Keywords: Acute Disease
Keywords: Cholinesterases -- blood
Keywords: Cholinesterases
Keywords: Organophosphate Poisoning
Keywords: Humans
Keywords: Index Medicus
Keywords: Retrospective Studies
Keywords: Prognosis
Keywords: Aged
Keywords: APACHE
Keywords: Aged, 80 and over
Keywords: Adult
Keywords: EC 3.1.1.8
Keywords: Middle Aged
Keywords: Poisoning -- mortality
Keywords: Adolescent
Keywords: Male
Keywords: Female eng. Date completed - 2010-01-05. Date created - 2009-12-01. Date revised - 2013-05-31. SuppNotes - Cites: Lancet. 1977 Jan 1;1(8001):38-9[63670]; Cites: Crit Care Med. 1992 Nov;20(11):1538-43[1424696]; Cites: Crit Care Med. 1985 Oct;13(10):818-29[3928249]; Cites: Chest. 1994 Dec;106(6):1811-4[7988206]; Cites: Vet Hum Toxicol. 1997 Apr;39(2):84-5[9080632]; Cites: J Korean Med Sci. 2004 Apr;19(2):186-94[15082889]; Cites: Lancet. 2005 Oct 22-28;366(9495):1452-9[16243090]; Cites: QJM. 2008 May;101(5):371-9[18319295]; Cites: Artif Organs. 1979 Nov;3(4):341-5[533424]; Cites: Arch Toxicol. 1976 Jun 8;35(3):221-7[822806]; Cites: Ann R Coll Surg Engl. 1989 Nov;71(6):344-6[2604339]; Cites: S Afr Med J. 1987 Nov 7;72(9):593-7[3686293]; Cites: Ann Intern Med. 1968 Apr;68(4):875-82[5642969]; Cites: Nihon Eiseigaku Zasshi. 1993 Dec;48(5):955-65[8107298]; Cites: Intensive Care Med. 2001 Apr;27(4):694-9[11398695]; Cites: J Toxicol Clin Toxicol. 2002;40(7):903-10[12507060]; Cites: J Toxicol Clin Toxicol. 2004;42(4):343-7[15461241]; Cites: J Intensive Care Med. 2005 Nov-Dec;20(6):346-50[16280408]; Cites: Hum Exp Toxicol. 2007 Jul;26(7):573-8[17884960]. Last updated - 2013-05-31. DOI - MEDL-19949736; 19949736; PMC2784981; 1226-3303
344. Kao, H. L.; Liu, M. Y., and Sun, C. N. Green Rice Leafhopper Resistance to Malathion, Methyl Parathion, Carbaryl, Permethrin, and Fenvalerate in Taiwan. 1981; 6, 19-(ABS).
Rec #: 1390
Keywords: ABSTRACT
Call Number: NO ABSTRACT (CBL,FNV,MLN,MP,PMR)
Notes: Chemical of Concern: CBL,FNV,MLN,MP,PMR
345. Karami-Mohajeri, S. and Abdollahi, M. Toxic Influence of Organophosphate, Carbamate, and Organochlorine Pesticides on Cellular Metabolism of Lipids, Proteins, and Carbohydrates: A Systematic Review. 2011; 30, (9): 1119-1140.
Rec #: 1540
Keywords: REFS CHECKED,REVIEW
Call Number: NO REFS CHECKED (ACP,AMZ,CBF,CBL,CPY,DDVP,DMT,DZ,ES,FNT,MDT,MLN,MP,PRT), NO REVIEW (ACP,AMZ,CBF,CBL,CPY,DDVP,DMT,DZ,ES,FNT,MDT,MLN,MP,PRT)
Notes: Chemical of Concern: ACP,AMZ,AND,CBF,CBL,CPY,DDE,DDT,DDVP,DMT,DXN,DZ,ES,FNT,FNTH,MDT,MLN,MP,PRT,TCDD
346. Karaouzas, I.; Lambropoulou, D. A.; Skoulikidis, N. T., and Albanis, T. A. Levels, sources and spatiotemporal variation of nutrients and micropollutants in small streams of a Mediterranean River basin. 2011; 13, 3064-3074.
