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1.
Bruna de Campos Ventura 《Pesticide biochemistry and physiology》2008,90(1):42-51
Atrazine is the triazinic herbicide most found in the rural aquatic environments due to its extensive use and its stability in such places. The mutagenicity and the genotoxicity of different concentrations of the Atrazine herbicide were determinated by the micronucleus test and the comet assay, using Oreochromis niloticus as test-system. The tested concentrations of Atrazine herbicide were 6.25, 12.5 and 25 μg/L, both for the micronuclei test and for the comet assay. The results showed a significant rate of micronuclei and nuclear abnormalities for all the tested concentrations of Atrazine herbicide. For the comet assay, we also observed results significantly different from the control in 6.25, 12.5 and 25 μg/L concentrations. Due to these results, we could infer that such herbicide may be dangerous to the lives of those organisms exposed to it. 相似文献
2.
Inhibition of growth of pith callus of tobacco (Nicotiana tabacum, var. S-73) by the herbicide trifluralin (α,α,α - trifluoro - 2,6 - dinitro - N,N- dipropyl - p - toluidine) was previously observed. Inhibition of cell division in callus tissue of varying age by this herbicide was investigated using the Feulgen reagent and light microscopy. Upon staining and counting the number of cells in each phase of mitosis, a decrease in the number of cells in metaphase, anaphase, and telophase in the treated tissues was found. In addition to this reduction, arrested metaphases and multinucleated cells were observed. Similar results were observed with 10?4M colchicine. The effects of trifluralin on incorporation of 14C-precursors into callus RNA, DNA, and protein were also investigated. Apparent RNA, DNA, and protein synthesis in callus were inhibited by trifluralin (5 × 10?6M) treatment. The inhibition, however, was not expressed until 5–7 days after initiating treatment. Colchicine also affected apparent RNA, DNA, and protein synthesis; however, these effects were different than those observed with trifluralin. Incorporation of 14C-amino acids into protein was most severely inhibited by colchicine. 相似文献
3.
The mode of action of trifluralin (α,α,α-trifluoro-2,6-dinitro-N,N-dipropyl-p-toluidine), oryzalin (3,5-dinitro-N4,N4-dipropylsulfanilamide), pronamide(N-(1,1-dimethylpropynyl) 3,5-dichlorobenzamide), and propham (isopropyl carbanilate) on purified microtubules from pig brains and on the ultrastructure of wheat (Triticum aestivum L. “Mediterranean,” C. I. 5303) and corn (Zea mays L. “yellow dent, U. S. 13”) roots was compared with that known for colchicine. Colchicine disrupts the in vivo cortical and spindle microtubules of root cells. Like colchicine, the herbicides trifluralin, oryzalin, and pronamide caused the loss of both cortical and spindle microtubules of root cells. The rate of microtubule disappearance depended on the type of herbicide and length of exposure of roots to the herbicide. Unlike colchicine, cortical microtubules were present in propham-treated roots but they were disoriented within the cell.In vitro polymerization studies with pig brain microtubules (Sus scrofa) showed that the herbicides failed to inhibit the assembly of purified microtubular protein into microtubules and that radioactively labeled herbicides did not bind to the microtubular protein. Colchicine inhibited the polymerization of microtubular protein and readily bound to the microtubular subunits. These results indicate that the mode of action of the herbicides is not similar to that of colchicine and that the loss of microtubules from root tip cells treated with trifluralin, oryzalin, and pronamide may be caused by these herbicides interfering with synthesis of microtubular protein or metabolism of endoplasmic reticulum membranes involved in microtubule assembly. The mode of action of propham appears to be on the microtubular organizing centers rather than on microtubules per se. 相似文献
4.
Mixed populations of soil microorganisms were enriched in the presence of trifluralin (α,α,α-trifluoro-2,6-dinitro-N,N-dipropyl-p-toluidine) and 180 pure strains were subsequently isolated. About a third were able to liberate 1.5–6% 14CO2 from 0.15 mM [propyl-1-14C]trifluralin after growing for 21 days on a complex medium. One strain, identified as a Candida sp., showed a 14CO2 evolution of 11%. The amount of liberated 14CO2 could not be enhanced by adding small concentrations (<3%) of solvents to the culture, by varying the concentration of trifluralin, or by varying the composition of the complex medium. The Candida sp. was unable to cleave the aromatic ring of trifluralin or to use trifluralin as a sole source of carbon or nitrogen. Only traces (< 1%) of dealkylated trifluralin were accumulated in the culture. 相似文献
5.
