道较少,尚未见有关其在水土环境中运移方面的研究,同时应加强其对水土环境风险评估的研究。 相似文献
2.
Cinosulfuron is a sulfonylurea herbicide largely used in the extensive cultures of flooded rice in North Italy. The degradation of cinosulfuron has been investigated in sterile aqueous solutions at 30 degrees C at different pH values. It was rapidly degraded at acidic pH (half-lives 3, 9 and 43 days at pH 4, 5 and 6, respectively) while the half-life was > 1 year at pH 7 and 9. Two degradation products formed by cleavage of the sulfonylurea bridge were identified by LC-MS. Degradation by selected mixed microbial cultures tested in aerobic and anaerobic conditions was very slow and attributable to chemical hydrolysis due to the acidic pH of the cultural broths. Degradation took place in freshly collected rice field water treated for two years with cinosulfuron but, in this case also, chemical hydrolysis prevailed over microbial degradation. In contrast, in flooded sediment simulating the paddy field environment, the dissipation rate of cinosulfuron was higher than expected from chemical hydrolysis according to the pH of the system, indicating the involvement of soil microflora. Although the herbicide exhibited a reduced affinity for the sediment surfaces demonstrated by the low value of the K(f) Freundlich coefficient (0.87 on a micromolar basis), the rapid dissipation observed in the simulated paddy field should prevent its leaching to ground water. 相似文献
3.
五氟磺草胺在稻田中的消解动态及残留特性 总被引:3,自引:3,他引:0
建立了超高效液相色谱-质谱联用检测五氟磺草胺在水稻植株、稻田土壤、田水和糙米中残留的分析方法,结合田间试验研究了五氟磺草胺在稻田环境中的消解及残留特性,并对稻米中五氟磺草胺残留的膳食暴露进行了初步评估。结果表明:在0.005~0.5 mg/L范围内,五氟磺草胺的质量浓度与对应的峰面积间呈良好线性关系,检出限(LOD)为0.001~0.002 mg/kg,定量限(LOQ)为0.003~0.005 mg/kg。在0.005~0.5 mg/kg添加水平下,五氟磺草胺在水稻植株、稻田土壤、田水和糙米中的平均回收率在89%~106%之间,相对标准偏差在2.8%~8.5%之间。浙江、福建和黑龙江2年3地的田间试验表明:0.025%五氟磺草胺颗粒剂在水稻植株、稻田土壤和田水中的消解半衰期分别为1.5~3.3,3.0~4.7和1.6-3.0 d,说明该药剂在稻田环境中消解速率较快。以五氟磺草胺有效成分含量37.5和56.3 g/hm2分别施药1次,于水稻成熟期采样检测,发现其在糙米中的残留量低于0.005 mg/kg,表明其膳食摄入风险很低,该研究结果可为五氟磺草胺风险评估提供一定参考。 相似文献
4.
The persistence of tralkoxydim herbicide in wheat crop and in soil was evaluated under Indian sub-tropical field conditions at two application rates (400 g a.i ha ?1 and 800 g a.i ha ?1). At 400 g a.i ha ?1, tralkoxydim persisted up to 28 days in soil but became non-detectable only after 45 days in the crop. However, at 800 g a.i ha ?1, tralkoxydim residues persisted for 45 days in both soil and crop. The dissipation of the herbicide from both soil and crop appeared to occur in two phases at both rates of application. Each phase followed first-order kinetics. The values of DT50 and DT90 for both soil and crop are reported. 相似文献
5.
THAI KHANH PHONG HIROZUMI WATANABE TAKU NISHIMURA KOKI TOYODA TAKASHI MOTOBAYASHI 《Weed Biology and Management》2008,8(4):243-249
Eight small‐scale lysimeters with different excess water storage depths (EWSDs) were used to investigate the behavior of two herbicides, simetryn and thiobencarb, under paddy conditions. The concentration of simetryn dissipated similarly in all the lysimeters, while the thiobencarb concentration varied significantly because thiobencarb can adsorb onto the dissolved organic matter in a manure slurry, which was applied to six of the lysimeters. The herbicide losses (the percentage of the applied mass) from the lysimeters were reversely proportional with the EWSD. The correlation was stronger for simetryn than for thiobencarb. An appropriate EWSD is required to effectively prevent herbicide run‐off from the paddy field, especially when a rainfall event occurs soon after herbicide application. 相似文献
6.
