微生物电解池耦合厌氧消化过程中产甲烷代谢通量与微生物的关系  被引量：4

作　　者：刘洪周 杨思霞 王楠 刘海波 李建昌[1] LIU Hongzhou;YANG Sixia;WANG Nan;LIU Haibo;LI Jianchang(School of Energy and Environmental Science,Yunnan Normal University,Kunming 650500,Yunnan,China)

机构地区：[1]云南师范大学能源与环境科学学院,云南昆明650500

出　　处：《生物工程学报》2022年第5期1889-1902,共14页Chinese Journal of Biotechnology

基　　金：国家自然科学基金(21968038)。

摘　　要：为探究微生物电解池耦合厌氧消化(MEC-AD)产甲烷代谢通量与微生物的关系。实验以电压为扰动因子,采用代谢通量分析(MFA)的方法,得到微生物群落与产甲烷通量的响应关系。结果表明:电压扰动后产甲烷通量和产氢通量均发生显著变化,而电压扰动对产乙酸通量的影响较小,其中0.6 V扰动时产甲烷通量最大为0.522±0.051,较对照组1.0 V的0.295±0.013和1.4 V的0.395±0.029分别提高了77%和32%。另外,平均有15.7%±2.9%的H_(2)(通量)用于还原CO_(2)产甲烷和乙酸,平均有27.7%±6.9%的乙酸(通量)转化为CH_(4)。毛螺旋菌(Lachnospiraceae)的丰度对乙酸通量有显著影响,产CH_(4)通量与理研菌属(Petrimonas)、互营单胞菌属(Syntrophomonas)、拟杆菌属(Blvii28)、假单胞菌属(Acinetobacter)的丰度呈正相关,与梭菌属(Tuzzerella)、球形螺旋菌属(Sphaerochaeta)的丰度呈负相关。而影响产H2通量和产CH_(4)通量的物种具有相似性,多为拟杆菌、梭菌、假单胞菌和厚壁菌。此外,物种种间互作关系也是影响MEC-AD产甲烷通量的重要因素。In this study,voltage was used as a disturbance factor to investigate the relationship between microbial community and methane(CH_(4))production flux in a microbial electrolytic cell coupled anaerobic digestion(MEC-AD).Metabolic flux analysis(MFA)was used to explore the relationship between the CH_(4) metabolic flux produced and the microbes.The results showed that both methane production flux and hydrogen production flux changed significantly upon voltage disturbance,while the voltage disturbance had little effect on acetic acid production flux.The maximum CH_(4) production flux under 0.6 V disturbance was 0.522±0.051,which increased by 77% and 32%,respectively,compared with that of the control group under 1.0 V(0.295±0.013)and under 1.4 V(0.395±0.029).In addition,an average of 15.7%±2.9% of H_(2)(flux)was used to reduce CO_(2) to produce CH_(4) and acetic acid,and an average of 27.7%±6.9% of acetic acid(flux)was converted to CH_(4).Moreover,the abundance of Lachnospiraceae significantly affected the flux of acetic acid.The flux of CH_(4) production is positively correlated with the abundances of Petrimonas,Syntrophomonas,Blvii28,and Acinetobacter,and negatively correlated with the abundances of Tuzzerella and Sphaerochaeta.The species that affected the flux of H_(2) and CH_(4) were similar,mostly belonging to Bacteroides,Clostridium,Pseudomonas and Firmicutes.Furthermore,the interspecies interaction is also an important factor affecting the MEC-AD methanogenesis flux.

关 键 词：电解电压 代谢通量分析 微生物电解池 甲烷 代谢网络 

分 类 号：X172[环境科学与工程—环境科学]