Abstract A bacterium designated Tr A and capable of decomposing trifluralin in the presence of glutamate, lactate, acetate and yeast extract was isolated. Optimum pH for growth of this organism was 6.5 in a glutamate medium containing 0.01% trifluralin. Maximum decomposition of the herbicide occurred at pH 7.4 A threshold concentration of 0.05% trifluralin was necessary for the growth of this organism. Ninety-five per cent of the trifluralin was decomposed within 21 days in an 0.01% trifluralin medium, but none was degraded at a concentration of 0.05%. The herbicide remained stable for 10 days in an aqueous solution at different pH levels. 相似文献
6.
Hashim S Jan A Sunohara Y Hachinohe M Ohdan H Matsumoto H 《Pest management science》2012,68(3):422-429
BACKGROUND: Trifluralin‐resistant biotypes of water foxtail (Alopecurus aequalis) have been identified in wheat fields from northern Kyushu, Japan. Water foxtail is a winter‐annual grassy weed, causing substantial crop losses. This study reports on mutation in α‐tubulin (TUA) genes from water foxtail, the site of action of trifluralin. RESULTS: Two trifluralin‐sensitive (S) Chikugo and Ukiha biotypes and four trifluralin‐resistant (R) Asakura‐1, Asakura‐2, Tamana and Tosu biotypes of water foxtail were used for herbicide resistance analysis. R biotypes showed 5.7–30.7‐fold trifluralin resistance compared with the S biotypes. No differences in the uptake and translocation of 14C‐trifluralin were observed between Chikugo (S) biotype and Asakura‐1 (R) biotype. Most of the 14C detected in the plant material was in the root tissue, and no substantial increases were noted in shoot tissues. Comparative TUA sequence analysis revealed two independent single amino acid changes: change of Val into Phe at position 202 in TUA1 and change of Leu into Met at position 125 in TUA3 in Asakura‐1 biotype. In the Tamana (R) biotype, two amino acid changes of Leu to Phe at position 136 and Val to Phe at position 202 were observed in the predicted amino acid sequence of TUA1, compared with Chikugo (S) biotype. CONCLUSION: The results provide preliminary molecular explanation for the resistance of water foxtail to trifluralin, a phenomenon that has arisen as a result of repeated exposure to this class of herbicide. This is the first report of α‐tubulin mutation in water foxtail and for any Alopecurus species reported in the literature. Copyright © 2011 Society of Chemical Industry 相似文献
7.
The effects of selected herbicides have been studied on the following parameters of soil nitrification processes: the rates of nitrate and nitrite formation from ammonia in freshly perfused soils and in soils previously saturated with nitrifying organisms in an improved perfusion apparatus; the rates of oxygen consumption and of oxidation of ammonia and nitrite in washed cell suspensions of Nitrosomonas europaea and Nitrobacter winogradskii, respectively; the rates of growth of those two organisms in newly established cultures; the rates of oxygen uptake by soil enriched in nitrifying organisms; the rates of proliferation of nitrifying populations in freshly perfused soil. ID50 values were computed for all parameters and herbicides studied. On average, the most sensitive parameters were the metabolism and growth of the two organisms in pure culture, while the least sensitive were the corresponding measures in the soil environment. Similarly, herbicides fell into four distinct groups. The most toxic were the formulated octanoates of bromoxynil and ioxynil (NPH1320 and Totril, respectively); next in order of toxicity were chlorbufam, phenmedipham, formulated oxadiazon, formulated legurame, ioxynil, formulated trifluralin, and bromoxynil; low toxicity was shown by terbacil, dicamba, and tricamba, whereas asulam and the related experimental herbicide MB9555 showed activity on some parameters at the very highest concentrations only. Comparisons of soil with pure-culture parameters showed that the relative toxicities of herbicides to Nitrosomonas in culture bore little relationship to those in soil. The inhibitions of Nitrobacter proliferations in soil on the other hand were correlated with the inhibitions of growth and metabolism in pure culture. Within these overall effects, individual herbicides showed marked differential actions on various parameters. Thus, the formulated octanoates of bromoxynil and ioxynil were extremely toxic to the growth of nitrifying organisms in culture, an action probably due to an unknown formulation component. Relative to other herbicides, bromoxynil and ioxynil were more effective on nitrification processes in the soil environment. Both in culture and in the soil, Nitrobacter is more sensitive than Nitrosomonas to these four herbicides. Legurame and oxadiazon are relatively more toxic to Nitrosomonas in culture, but this differential action is not demonstrable in the soil. Dicamba, tricamba, trifluralin, and chlorbufam are more toxic to Nitrobacter than to Nitrosomonas in the soil environment. Formulated trifluralin seems to exert a stimulating action on the growth of nitrifying organisms, but only in the soil; suppression of antagonistic organisms is suggested as a possible cause. Extrapolation of these results to the field situation suggests that the only herbicide which might cause small inhibitions of nitrification at field rates is terbacil, which is disproportionately toxic at low concentrations. At rates somewhat in excess of normal, the formulated octanoates of bromoxynil and ioxynil and possibly dicamba and oxadiazon could also cause small inhibitions. 相似文献
8.