Rec #: 14040
Keywords: FATE
Notes: Chemical of Concern: MLN
Abstract: Abstract: In this study, nutrients, trace metals and priority pesticide compounds were investigated for the first time in water and sediment samples in streams of the Evrotas River basin (S.E. Greece) from 2006 to 2008. The most important sources of contamination were from the entry of pesticides and nutrients into surface waters and sediments as a result of the intensive agricultural activity as well as from the uncontrolled disposal of olive mill and citrus processing wastewaters. Aquatic risk assessment revealed that all insecticides detected showed high risk, suggesting adverse effects on the stream biota. Among the metals analyzed, Cr, Ni and Ba presented the highest concentrations in sediments, however, due to natural geological processes. Multivariate statistical techniques applied for data compression, exploration and interpretation proved to be useful tools for identifying the most critical pollutants affecting the surface water quality. The findings of this study suggest that the inclusion of streams with small catchment areas into WFD monitoring and assessment programs is essential, especially those of the Mediterranean region.
Number of Volumes: 11
ISI Document Delivery No.: 854XJ ://CCC:000297527800011
347. Karyab, Hamid; Mahvi, Amir Hossein; Nazmara, Shahrokh; Bahojb, Akram, and Karyab, Hamid. Determination of Water Sources Contamination to Diazinon and Malathion and Spatial Pollution Patterns in Qazvin, Iran. 2013 Jan; 90, (1): 126-131.
Rec #: 2420
Keywords: SURVEY
Notes: Chemical of Concern: MLN
Abstract: Abstract: A questionnaire study and field visit showed that diazinon and malathion were the most commonly used pesticides in Qazvin province, Iran. Concentrations of these pesticides were determined in water sources; include springs, wells and Shahrood River. Springs water samples had the best water quality; but deep wells were the most polluted water samples. Diazinon was detected in 46.6 % of the samples, while malathion occurrences frequency was in 13.3 % of the samples. Diazinon and malathion were detected in maximum concentration of 19.44 and 18.12 mu g L super(-1) , respectively. The obtained results showed that diazinon was detected in higher than life-time health advisories in wells and in Shahrood River samples; so, it can bring up threats to human health. Interpolation of diazinon and malathion in water sources showed that diazinon had the most widely scattering condition in deep wells. Also, cross validation with the root mean square error (RMSE) indicated that the natural neighbor interpolation of malathion has the minimum RMSE.
Keywords: Iran
Keywords: Contamination
Keywords: Water sampling
Keywords: Springs
Keywords: Ecological distribution
Keywords: Health & Safety Science Abstracts; Environment Abstracts; Water Resources Abstracts; Aqualine Abstracts; ASFA 3: Aquatic Pollution & Environmental Quality; Pollution Abstracts; Toxicology Abstracts
Keywords: Environmental health
Keywords: Deep Wells
Keywords: Q5 01502:Methods and instruments
Keywords: Water quality
Keywords: Malathion
Keywords: Public health
Keywords: Agricultural Chemicals
Keywords: H 5000:Pesticides
Keywords: Water springs
Keywords: X 24330:Agrochemicals
Keywords: Pollution
Keywords: Toxicology
Keywords: Rivers
Keywords: Inventories
Keywords: SW 5040:Data acquisition
Keywords: P 2000:FRESHWATER POLLUTION
Keywords: Water Quality
Keywords: AQ 00008:Effects of Pollution
Keywords: Water pollution
Keywords: ENA 02:Toxicology & Environmental Safety
Keywords: Pesticides
Keywords: Water wells