Subhasish K Chakraborty Anjan Bhattacharya Ashim Chowdhury 《Pest management science》1999,55(9):943-948
Residual fate and behaviour of the herbicide oxadiazon in Kalyani soil, paddy straw and grain were studied under subtropical conditions, in West Bengal following application @ 1 kg and 2 kg ha−1. Dissipation of oxadiazon in soil followed first-order kinetics and DT50 values ranged from 44 to 45 days. Residues at harvest in paddy grains and straw were also studied. Degradation of oxadiazon after 60 days of incubation at 28(± 1) °C in alluvial soil at water holding capacity yielded 10 metabolites of which four were characterised by spectroscopy. © 1999 Society of Chemical Industry 相似文献
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8.
BACKGROUND: Pyrazosulfuron ethyl, a new rice herbicide belonging to the sulfonylurea group, has recently been registered in India for weed control in rice crops. Many field experiments revealed the bioefficacy of this herbicide; however, no information is available on the persistence of this herbicide in paddy soil under Indian tropical conditions. Therefore, a field experiment was undertaken to investigate the fate of pyrazosulfuron ethyl in soil and water of rice fields. Persistence studies were also carried out under laboratory conditions in sterile and non‐sterile soil to evaluate the microbial contribution to degradation. RESULTS: High‐performance liquid chromatography (HPLC) of pyrazosulfuron ethyl gave a single sharp peak at 3.41 min. The instrument detection limit (IDL) for pyrazosulfuron ethyl by HPLC was 0.1 µg mL?1, with a sensitivity of 2 ng. The estimated method detection limit (EMDL) was 0.001 µg mL?1 and 0.002 µg g?1 for water and soil respectively. Two applications at an interval of 10 days gave good weed control. The herbicide residues dissipated faster in water than in soil. In the present study, with a field‐soil pH of 8.2 and an organic matter content of 0.5%, the pyrazosulfuron ethyl residues dissipated with a half‐life of 5.4 and 0.9 days in soil and water respectively. Dissipation followed first‐order kinetics. Under laboratory conditions, degradation of pyrazosulfuron ethyl was faster in non‐sterile soil (t1/2 = 9.7 days) than in sterile soil (t1/2 = 16.9 days). CONCLUSION: Pyrazosulfuron ethyl is a short‐lived molecule, and it dissipated rapidly in field soil and water. The faster degradation of pyrazosulfuron in non‐sterile soil than in sterile soil indicated microbial degradation of this herbicide. Copyright © 2012 Society of Chemical Industry 相似文献
9.
Kathleen H. Bowmer 《Pest management science》1987,18(1):1-13
When dalapon and TCA are used for the management of aquatic weeds in irrigation distribution systems, they are often applied to established stands of Typha spp. and Phragmites australis in autumn or early winter, after draining water from the system. It has been assumed that the herbicides would dissipate from the sediments within 6 weeks, so that water supplies could be safely restored. In field experiments the decay of dalapon and TCA in sediments followed the classical pattern for a microbially mediated process, with a slow lag-phase, followed by a rapid phase of decline, but not to completion. Particularly for TCA, there was a final slow phase in which residues were sufficient to contaminate eluting water at concentrations much greater than the legally prescribed tolerance, even when the interval between herbicide treatment and water re-supply was more than 6 weeks. Although the overall pattern of dissipation in the sediment was similar for the two herbicides, concentrations of TCA were higher than those of dalapon in the elution water, probably reflecting differences in herbicide mobility and elution efficiency. Dye tracers were used in three field experiments to investigate the efficiency of herbicide elution and carryover of contaminated water when canals were filled to capacity, drained and refilled. Together with the rate of dissipation from sediments, canal topography and draining efficiency determined the safety of the elution process in removing surplus residues before re-supply of water for irrigation. In large-scale management operations, where the dissipation interval was only 17-19 days, the TCA was eluted from the sediment into flowing water in proportion to the square root of time, giving average concentrations over 3 days of discharge of more than 0.4gm?3. Ideally, the interval between spraying and water re-supply should be extended beyond 6 weeks. Alternatively, herbicide use should be restricted, or provision made for elution of surplus residues and disposal of contaminated water to waste, or onto tolerant crops or fallow land. 相似文献
10.