The combined effects of 0, 1 and 2 ppm trifluralin and five soil salinity levels (0.35, 2, 4, 6 and 8 mS/cm) on growth and chemical composition of soybeans [Glycine max (L.) Merr.] were studied in a glasshouse experiment. Analyses of variance indicated that the interaction of soil salinity and trifluralin was not significant for root and top dry weights and root nodulation. Root dry weight was not affected by trifluralin, whereas 2 ppm trifluralin significantly reduced top dry yield and root nodulation. Shoot and root yields and root nodulation were reduced with increasing soil salinity. Trifluralin at 1 ppm significantly decreased P concentration and at 2 ppm substantially increased N concentration. Moreover, there was a general trend of an increase in N concentration and a decrease in P concentration with salinity. The concentration and uptake of Cl and Na increased with increasing soil salinity. Probably large accumulations of Cl and Na and/or water stress caused by high salinity were responsible for growth reductions in salinized media. 相似文献
9.
The effects of piperonyl butoxide on metabolism of 14C-labeled methoxychlor, aldrin, and trifluralin were investigated in green sunfish, Lepomis cyanellus. Piperonyl butoxide inhibited epoxidation of aldrin to dieldrin, O-dealkylation of methoxychlor, and N-dealkylation of trifluralin, resulting in higher levels of total radioactivity in animals exposed to the combination compared to those exposed to pesticide alone. Where piperonyl butoxide was present a greater proportion of the total radioactivity in the fish extract occurred as parent compound compared to metabolites than in fish exposed to pesticide alone. After 16 days of exposure piperonyl butoxide increased the proportion of parent compound eight times for methoxychlor, 17 times for aldrin, and 15 times for trifluralin. 相似文献
10.
F.M. Ashton O.T. de Villiers R.K. Glenn W.B. Duke 《Pesticide biochemistry and physiology》1977,7(2):122-141
Time- and concentration-course studies were conducted to determine the effect of thirteen herbicides on photosynthesis, respiration, RNA synthesis, protein synthesis, and lipid synthesis using isolated single leaf cells. Each herbicide was from a different chemical class. Appropriate 14C-substrates and product purification procedures were used for each process prior to liquid scintillation counting. The most sensitive metabolic site of inhibition was photosynthesis for atrazine, bromacil, dichlobenil, monuron, and paraquat; RNA synthesis for dalapon and dinoseb; protein synthesis for chlorpropham; and lipid synthesis for CDAA, chloramben, 2,4-D, EPTC, and trifluralin. However, with several herbicides, one or more process was almost as sensitive as the one mentioned above. All herbicides inhibited more than one process, and the most sensitive site of inhibition may not be the same process that was inhibited the greatest at the maximum concentration and maximum exposure time used. Therefore, a concept of metabolic sites of action, rather than a primary site of action, appears to be more meaningful for herbicides. 相似文献
11.
N-Benzoyl-N'-(3-methylpyrid-2-yl)thiourea has been shown to inhibit the elongation of linseed roots grown on nutrient agar, 50% inhibition being observed at a concentration of 0.18 μ. Similar effects were observed at higher concentrations on lettuce, ryegrass, cress, tomatoes and mustard. The effects were qualitatively similar to those caused by trifluralin. A structure-activity study of analogues of this pyridyl thiourea indicates that structural requirements for this biological activity are extremely specific. In soil tests, this compound exhibits pre-emergent herbicidal activity with a spectrum of selectivity different from that of trifluralin. 相似文献
12.
M. Madhaiyan S. Poonguzhali V.S. Saravanan 《Pesticide biochemistry and physiology》2006,84(2):143-154
The in vitro study to examine the effect of different pesticides on the growth and survival of Gluconacetobacter diazotrophicus strain PAL5 was carried out. Monocrotophos, Lindane and Dichlorvos had the most lethal actions against Gluconacetobacter grown on LGIP medium, while Endosulphan, Chlorpyriphos, and Malathion effects were intermediate. Herbicides generally appeared to have no adverse effect on the growth and survival of Gluconacetobacter in the medium except for the concentrations exceeding recommended rates. Fungicides, except Ridomil, had a slight effect on the growth of Gluconacetobacter at recommended dose. With the various pesticides used, the cell morphology was affected to a larger extent resulting in larger number of pleomorphic cells. Further their influence on the physiological traits like nitrogenase activity, indole-3-acetic acid, gibberellin A3 production, and phosphate and zinc solubilizing activity are discussed. 相似文献
13.