Keywords: Diazinon English. Date revised - 2013-02-01. Number of references - 24. Last updated - 2013-05-17. DOI - 8092dc83-92d9-4bab-a1afmfgefd108; 17668454; CS1325066; 0007-4861; 1432-0800. SubjectsTermNotLitGenreText - Contamination; Ecological distribution; Pesticides; Water quality; Toxicology; Water pollution; Public health; Rivers; Inventories; Water springs; Diazinon; Pollution; Malathion; Water sampling; Environmental health; Water wells; Agricultural Chemicals; Springs; Water Quality; Deep Wells; Iran. Banks, Kenneth E.; Hunter, David H.; Wachal, David J. Diazinon in surface waters before and after a federally-mandated ban. Science of the Total Environment, 350. 1-3 (2005): 86-93. Elsevier. Bazrafshan, E; Mahvi, A H; Nasseri, S; Mesdaghinia, A R; et al. Removal of cadmium from industrial effluents by electrocoagulation process using iron electrodes. Iranian Journal of Environmental Health Science & Engineering, 3. 4 (2006): 261-266. Fadaei, Abdolmajid; Dehghani, Mohammad Hadi; Nasseri, Simin; Mahvi, Amir Hossein; et al. Organophosphorous Pesticides in Surface Water of Iran. BULLETIN OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY, 88. 6 (2012): 867-869. SPRINGER. Goncalves, C; Alpendurada, M F. Assessment of pesticide contamination in soil samples from an intensive horticulture area, using ultrasonic extraction and gas chromatography-mass spectrometry. TALANTA, 65. 5 (2005): 1179-1189. ELSEVIER SCIENCE BV. Kalender, Yusuf; Uzunhisarcikli, Meltem; Ogutcu, Ayse; Acikgoz, Fatma; et al. Effects of diazinon on pseudocholinesterase activity and haematological indices in rats: The protective role of Vitamin E. ENVIRONMENTAL TOXICOLOGY AND PHARMACOLOGY, 22. 1 (2006): 46-51. ELSEVIER SCIENCE BV. Kampire, Edwige; Kiremire, Bernard T.; Nyanzi, Steven A.; Kishimba, Michael. Organochlorine pesticide in fresh and pasteurized cow's milk from Kampala markets. Chemosphere, 84. 7 (2011): 923-927. Elsevier Ltd. Karpouzas, Dimitrios G.; Singh, Brajesh K. Microbial degradation of organophosphorus xenobiotics: Metabolic pathways and molecular basis. ADVANCES IN MICROBIAL PHYSIOLOGY, VOL 51, 51. (2006): 119-185. ACADEMIC PRESS LTD. Kawahara, Junko; Yoshinaga, Jun; Yanagisawa, Yukio. Dietary exposure to organophosphorus pesticides for young children in Tokyo and neighboring area. Science of the Total Environment, 378. 3 (2007): 263-268. Elsevier. Lasram, Mohamed Montassar; Annabi, Alya Berrahal; Rezg, Raja; Elj, Naziha; et al. Effect of short-time malathion administration on glucose homeostasis in Wistar rat. PESTICIDE BIOCHEMISTRY AND PHYSIOLOGY, 92. 3 (2008): 114-119. ACADEMIC PRESS INC ELSEVIER SCIENCE. Leong, Kok Hoong; Benjamin Tan, L.L.; Mustafa, Ali Mohd. Contamination levels of selected organochlorine and organophosphate pesticides in the Selangor River, Malaysia between 2002 and 2003. Chemosphere, 66. 6 (2007): 1153-1159. Elsevier Ltd. Lv, Jungang; Shi, Rongguang; Cai, Yanming; Liu, Yong; et al. Assessment of 20 Organochlorine Pesticides (OCPs) Pollution in Suburban Soil in Tianjin, China. BULLETIN OF ENVIRONMENTAL CONTAMINATION AND TOXICOLOGY, 85. 2 (2010): 137-141. SPRINGER. Mahvi, Amir Hossein; Maleki, Afshin; Alimohamadi, Mahmood; Ghasri, Azar. Photo-oxidation of phenol in aqueous solution: Toxicity of intermediates. KOREAN JOURNAL OF CHEMICAL ENGINEERING, 24. 1 (2007): 79-82. KOREAN INST CHEM ENGINEERS. Martinez, R C; Gonzalo, E R; Laespada, E F; San Roman, FJS. Evaluation of surface- and ground-water pollution due to herbicides in agricultural areas of Zamora and Salamanca (Spain) JOURNAL OF CHROMATOGRAPHY A, 869. 1-2 (2000): 471-480. ELSEVIER SCIENCE BV. Merwade, Venkatesh M.; Maidment, David R.; Goff, John A. Anisotropic considerations while interpolating river channel bathymetry. Journal of Hydrology, 331. 3-4 (2006): 731-741. Elsevier. Messing, Paul G.; Farenhorst, Annemieke; McQueen, D.A. Ross; Thompson, Laura L.; et al. Predicting wetland contamination from atmospheric deposition measurements of pesticides in the Canadian Prairie Pothole region. Atmospheric Environment, 45. 