Molinate, a selective herbicide, is used for the control of annual and perennial weeds in rice paddy fields. This study was designed to assess the basis of the selective action of molinate between a susceptible broadleaf crop, tobacco, and a resistant graminaceous plant, rice. Experiments were conducted comparing plant growth under different concentrations of molinate, determining the absorption and translocation of the herbicide in the plant and identifying the metabolites in suspension cells. Rice showed greater tolerance to molinate than tobacco. Leaves of tobacco showed retarded and distorted growth at 10 mg liter-1 of molinate 14 days after treatment, but rice leaves were unaffected at this concentration. Higher concentrations of molinate accumulating in the root of tobacco seedlings may inhibit root development and represent a significant factor in the herbicide's selective action. Seven and eight metabolites were found in tobacco and rice cells, respectively, with molinate sulfoxide and molinate sulfone present in both species. © 1998 SCI 相似文献
11.
Behaviour of bentazon as influenced by water and tillage management in rice‐growing conditions 
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下载免费PDF全文 Antonio López‐Piñeiro David Peña Ángel Albarrán Javier Sánchez‐Llerena José Manuel Rato‐Nunes María Ángeles Rozas 《Pest management science》2017,73(6):1067-1075
Bentazon is a widely used herbicide in rice agroecosystems that has commonly been found in water resources. To assess how tillage and water regimes affect sorption/desorption, dissipation and leaching of bentazon in Mediterranean rice‐growing conditions, field experiments were carried out using tillage and flooding (TF), tillage and sprinkler irrigation (TS), no‐tillage and sprinkler irrigation (NTS) and long‐term no‐tillage and sprinkler irrigation (NTS7). After 3 years, the Kd values in TS were 2.3, 1.6 and 1.7 times lower than the values in NTS7, NTS and TF respectively. Greater sorption of bentazon was related to higher contents in total organic carbon and, although to a lesser extent, in humic acids and dissolved organic carbon. The persistence of bentazon was significantly greater under anaerobic (half‐life DT50 = 94.1–135 days) than under aerobic (DT50 = 42.4–91.3 days) incubation conditions for all management regimes. Leaching losses of bentazon were reduced from 78 and 74% in TS and TF to 61 and 62% in NTS7 and NTS respectively. The mid‐ and long‐term implementation of sprinkler irrigation in combination with no‐tillage could be considered a management system that is effective at reducing water contamination by bentazon in Mediterranean rice‐growing agroecosystems. © 2017 Society of Chemical Industry 相似文献
12.
吡氟酰草胺属于类胡萝卜素生物合成抑制剂类除草剂,为明确其与乙酰乳酸合成酶抑制剂类除草剂五氟磺草胺复配的联合作用及复配剂对水稻移栽田杂草的田间防效,采用温室盆栽法,评价了二者复配后的除草活性及联合作用类型,并通过田间小区试验评价了复配制剂对水稻田杂草的防效和对水稻的安全性。温室盆栽试验结果表明:五氟磺草胺与吡氟酰草胺复配后对稗、马唐、异型莎草及鳢肠的活性均表现为相加作用,二者复配的合适配比 (质量比) 范围为 (1~2) : (5~10)。田间小区试验结果表明,于水稻移栽后8 d茎叶喷雾处理,300 g/L五氟磺草胺 ? 吡氟酰草胺 (1 : 5) 悬浮剂对水稻生长安全,且对水稻田稗、异型莎草、耳叶水苋及丁香蓼有良好的防效:在有效成分用量112.5~135.0 g/hm2剂量下,药后35 d,复配悬浮剂对上述杂草的总草株防效和总草鲜重防效分别为93.8%~95.8%和94.1%~96.1%,尤其是显著提高了对较难防除型杂草耳叶水苋及丁香蓼的防效,整体防效显著高于对照两个单剂处理及当地常规用药22%苄嘧磺隆 ? 乙草胺可湿性粉剂处理。五氟磺草胺与吡氟酰草胺复配能够在扩大杀草谱的同时提高防效,且对水稻安全,可用于水稻移栽田防除多种一年生杂草。 相似文献
13.
