References
Ambrus A, Visi E, Zakar F, Hargitai E, Szabo L, Papa A (1981) General method for determination of pesticide residues in samples of plant origin, soil and water III, Gas chromatographic analysis and confirmation J Assoc Off Anal Chem 64: 747–768
Ambrus A (1984) Gas — Liquid Chromatography: Principles for selection of column packings and carrier gas parameters In: Ambrus and Green halgh R (eds) Pesticide Residue Analysis Proceedings of a Joint FAO/WHO course pp 120–149.
Barik S (1984) Metabolism of insecticides by microorganisms In: Lal R (ed) Insecticide Microbiology Springer-Verlag New York pp. 87–130.
Benson BW, Scott WJ, Belies RP (1961) Sevin: Safety evaluation by teratological study in the mouse. Unpublished results a report to Union Carbide Corporation Ltd (cited from Toxicol Appl Pharmacol (1971) 21: 390–404
Bollag JM, Liu SY (1971) Degradation of sevin by soil microorganisms Soil Biol Biochem 3: 337–345
Bollag JM, Liu SY (1972a) Hydroxylations of carbaryl by soil fungi. Nature 236: 177–178
Boush GM, Matsumura F (1967) Insecticidal degradation byPseudomonas melophthora, the bacterial symbiote of the apple maggot. J Econ Entomol 60: 918–920
Carpenter CP, Weil CS, Palm PE, Wobdside MD, Nair JH, Smyth Jr HF (1961) Mammalian toxicity of 1-naphthyl-N-methyl carbamate (Sevin insecticide) Agr Food Chem 9: 30–39
Dikshith TSS, Gupta PK, Gaur JS, Datta KK, Mathur AK (1976) Ninety day toxicity of carbaryl in male rats. Environ Res 12: 161–170
Dikshith TSS, Raizada RB (1983) Response of carbon tetrachloride pretreated rats to endosulfan, carbaryl and phosphamdion. Industrial Health 21: 263–271
Gupta BN, Rastogi SK, Chandra H, Mathur AK, Mathur N, Mahendra PN, Pangtey BS, Kumar S, Kumar P, Seth RK, Dwivedi RS, Ray PK (1988) Effect of exposure to toxic gas on the population of Bhopal.Part I-Epidemiological, clinical, radiological and behavioural studies. Indian J Exp Biol 26: 149–160
Matsumura F (1985) Effects of pesticides on wild life In: Matsumura F (ed) Toxicology of Insecticides, Plennum Press New York, pp.437–487.
Misra UK, Nag D, Nath P, Khan WA, Gupta BN, Ray PK (1988) A clinical study of toxic gas poisoning in Bhopal, India. Indian J Exp Biol 26: 201–204
Osman MA, Belai MH (1980) Persistence of carbaryl in Canal water J Environ Sci Health B15: 307–311
Rastogi SK, Gupta BN, Hussain T, Kumar A, Chandra S, Ray PK (1988) Effect of exposure to toxic gas on the population of Bhopal Part II-Respiratory impairment Indian J Exp Biol 26: 161–164
Robens JF (1969) Teratologic study of carbaryl, diazinon, nourea,disulfiram, and thiram in small laboratory animals. Toxicol Appl Pharmacol 15: 152–163
Rodriguez LD, Dorough HW (1977) Degradation of carbaryl by soil microorganisms. Arch Environ Contam Toxicol 6: 47–56
Saxena AK, Singh KP, Nagle SI, Gupta BN, Ray PK, Srivastava RK, Tiwari SP, Singh R (1988) Effect of exposure to toxic gas on the population of Bhopal Part IV Immunological and chromosomal studies Indian J Exp Biol 26: 173–176
Sikka HC, Miyazaki S, Lynch RS (1975) Degradation of carbaryl and 1-naphthol by marine microorganisms. Bull Environ Contam Toxicol 13: 666–672
Srivastava RC, Gupta BN, Athar M, Behari JR, Dwivedi RS, Hasan SK, Bharti RS, Singh A, Misra M, Ray PK (1988) Effect of exposure to toxic gas on the population of Bhopal Part III Assessment of toxic manifestation in humans — haematological and biochemical studies. Indian J Exp Biol 26: 165–172
Sud RK, Sud AK, Gupta KC (1972) Degradation of sevin (1-naphthyl N-methyl carbamate) byAchromobacter sp. Arch Microbiol 87: 353–358
Szeto SY, MacCarthy HR, Oloffs PC, Shepherd RF (1979) The fate of acephate and carbaryl in pond water. J Environ Sci Health B14: 635–654.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Dikshith, T.S.S., Kumar, S.N., Raizada, R.B. et al. Residues of 1-naphthol in soil and water samples in and around Bhopal, India. Bull. Environ. Contam. Toxicol. 44, 87–91 (1990). https://doi.org/10.1007/BF01702366
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF01702366