39 (2011): 7227-7234. Elsevier Ltd. Rivest, M.; Marcotte, D.; Pasquier, P. Sparse data integration for the interpolation of concentration measurements using kriging in natural coordinates. Journal of Hydrology, 416-417. (2012): 72-82. Elsevier. Saleh, Abolfazl; Yamini, Yadollah; Faraji, Mohammad; Rezaee, Mohammad; et al. Ultrasound-assisted emulsification microextraction method based on applying low density organic solvents followed by gas chromatography analysis for the determination of polycyclic aromatic hydrocarbons in water samples. Journal of Chromatography A, 1216. 39 (2009): 6673-6679. Elsevier. Su, Yi-Song; Jen, Jen-Fon. Determination of organophosphorous pesticides in water using in-syringe ultrasound-assisted emulsification and gas chromatography with electron-capture detection. Journal of Chromatography A, 1217. 31 (2010): 5043-5049. Elsevier Science, P.O. Box 211 Amsterdam 1000 AE Netherlands. Triantafilis, J.; Odeh, I.O.A.; Ahmed, M.F.; Warr, B. Mapping of salinity risk in the lower Namoi valley using non-linear kriging methods. Agricultural Water Management, 69. 3 (2004): 203-231. Elsevier. Tse, Hung; Comba, Michael; Alaee, Mehran. Method for the determination of organophosphate insecticides in water, sediment and biota. Chemosphere, 54. 1 (2004): 41-47. Elsevier Ltd. U.S. EPA (2002) Drinking water standards and health advisories, 2002 Edition, Washington, DC, U.S. Environmental Protection Agency - Office of Water. USEPA (2011) Drinking water standards and health advisories. Available from: http://www.epa.gov/waterscience/criteria/drinking/dwstandards.pdf . Accessed June 2012. Varca, Leonila M. Pesticide residues in surface waters of Pagsanjan-Lumban catchment of Laguna de Bay, Philippines. Agricultural Water Management, 106. Sp. Iss. SI (2012): 35-41. WHO (2011) Guidelines for drinking-water quality, 4th edn. Available from: http://www.who.org/. Accessed sept 2012. WHO (2011) Guidelines for drinking-water quality, 4th edn. Available from: http://www.who.org/ . Accessed sept 2012. Xie, Yunfeng; Chen, Tong-Bin; Lei, Mei; Yang, Jun; et al. Spatial distribution of soil heavy metal pollution estimated by different interpolation methods: Accuracy and uncertainty analysis. Chemosphere, 82. 3 (2011): 468-476. Elsevier Ltd
348. Kaushik, Geetanjali; Satya, Santosh, and Naik, S. N. Food processing a tool to pesticide residue dissipation Çô A review. 2009 Jan; 42, (1): 26-40.
Rec #: 910
Keywords: REVIEW
Notes: Chemical of Concern: MLN
Abstract: Food safety is an area of growing worldwide concern on account of its direct bearing on human health. The presence of harmful pesticide residues in food has caused a great concern among the consumers. Hence, world over to tackle food safety issues, organic farming is being propagated. However, due to several reasons, diffusion and acceptance of this approach in developing countries has been very slow. Therefore, it is important in the transient phase that some pragmatic solution should be developed to tackle this situation of food safety. Food processing treatments such as washing, peeling, canning or cooking lead to a significant reduction of pesticide residues. In this background this paper reviews the common food processing operations along with the degree of residue removal in each process. The processes reviewed include: baking, bread making, dairy product manufacture, drying, thermal processing, fermentation, freezing, infusion, juicing, malting, milling, parboiling, peeling, peeling and cooking, storage, storage and milling, washing, washing and cooking, washing and drying, washing and peeling, washing peeling and juicing and wine making. Extensive literature review demonstrates that in most cases processing leads to large reductions in residue levels in the prepared food, particularly through washing, peeling and cooking operations. Pesticide residue/ Transient/ Processing/ Review/ Dissipation http://www.sciencedirect.com/science/article/pii/S0963996908001907