The use of persistent herbicides has increased the potential for contamination of soil, soil water and groundwater. The mobility, dissipation and fate of four herbicides, norflurazon, oxadiazon, oxyfluorfen and trifluralin, used in South Australian viticulture, have been studied in a typical sand‐over‐clay vineyard soil. Following herbicide application at field rates to plots up‐slope of miniature lysimeters, surface soil and soil water were sampled regularly over the period of annual rainfall. The concentration of each herbicide in the soil cores, surface soil and soil water was determined by GLC‐NPD following solid‐phase concentration procedures where necessary. Oxadiazon dissipated more quickly than the other three herbicides in the soil. Norflurazon was the most mobile of these herbicides in this soil. However all four herbicides were found in the soil water within the first year, though only norflurazon was found in the soil water in the subsequent year. Norflurazon moved laterally to a greater extent than the other herbicides. © 2000 Society of Chemical Industry 相似文献
14.
This study was conducted to evaluate the cross‐resistance of acetolactate synthase (ALS) inhibitors with different chemistries, specifically azimsulfuron (sulfonylurea), penoxsulam (triazolopyrimidine sulfonanilide) and bispyribac‐sodium (pyrimidinyl thio benzoate), in Echinochloa oryzicola and Echinochloa crus‐galli that had been collected in South Korea and to investigate their herbicide resistance mechanism. Both Echinochloa spp. showed cross‐resistance to the ALS inhibitors belonging to the above three different chemistries. In a whole plant assay with herbicides alone, the resistant/susceptible ratios for azimsulfuron, penoxsulam and bispyribac‐sodium were 12.6, 28.1 and 1.9 in E. oryzicola and 21.1, 13.7 and 1.8 in E. crus‐galli, respectively. An in vitro ALS enzyme assay with herbicides showed that the I 50‐values of the resistant accessions were approximately two‐to‐three times higher than the susceptible accessions, with no statistical difference, suggesting that the difference in ALS sensitivity cannot explain ALS inhibitor resistance in Echinochloa spp. for azimsulfuron, penoxsulam and bispyribac‐sodium. A whole plant assay with fenitrothion showed that the GR 50‐values significantly decreased in both the resistant E. oryzicola and E. crus‐galli accessions when azimsulfuron, penoxsulam and bispyribac‐sodium were applied with the P450 inhibitor, while no significant decrease was observed in the susceptible accessions when the P450 inhibitor was used. Thus, these results suggest that ALS inhibitor cross‐resistance for azimsulfuron, penoxsulam and bispyribac‐sodium is related to enhanced herbicide metabolism. 相似文献
15.
Effect of recent cropping history and herbicide use on the degradation rates of isoproturon in soils
Five soil samples were taken from each of five fields with different crop management histories. Three of the fields were in an arable rotation, the fourth field was temporary grassland, and the final field was under permanent grass. Of the three arable fields, two had been cropped with winter wheat in three of the preceding 6 years, and the third had last been cropped with winter wheat once only, 6 years previously. With one exception, the winter wheat had been sprayed with the herbicide isoproturon. The rate of isoproturon degradation in laboratory incubations was strongly related to the previous management practices. In the five soils from the field that had been treated most regularly with isoproturon in recent years, <2.5% of the initial dose remained after 14 days, indicating considerable enhancement of degradation. In the soils from the field with two applications of the herbicide in the past 6 years, residues after 27 days varied from 5% to 37% of the amount applied. In soils from the other three sites, residue levels were less variable, and were inversely related to microbial biomass. In studies with selected soils from the field that had received three applications of isoproturon in the previous 6 years, kinetics of degradation were not first‐order but were indicative of microbial adaptation, and the average time to 50% loss of the herbicide (DT50) was 7.5 days. In selected soils from the field that had received just one application of isoproturon, degradation followed first‐order kinetics, indicative of cometabolism. Pre‐incubation of isoproturon in soil from the five fields led to significant enhancement of degradation only in the samples from the two fields that had a recent history of isoproturon application. 相似文献
16.