María Elena Sáenz Walter Darío Di Marzio Jose Luis Alberdi 《Pesticide biochemistry and physiology》2012,104(1):50-57
Aquatic environments of the pampasic region of Argentina are severely affected by agricultural contamination due to an increase in a glyphosate tolerant transgenic variety of soybean crops. The present study is aimed to determine the effects of a commonly used Cyfluthrin commercial formulation (CCF) on growth, some physiological and biochemical parameter of four species of green algae. Significant inhibition of algal growth was observed from 0.1 mg Cyf/l. 96 h IC50 were between 0.92 and 4.85 mg Cyf/l. CCF caused algicidal effects. Photosynthesis was stimulated by 50% in Scenedesmus quadricauda cultures exposed to the lowest concentration (hormesis). Algal photosynthesis inhibition was observed at higher concentrations with IC50 values between 1.7 and 8.9 mg Cyf/l. Similar toxicity endpoints were found as a consequence of applying the traditional methodology of short-term chronic toxicity test of 96 h of exposition and the methodology developed using the Clark type photosynthetic oxygen evolution method. CAT activity was significantly increased between 23% and 33% considering the four species, at a lower concentration than those affecting algal growth and photosynthesis, indicating a potential biomarker. Taking into account that the extent of the soybean crops in the region is about fourteen million hectares, the improvement and extension of environmental tools for early detection of the action of pesticides on this essential group of organisms are discussed. 相似文献
14.
The herbicides trifluralin, oryzalin, ioxynil, dichlofopmethyl, and dinoseb, and the fungicides chloraniformethan and dichlofluanid inhibited energy-dependent Ca2+ uptake in plant mitochondria at concentrations where they did not inhibit ADP phosphorylation and did not interfere with tubulin polymerization. We suggest as a common mechanism of action for these pesticides the inhibition of the regulation of cytoplasmic free Ca2+ concentration which may in turn lead to many physiological malfunctions. 相似文献
15.
Control of johnsongrass (Sorghum halepense (L.) Pers.) in cotton fields was achieved by the combined action of two herbicides: 1.5 kg/ha trifluralin incorporated preplanting prevented emergence of seedlings throughout the cotton growth season and reduced the vigor of rhizomes; and 1.25 kg/ha fluaziflop applied postemergence to the cotton crop selectively inhibited the growth of established rhizomes of the grass and completed the control. Reducing the spray volume for fluazifop from 300 to 200 1/ha resulted in efficient control of johnsongrass with lower rates of the herbicide. 相似文献
16.
Sen Pang Wenyu You Liusheng DuanXiaoyu Song Xuefeng Li Chengju Wang 《Pesticide biochemistry and physiology》2012,103(3):219-223
The oriental tobacco budworm, Helicoverpa assulta, is one of the most destructive pests for numerous commercial crops, and these organisms are responsible for enormous economic losses in Chinese agriculture. Insect larvae often feed within host plant fruits, providing protection from many currently used insecticides and making field control of H. assulta very difficult. Owing to its novel mode of action, high insecticidal activity, and low mammalian toxicity, the nonsystemic insecticide indoxacarb has been considered a promising alternative for the control of lepidopterous pests of agricultural significance. Indoxacarb evidences an elevated insecticidal activity against H. assulta. After 13 generations of selection with indoxacarb and bifenthrin insecticides under laboratory conditions, the LC50 of these compounds for H. assulta increased by 4.19-fold and 10.67-fold, respectively. The synergists diethyl maleate (DEM) and triphenyl phosphate (TPP) increased indoxacarb toxicity by 2.76-fold and 4.10-fold in resistant strains and, comparatively, 1.58-fold and 1.75-fold in susceptible strains, suggesting that carboxylesterase (CarE) and glutathione-S-transferases (GSTs) may be involved in the development of indoxacarb resistance in H. assulta. Activity and kinetic parameters observed in detoxification enzymes further demonstrated that the enhanced activity of CarE and GSTs may be critical in development of indoxacarb resistance in H. assulta. The data provides a foundation for further study of the indoxacarb resistance mechanism observed in H. assulta and the rational use of indoxacarb as a rotation insecticide with other insecticide classes for the control of H. assulta. 相似文献
17.