349. Kawai, S. and Nakayama, A. Effects of Organotins on the Drug Metabolizing Enzymes in Fish. 2009; 14, 235-249.
Rec #: 180
Keywords: REFS CHECKED,REVIEW
Call Number: NO REFS CHECKED (AMSV,CBL,Cu,DU,ES,MLN,NAPH,PAHs,PQT), NO REVIEW (AMSV,CBL,Cu,DU,ES,MLN,NAPH,PAHs,PQT)
Notes: Chemical of Concern: 3CE,ACD,AMSV,BAP,CBL,CHD,Cu,DDT,DLD,DU,EN,ES,HCCH,HPT,MLN,MRX,NAPH,PCB,PPCP,PQT,TXP
350. Keith, J. O. and Flickinger, E. L. Effects of Malathion on the Abundance and Food Habits of Songbirds. 1964: 46-(Publ As 2187).
Rec #: 660
Keywords: PUBL AS
Call Number: NO PUBL AS (MLN)
Notes: Chemical of Concern: MLN
351. Keplinger, M. L. and Deichmann, W. B. Acute Toxicity of Combinations of Pesticides. 1967; 10, (3): 586-595.
Rec #: 960
Keywords: MIXTURE
Call Number: NO MIXTURE (CBL,DZ,MLN)
Notes: Chemical of Concern: AND,CBL,CHD,DDT,DLD,DZ,EPRN,MLN,MXC,PRN,TXP
352. Khaled, E.; Hassan, H. N.; Mohamed, G. G.; Ragab, F. A., and Seleim, A. E. Disposable Potentiometric Sensors for Monitoring Cholinesterase Activity.
Rec #: 9360
Keywords: CHEM METHODS
Notes: Chemical of Concern: MLN
Abstract: ABSTRACT: A highly sensitive disposable screen-printed butyrylcholine (BuCh) potentiometric sensor, based on heptakis (2,3,6-tri-o-methyl)-β-cyclodextrin (β-CD) as ionophore, was developed for butyrylcholinesterase (BuChE) activity monitoring. The proposed sensors have been characterized and optimized according to the constituents of homemade printing carbon ink including β-CD, anionic sites, and plasticizer. The fabricated sensor showed Nernstian responses from 10(-6) to 10(-2)mol L(-1) with detection limit of 8 × 10(-7)mol L(-1), fast response time (1.6s) and adequate shelf-life (6 months). Improved selectivity towards BuCh with minimal interference from choline (Ch) was achieved and the sensor was used for determination of 0.06-1.25 U mL(-1) BuChE. The developed disposable sensors have been successfully applied for real-time intoxication monitoring through assaying cholinesterases (ChEs) activity in human serum. Determination of organophosphate pesticide was conducted by measuring their inhibition of BuChE with successful assaying of malathion in insecticide samples with high accuracy and precision.
