四环素类抗生素污染畜禽粪便的厌氧消化特征

应用间歇试验研究了外源添加四环素(TC)和金霉素(CTC)的猪粪中温(35℃)厌氧消化特征及抗生素的降解过程.结果表明,猪粪厌氧水解酸化过程中产生的挥发性脂肪酸以丙酸为主,乙酸次之;相比于CTC添加组,TC+CTC混合添加组对易降解有机物的水解酸化有明显的抑制作用;添加TC、CTC和TC+CTC组在45 d的消化期内累积产甲烷量分别为386.4、406.0和412.1 mL,与不添加TC和CTC的对照组(464.6 mL)相比,分别减少了16.8%、12.6%、11.3%.四环素和金霉素的降解过程符合一级反应动力学方程;四环素降解的半衰期为14～18 d,金霉素为10 d.经过45 d厌氧消化处理后,四环素的降解率达88.6%～91.6%,金霉素达97.7%～98.2%.因此,畜禽粪便厌氧消化处理不仅能回收生物质能源,还能降解残留的四环素类抗生素,有效地降低抗生素污染产生的生态风险.

Anaerobic Digestion of Animal Manure Contaminated by Tetracyclines

Anaerobic digestion of pig manure spiked with tetracycline (TC) and chlortetracycline (CTC) and the degradation of the two antibiotics during the anaerobic digestion at 35 degrees C were investigated. The results indicate that propionate was the main volatile fatty acid produced during the anaerobic digestion followed by acetate. Compared with the CTC addition, TC + CTC addition showed obvious inhibitory effect on the hydrolysis and acidification of easily digestible organic components of pig manure. The cumulative methane production of TC, CTC, TC + CTC and CK2 during anaerobic digestion was 386.4 mL, 406.0 mL, 412.1 mL and 464.6 mL, respectively. Degradation of TC and CTC followed the first-order kinetic equation. The half-life of TC and CTC was 14-18 days and 10 days, respectively. After the treatment of 45-day anaerobic digestion, the degradation efficiency of TC was 88.6%-91.6% with 97.7%-98.2% of CTC. Therefore, anaerobic digestion shows the benefit on the management of animal manures contaminated by tetracyclines.