The effect of trifluralin on the growth, oxygen uptake, and adenosine phosphates level of carrot (Daucus carota L.) callus tissue was determined over a period of 18 days after subculture. The herbicide (10?4 and 10?5M) reduced fresh weight gain significantly; the reduction was less with lower trifluralin concentrations. Dry weight accumulation was not inhibited until after Day 6 of the test period and thereafter was reduced by all concentrations tested. Oxygen consumption was inhibited by trifluralin (10?4 and 10?5M) throughout the test period. Concentrations of 10?6.10?7, and 10?8M produced variable effects. The response profile of O2 consumption in the presence of dinitrophenol was different from that of trifluralin. Analysis of adenosine phosphates level gave no clear response trend. Energy charge values of 0.7 to 0.85 were obtained for untreated tissue. Trifluralin had no effect on energy charge until Day 9 (10?4M) and after Day 15 (all concentrations). 相似文献
18.
Nailah Orr 《Pesticide biochemistry and physiology》2009,95(1):1-5
The ability of spinosyn A to either enhance or displace binding to selected insecticidally-relevant receptors was investigated using a number of radioligands including, [3H]imidacloprid and [3H]ivermectin in tissues from the ventral nerve cord (VNC) membranes of the American cockroach, Periplaneta americana and head membranes from the housefly, Musca domestica. In these insect neural tissues, spinosyn A does not appear to alter the binding of a number of radioligands suggesting that spinosyn A does not interact directly with a variety of known receptors, including nicotinic or γ-aminobutyric acid (GABA)-based insecticidal target sites. However, available data are consistent with spinosyn A interacting with a site distinct from currently known insecticidal target sites, thus supporting a novel insecticidal mechanism of action for the spinosyns. 相似文献
19.
Khyati Srivastava 《Pesticide biochemistry and physiology》2009,93(1):8-12
In the present study cytogenetic effects of atrazine herbicide, were examined on the root meristem cells of Allium cepa and Vicia faba. Test concentrations were chosen by calculating EC50 values of formulated atrazine against both the test systems which determined to be 30 mg l−1 for A. cepa and 35 mg l−1 for V. faba, respectively. For cytogenetic effects root meristem cells of A. cepa were exposed to 15, 30 or 60 mg l−1 whereas V. faba to 17.5, 35 or 70 mg l−1 for 4 or 24 h. Roots exposed for 4 or 24 h, after sampling, were left in water for 24 h recovery and sampled at 24 h post-exposure. A set of onion bulbs or seedlings of V. faba exposed to DMSO (0.3%) was run parallel for negative control. Treatment of atrazine significantly and dose-dependently inhibited the mitotic index (MI) and induced micronucleus formation (MN) chromosome aberrations (CA) and mitotic aberrations (MA) in both the test systems at 4 or 24 h. Root meristem cells examined at 24 h post-exposure also revealed significant (p < 0.001) frequencies of MN, CA or MA despite considerable decline. Chromosome breaks and fragments were found to be major CA whereas C-metaphase, chromosome bridges and laggards were prevalent MA. Results of our study, indicate that atrazine may produce genotoxic effects in plants. Further, both the plant bioassays found to be sensitive indicators for the genotoxicity assessment as the outcome of majority of in vivo/in vitro mammalian tests are comparable. 相似文献
20.
J.P. Seiler 《Pesticide biochemistry and physiology》1979,12(2):183-190
The herbicide monuron (N-(4-chlorophenyl)-N′, N′-dimethylurea)—a recognized carcinogen—and some of its congeners have been found also to induce back mutations in Salmonella typhimurium (Ames test), as well as micronuclei in mouse bone marrow cells and an inhibition of testicular DNA synthesis (DSI test) in mice. As both the Ames test and the DSI test correlate well with chemical carcinogenicity, urea herbicides in general might be suspected of carcinogenic activity. In order to investigate the potential carcinogenic mode of action of these substances we looked for possible activation mechanisms. The reaction sequence N-oxidation-esterification-carbonium ion formation seemed the only one able to fit the observed structure-activity relationships. Chemical synthesis of the proposed N-acetoxy compounds provided the means for testing this hypothesis. Only the N-acetoxy-, but neither the N-hydroxy- nor the unchanged parent ureas, exhibited a direct alkylating action as measured by the NBP-assay. The DSI reactivity pattern of several positional isomers could be shown to coincide with the theoretical predictions, as did the stability of the chloroisomers in aqueous solution at pH 7. Furthermore the N-acetoxy derivatives could be demonstrated to behave in the Ames test as directly acting mutagens, while the activity of the parent compounds is dependent on the metabolic activation by an S-9-liver fraction. The enhancing action of Acetyl-CoA on the S-9 mediated mutagenicity of these ureas can then be regarded as the final proof for the proposed reaction sequence. 相似文献