MESH HEADINGS: *Biosensing Techniques
MESH HEADINGS: Butyrylcholinesterase/*analysis/blood
MESH HEADINGS: Calibration
MESH HEADINGS: Carbon/chemistry
MESH HEADINGS: Choline/analogs &
MESH HEADINGS: derivatives/analysis
MESH HEADINGS: Cholinesterases/*analysis/blood
MESH HEADINGS: Electrodes
MESH HEADINGS: Humans
MESH HEADINGS: Hydrogen-Ion Concentration
MESH HEADINGS: Ionophores
MESH HEADINGS: Malathion/analysis
MESH HEADINGS: Organophosphates/chemistry
MESH HEADINGS: Pesticides/pharmacology
MESH HEADINGS: Potentiometry/*methods
MESH HEADINGS: Reproducibility of Results
MESH HEADINGS: beta-Cyclodextrins/analysis eng
353. Khan, M. A. Q. Elimination of Pesticides by Aquatic Animals. 1977: 107-125.
Rec #: 1130
Keywords: REFS CHECKED,REVIEW
Call Number: NO REFS CHECKED (24D,24DXY,AZ,As,CPY,DQT,DQTBr,DZ,MLN,SZ), NO REVIEW (24D,24DXY,AZ,As,CPY,DQT,DQTBr,DZ,MLN,SZ)
Notes: Chemical of Concern: 24D,24DXY,AZ,As,AsO4Na,CHD,CPY,DDT,DLD,DQT,DQTBr,DZ,EDT,EPRN,HCCH,HPT,MLN,MXC,PPCP,PRN,SZ
354. Khodarahmpour, Z; Hamidi, J, and Khodarahmpour, Z. Study of Yield and Yield Components of Corn (Zea Mays L.) Inbred Lines to Drought Stress. 2012 Feb 14; 11, (13): 3099-3105.
Rec #: 2800
Keywords: FATE
Notes: Chemical of Concern: MLN
Abstract: Abstract: Several strains of bacteria were successfully isolated from effluent storage pools of factories producing pesticides and from soil moisture around them. The isolates were capable of utilizing chlorpyrifos (Cp) as the sole source of carbon, phosphorus and energy. Isolates were identified based on 16SrRNA sequence analysis and were named IRLM.1, IRLM.2, IRLM.3, IRLM.4, and IRLM.5. IRLM.1 was able to grow at concentrations of chlorpyrifos up to 2000 mg/L and was selected as a preferable isolate for further analysis. The amount of the degraded Cp and the amount of metabolite 3,5,6-trichloropyridinol (TCP) produced were assessed in IRLM.1 by using high performance liquid chromatography (HPLC) techniques. Additionally, the location of the chlorpyrifos-degrading enzyme was determined by comparing the activity of intact bacteria to cytoplasm activity. Our study reveals that Cp-degrading enzyme of IRLM.1 is cytoplasmic and 10 mu l cytoplasm isolated from 0.05 g dry-weight bacteria can degrade 50% of 2 mM Cp in 2 min. Furthermore, the HPLC analysis showed accumulation of TCP in the medium, revealing that IRLM.1 was able to degrade Cp without being affected by the antimicrobial activity of TCP. Moreover, results show that the IRLM.1 isolate could grow and utilize diazinon and malathion as the sole source of carbon, phosphorus and energy. Thus IRLM.1 can successfully participate in efficient degradation of organophosphorus compounds (OPs).
Keywords: High-performance liquid chromatography
Keywords: Antimicrobial activity
Keywords: Organophosphorus compounds
Keywords: Phosphorus
Keywords: Stress
Keywords: Enzymes
Keywords: Metabolites
Keywords: Effluents
Keywords: Malathion
Keywords: Chlorpyrifos
Keywords: Carbon
Keywords: Zea mays
Keywords: Cytoplasm
Keywords: Energy
Keywords: Pesticides
Keywords: Biotechnology and Bioengineering Abstracts
Keywords: W 30915:Pharmaceuticals & Vaccines
Keywords: Inbreeding
Keywords: Soil moisture
Keywords: Diazinon
Keywords: Droughts English. Date revised - 2012-06-01. Last updated - 2013-03-11. DOI - MD-0018775909; 16778186; 1684-5315. SubjectsTermNotLitGenreText - High-performance liquid chromatography; Antimicrobial activity; Organophosphorus compounds; Phosphorus; Enzymes; Stress; Metabolites; Effluents; Malathion; Chlorpyrifos; Carbon; Energy; Cytoplasm; Pesticides; Inbreeding; Soil moisture; Diazinon; Droughts; Zea mays
355. Kim, Jun-Ran; Ahn, Young-Joon, and Ahn, Young-Joon. Identification and Characterization of Chlorpyrifos-Methyl and 3,5,6-Trichloro-2-Pyridinol Degrading Burkholderia Sp. Strain Kr100. 2009 Jul; 20, (4): 487-497.
