1996
DOI: 10.1021/bk-1996-0630.ch019
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Hydroxylated Atrazine Degradation Products in a Small Missouri Stream

Abstract: This research assessed the occurrence of hydroxylated atrazine degradation products (HADPs) in streamwater from Goodwater Creek watershed in the claypan soil region of northeastern Missouri. Streamwater was sampled weekly from June, 1992 to December, 1994 at a V-notch weir used to measure streamflow for this 7250-ha watershed. Filtered water samples were prepared by cation exchange solid-phase extraction and analyzed for hydroxyatrazine (HA), deethylhydroxyatrazine (DEHA), and deisopropylhydroxyatrazine (DIHA)… Show more

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Cited by 18 publications
(28 citation statements)
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“…This may explain the low detection frequency of DEA in this study. The prevalence of HA was also found in other watersheds like Missouri streams, although it is the least mobile degradation product (Lerch et al, 1995(Lerch et al, , 1998. The high winter concentration of HA in the Yangtze River was possibly caused by enhanced direct photolysis of atrazine due to lower water Table S1.…”
Section: Pesticidesmentioning
confidence: 75%
“…This may explain the low detection frequency of DEA in this study. The prevalence of HA was also found in other watersheds like Missouri streams, although it is the least mobile degradation product (Lerch et al, 1995(Lerch et al, , 1998. The high winter concentration of HA in the Yangtze River was possibly caused by enhanced direct photolysis of atrazine due to lower water Table S1.…”
Section: Pesticidesmentioning
confidence: 75%
“…Dentre os poluentes que apresentam maior potencial contaminante ao ambiente destacam-se os herbicidas de longa atividade residual nos solos, podendo-se citar os princípios ativos picloram, tebuthiuron, sulfentazone, imazapyr, imazaquin e trifloxysulfuronsodium, entre os mais problemáticos. Efeitos negativos como a toxicidade a organismos não-alvo (ROUSSEAUX et al, 2003); a lixiviação aos lençóis freáticos GOOLSBY, 1996;BLANCHARD;THRUMAN, 1998;LERCH et al, 1995;THURMAN et al, 1992); o carreamento junto às partículas de argila ou de matéria orgânica, resultando na deposição em cursos hídricos superficiais (BARRA et al, 1999;KRUTZ et al, 2005;PALMA et al, 2004); e a intoxicação em culturas sensíveis semeadas em seqüência na mesma área (carryover) (BRIGHENTI et al, 2002;JAKELAITIS et al, 2006;VILLA et al, 2006), são exemplos que podem ocorrer após a utilização desses insumos químicos. No Brasil, programas de fitorremediação dos herbicidas trifloxysulfuronsodium e tebuthiuron já se encontram em níveis mais avançados (PIRES et al, , 2005bPROCÓPIO et al, 2005aPROCÓPIO et al, , 2005bPROCÓPIO et al, , 2007SANTOS et al, 2004).…”
Section: Introductionunclassified
“…Hydroxyatrazine was detected as a major metabolite at a concentration of 10(±3) µg l -1 , similar to that of the residual atrazine. Previous investigations in aquifers (surface water and watersaturated soil) also found hydroxyatrazine to be the principal product of degradation (Lerch et al, 1995;Mersie et al, 1998). Some authors attribute the formation of hydroxyatrazine to photolytic hydrolysis in surface water (Kolpin and Kalkhoff, 1993).…”
Section: Atrazine and Metabolites In The Sediment Model Systemmentioning
confidence: 96%