García M T, Campos E, Marsal A, Ribosa I
Surfactant Technology Department, IQAC, CSIC, Jordi Girona 18-26, 08034 Barcelona, Spain.
Water Res. 2009 Feb;43(2):295-302. doi: 10.1016/j.watres.2008.10.016. Epub 2008 Oct 18.
Four types of commonly used sulphonate-based surfactants (alkane sulphonates, alpha-olefin sulphonates, sulphosuccinates and methyl ester sulphonates) were tested for their aerobic and anaerobic biodegradability as well as for their toxicity to Daphnia magna and Photobacterium phosphoreum to assess the effect of the surfactant structure on those properties. Aerobic biodegradation was evaluated by means of the CO2 headspace test and anaerobic biodegradation was assessed by a method based on the ECETOC test. All the surfactants tested were readily biodegraded under aerobic conditions. No clear effect of the surfactant structures on the toxicity to the aquatic organisms tested was found. The most significant differences in the surfactants studied were observed in their behaviour under anaerobic conditions. Alkane sulphonates, alpha-olefin sulphonates and methyl ester sulphonates were not mineralized in lab anaerobic digesters despite the fact that the last one showed a certain degree of primary degradation. Nevertheless, these surfactants did not significantly inhibit methanogenic activity at concentrations up to 15 g surfactant/kg dry sludge, a concentration that is much higher than the expected concentrations of these surfactants in real anaerobic digesters. Sulphosuccinates showed a high level of primary biodegradation in anaerobic conditions. However, linear alkyl sulphosuccinates were completely mineralized whereas branched alkyl sulphosuccinates achieved percentages of ultimate biodegradation < or =50%.
测试了四种常用的磺酸盐类表面活性剂(烷烃磺酸盐、α-烯烃磺酸盐、磺基琥珀酸盐和甲酯磺酸盐)的需氧和厌氧生物降解性以及它们对大型溞和发光菌的毒性,以评估表面活性剂结构对这些特性的影响。需氧生物降解通过二氧化碳顶空试验进行评估,厌氧生物降解通过基于欧洲化学毒物生态毒理学中心(ECETOC)试验的方法进行评估。所有测试的表面活性剂在需氧条件下都易于生物降解。未发现表面活性剂结构对受试水生生物的毒性有明显影响。在所研究的表面活性剂中,最显著的差异体现在它们在厌氧条件下的行为。烷烃磺酸盐、α-烯烃磺酸盐和甲酯磺酸盐在实验室厌氧消化器中未被矿化,尽管最后一种显示出一定程度的初级降解。然而,这些表面活性剂在浓度高达15克表面活性剂/千克干污泥时,并未显著抑制产甲烷活性,该浓度远高于实际厌氧消化器中这些表面活性剂的预期浓度。磺基琥珀酸盐在厌氧条件下显示出较高水平的初级生物降解。然而,直链烷基磺基琥珀酸盐完全被矿化,而支链烷基磺基琥珀酸盐的最终生物降解百分比≤50%。