Rec #: 4820
Keywords: BACTERIA
Notes: Chemical of Concern: MLN
Abstract: Abstract: A chlorpyrifos-methyl (CM) degrading bacterium (designated strain KR100) was isolated from a Korean rice paddy soil and was further tested for its sensitivity against eight commercial antibiotics. Based on morphological, biochemical, and molecular characteristics, this bacterium showed greatest similarity to members of the order Burkholderiales and was shown to be most closely related to members of the Burkholderia cepacia group. Strain KR100 hydrolyzed CM to 3,5,6-trichloro-2-pyridinol (TCP) and utilized TCP as the sole source of carbon for its growth. The isolate was also able to degrade chlorpyrifos, dimethoate, fenitrothion, malathion, and monocrotophos at 300 mu g/ml but diazinon, dicrotophos, parathion, and parathion-methyl at 100 mu g/ml. The ability to degrade CM was found to be encoded on a single plasmid of ~50kb, pKR1. Genes encoding resistance to amphotericin B, polymixin B sulfate, and tetracycline were also located on the plasmid. This bacterium merits further study as a potential biological agent for the remediation of soil, water, or crop contaminated with organophosphorus compounds because of its greater biodegradation activity and its broad specificity against a range of organophosphorus insecticides.
Keywords: A 01380:Plant Protection, Fungicides & Seed Treatments
Keywords: Sulfates
Keywords: Q5 01503:Characteristics, behavior and fate
Keywords: Bioremediation
Keywords: Biodegradation
Keywords: Specificity
Keywords: Biochemistry
Keywords: P 5000:LAND POLLUTION
Keywords: monocrotophos
Keywords: EE 30:Soil Pollution: Monitoring, Control & Remediation
Keywords: Antibiotics
Keywords: Burkholderia cepacia
Keywords: Tetracyclines
Keywords: Strain
Keywords: Malathion
Keywords: Crops
Keywords: Environmental Studies
Keywords: J 02410:Animal Diseases
Keywords: Soil
Keywords: Carbon
Keywords: Insecticides
Keywords: Resistance
Keywords: Rice fields
Keywords: SW 3020:Sources and fate of pollution
Keywords: AQ 00002:Water Quality
Keywords: Sensitivity
Keywords: Amphotericin B
Keywords: Microbiology Abstracts B: Bacteriology; Pollution Abstracts; Water Resources Abstracts; Environmental Engineering Abstracts; Aqualine Abstracts; Microbiology Abstracts A: Industrial & Applied Microbiology; ASFA 3: Aquatic Pollution & Environmental Quality
Keywords: Organophosphorus compounds
Keywords: carbon sources
Keywords: Oryza sativa
Keywords: Fenitrothion
Keywords: Strains
Keywords: Plasmids
Keywords: Water pollution
Keywords: Sulfate
Keywords: Chlorpyrifos
Keywords: Pesticides
Keywords: Remediation
Keywords: W 30915:Pharmaceuticals & Vaccines
Keywords: Dimethoate
Keywords: Diazinon
Keywords: dimethoate
Keywords: Pollution control
Keywords: Parathion English. Date revised - 2010-02-01. Last updated - 2011-11-03. DOI - OB-MD-0010935230; 11717657; CS1009301; 0923-9820; 1572-9729. SubjectsTermNotLitGenreText - Insecticides; Biodegradation; Specificity; Pesticides; Antibiotics; Plasmids; Strains; Water pollution; Pollution control; Amphotericin B; Organophosphorus compounds; monocrotophos; Fenitrothion; Tetracyclines; Malathion; Crops; Sulfate; Soil; Chlorpyrifos; Carbon; Rice fields; Dimethoate; Diazinon; Parathion; Sulfates; Sensitivity; Bioremediation; Biochemistry; carbon sources; dimethoate; Resistance; Remediation; Strain; Oryza sativa; Burkholderia cepacia
356. Kingsbury, P. D. A History of the Effects of Aerial Forest Spraying in Canada on Aquatic Fauna. 1976: 43 p.
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