为明确广东省水稻田杂草稗Echinochloa crus-galli对五氟磺草胺的抗性现状及其可能的抗性机理,采用整株剂量反应法测定不同地区稗种群对五氟磺草胺的抗性水平,对不同稗种群的乙酰乳酸合成酶(acetolactate synthase,ALS)基因片段进行扩增测序,分析细胞色素P450酶(cytochrome P450 monooxygenase,P450)和谷胱甘肽-S-转移酶(glutathione-S-transferase,GST)抑制剂胡椒基丁醚(piperonylbutoxide,PBO)和4-氯-7-硝基-2,1,3-苯并氧杂噁二唑(4-chloro-7-nitro-1,2,3-benzoxadiazole,NBD-Cl)对不同稗种群抗性水平的影响,并对替代药剂进行筛选。结果显示,广东省水稻田多数稗种群对五氟磺草胺仍表现敏感,但采自湛江市的1个种群BC-7对五氟磺草胺产生了抗性,抗性倍数达6.5倍。与敏感种群BC-2相比,BC-7种群并未发生已报道的ALS靶标抗性相关突变。PBO和NBD-Cl均可显著提高BC-7种群对五氟磺草胺的敏感性,其干重抑制中量GR50由31.1 g/hm2分别降为11.0 g/hm2和24.7 g/hm2。BC-7种群对氰氟草酯和噁唑酰草胺仍较敏感,但对二氯喹啉酸和双草醚产生了抗性。表明P450和GST介导的代谢抗性是稗BC-7种群产生抗性的重要原因,氰氟草酯和噁唑酰草胺适用于治理该抗性种群。 相似文献
17.
Du Pont Information Service 《国际虫害防治杂志》2013,59(3):304-307
Abstract In Hamoul in the Nile Delta, where barnyard grass was the prevalent weed, two field trials of 12 herbicides were carried out in transplanted rice (cultivar; G12a 170). In the 1972 season granular herbicides were shown to be significantly superior to liquid formulations. In 1973 an improved technique was investigated, broadcasting herbicide/gypsum mixture by hand onto flood water. This type of application was successfully extended to some 7,000 feddans during the 1973 and 1974 seasons with the use of molinate/gypsum mixture. All herbicidal applications seemed significantly superior to hand-weeding once. Among all the tested herbicides, molinate was found to be the most beneficial, since it increased the rice grain yield by 62.5% and 108.0% over one hand-weeding and the control respectively. 相似文献
18.
