Cu对猪粪堆肥过程中堆料性质和氧化还原类酶活性的影响

Effect of heavy metal Cu on compost materials property and oxidoreductase activity during pig waste composting

  • 摘要: 以猪粪和秸秆为主要试验材料, 添加不同浓度重金属Cu, 采取发酵罐处理方法, 在好氧高温条件下研究了重金属Cu对猪粪堆肥过程中多酚氧化酶、脱氢酶活性的变化, 以及堆腐过程堆体温度、堆料pH、胡敏酸E4/E6值变化的影响。结果表明: 不添加外源重金属Cu的CK处理在降温期堆温高于Cu含量为100 mg·kg-1、500 mg·kg-1的堆料; CK堆料pH最低点为5.94, E4/E6平均值为3.88。Cu含量为500 mg·kg-1的堆料pH最高点为8.85, E4/E6平均值为3.68。Cu含量为100 mg·kg-1的堆料升温快, 高温期持续时间长, 最高温度高于CK和Cu含量为500 mg·kg-1的堆料, 能有效杀灭病原微生物, 达到无害化处理要求; 堆料pH控制在7~8之间, E4/E6大多情况低于CK和Cu含量为500 mg·kg-1的堆料, 多酚氧化酶平均活性、脱氢酶平均活性均最高, 但在脱氢酶活性测定中表现出“抗性酶活性现象”。

     

    Abstract: Changes in polyphenoloxidase and dehydrogenase activities, temperatures, pH and E4/E6 ratio of humic acids during aerobic fermentation and thermophilic aerobic state of compost materials during pig waste composting were determined in this study. The aim of the study was to lay the fundamental groundwork for learning biological behaviors during composting of heavy metal Cu-treated compost. Pig manure and straw were used as experimental compost materials in three treatments — low content (100 mg·kg-1) heavy metal Cu treatment (A1), high content (500 mg·kg-1) heavy metal Cu treatment (A2) and non-heavy metal Cu treatment (CK). The results showed that temperature was higher in CK than in A1 and A2 treatments during compost cooling phase. The lowest pH and average E4/E6 of CK were 5.94 and 3.88. The highest pH and average E4/E6 were 8.85 and 3.68 for A2 in the study. Temperature rise was fastest in A1, with higher temperatures and longer high temperature duration than in the other treatments. This effectively destroyed pathogens and reached harmless conditions at the end of the composting experiment. Under A1 treatment, pH was 7~8 and E4/E6 was for most of the time lower than in CK and A2. Polyphenoloxidase and dehydrogenase activities in A1 were the highest. However, dehydrogenase activity occurred concurrently with other processes that resisted enzyme activity.

     

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