Department of Zoology, Oklahoma State University, Stillwater, OK 74078, USA.
Environ Pollut. 2011 May;159(5):1363-8. doi: 10.1016/j.envpol.2011.01.007. Epub 2011 Feb 3.
To determine if trinitrotoluene (TNT) forms nonextractable residues in earthworms and to measure the relative degree of accumulation as compared to TNT and its deaminated metabolites, Eisenia fetida was exposed to 14C-TNT using dermal contact to filter paper or exposure to soil. Nonextractable residues made up 32-68% of total body burden depending on exposure media and depuration time. Parent TNT accounted for less than 3% of radioactivity, while ADNTs accounted for 7-38%. Elimination half-lives were 61-120 h for TNT, ADNTs, and DANTs, which was significantly lower than the half-lives found for nonextractable residues, 201-240 h. However, over 80% of the nonextractable residue was solubilized using weak acid (pH 2). Based on our findings that TNT accumulation occurs primarily as nonextractable residues, which have a longer half-life, and that nonextractable residues can be solubilized, we propose that nonextractable residues could be used as a selective biomarker for assessing TNT contamination.
为了确定三硝基甲苯(TNT)是否在蚯蚓体内形成不可提取的残留物质,并测量与 TNT 及其脱氨代谢物相比的相对积累程度,采用皮肤接触滤纸或暴露于土壤的方法,用 14C-TNT 暴露赤子爱胜蚓。不可提取的残留物占总体内负荷的 32-68%,具体取决于暴露介质和净化时间。母体 TNT 占放射性的比例不到 3%,而 ADNTs 占 7-38%。TNT、ADNTs 和 DANTs 的消除半衰期为 61-120 h,明显低于不可提取残留物的半衰期 201-240 h。然而,使用弱酸(pH 2)可溶解超过 80%的不可提取残留物。基于我们的发现,TNT 主要以具有更长半衰期的不可提取残留物的形式积累,并且不可提取的残留物可以被溶解,我们提出不可提取的残留物可以用作评估 TNT 污染的选择性生物标志物。