Kanth M. S. Sundaram Alam Sundaram Johanna Curry Linda Sloane 《Pest management science》1997,51(1):74-90
Five commercial formulations of azadirachtin-A (AZ-A) Margosan-O®, Azatin-EC®, Neem-EC®, RH-9999 and Neemix® 4.5, were investigated for their volatilization and washoff potential in laboratory studies. Prior to the investigation, RH-9999 (a wettable powder) was mixed with water to provide an end-use formulation containing 35·6 g AZ-A kg-1, while the remaining four formulations were investigated without dilution. Volatilization and washoff of AZ-A occurred more from white spruce foliage than from wax-coated glass plates. Neem-EC provided the lowest amount of loss, whereas Margosan-O provided the highest. Physical properties and atomization behaviour of the five formulations indicated that Azatin-EC was highly viscous and caused phase separation in droplets collected on glass plates after atomization in a rotary atomizer. RH-9999, despite its low viscosity, caused phase separation in droplets because of the heterogeneity of the wettable powder formulation. Based on the minimum loss of AZ-A due to volatilization and washoff from spruce foliage, and on the minimum potential for phase separation in droplets after atomization in a rotary atomizer, Neem-EC was considered to be the most appropriate choice for use in field studies to investigate environmental persistence and fate of AZ-A in terrestrial and aquatic matrices of a forest ecosystem. The Neem-EC formulation was sprayed at 40 and 80 g AI ha-1 over single spruce trees and on litter and soil plots selected in a mixed-wood boreal forest in Ontario, Canada. In addition, outdoor aquaria containing stream water and sediment were also fortified with the formulation at 400 and 800 g AI ha-1. Persistence of AZ-A was evaluated using one-year-old spruce needles, current-year shoots, spruce bark, litter, soil, stream water and sediment. The duration of persistence varied from 3 to 6 days in terrestrial matrices, whereas it ranged from 8 to 13 days in water, and 2 to 3 days in sediment. The half-life (DT50) values ranged from 10·7 h (for soil) to 71·6 h (for spruce bark) at the lower dosage rate, and from 18·8 h (for litter) to 76·2 h (for bark) at the higher dosage rate. The DT50 value for stream water was about 35 h regardless of the dosage rate applied. The data indicated that AZ-A was appreciably labile and short-lived in different forestry matrices, with low DT50 values. © 1997 SCI 相似文献
19.
为探讨不同地区稗草种群对五氟磺草胺的敏感水平,采用室内整株生测法测定五氟磺草胺对不同稗草种群的生物活性以及对不同稗草种群叶绿素含量、光合特性、叶绿素荧光参数和Rubisco活性的影响。结果表明,五氟磺草胺影响稗草Rubisco活性、最大光化学效率以及光合速率等生理指标,但不同稗草种群的变化略有差异。其中五氟磺草胺处理后4 d对安徽潜山稗草种群生理指标影响较大,五氟磺草胺3.75~60.00 g a.i./hm~2处理剂量下稗草Rubisco活性较相同种群空白对照显著降低24.45%~61.09%,15.00~60.00 g a.i./hm~2剂量下,稗草叶片净光合速率较对照显著降低30.04%~58.56%,60.00 g a.i./hm~2剂量下,稗草叶绿素含量和最大光化合效率分别较对照显著降低13.10~28.82%和6.64%~11.29%,而湖北武汉稗草种群叶绿素含量、叶绿素荧光参数以及Rubisco活性无显著变化,只是叶片净光合速率较相同种群空白对照显著降低18.82%~28.49%。整株生物活性测定结果表明,五氟磺草胺处理21 d后安徽潜山稗草地上部鲜质量ED90值最低,为14.936 g a.i./hm~2,而湖北武汉稗草的ED90值最高,为201.679 g a.i./hm~2,显著超过了五氟磺草胺生产使用的推荐剂量。可见湖北武汉稗草种群对五氟磺草胺敏感性明显低于其他地区稗草种群,生产中需要密切注意其抗药性水平的发展变化,及时调整化学防除策略。 相似文献
20.
Thirty separate soil samples were taken from different locations at the Brimstone farm experimental site, Oxfordshire, UK. Incubations of isoproturon under standard conditions (15 °C; ?33 kPa soil water potential) indicated considerable variation in degradation rate in the soil, with the time to 50% loss (DT50) varying from 6 to 30 days. These differences were confirmed in a second comparative experiment in which degradation rates were assessed in 11 samples of the same soil in two separate laboratories using an identical protocol. There was a significant negative linear relationship (r2= 0.746) between the DT50 values and soil pH in this group of soils. In a third experiment, degradation rates of the related compound chlorotoluron were compared with those of isoproturon in 12 separate soil samples, six of which had been stored for several months, and six of which were freshly collected from the field. Degradation of both herbicides occurred more slowly in the stored samples than in the fresh samples but, in all of them, chlorotoluron degraded more slowly than isoproturon, and there was a highly significant linear relationship (r2=0.916) between the respective DT50 values. 相似文献