2024年 06期

摘要(Abstract)：

为了探究海水入侵背景下沉积物剖面内微生物群落结构及多样性的垂向变化规律，采集山东省潍坊市莱州湾南岸一眼钻孔深度为200 m的沉积物样品，基于高通量测序方法分析沉积物微生物的16S rRNA基因。结果表明：沉积物全盐量随着深度的增加而逐渐减小，酸碱度随深度的增加而逐渐增大，微生物丰度和α多样性随着深度的增加而降低，变形菌Proteobacteria广泛存在于沉积物中，厚壁菌Firmicutes和拟杆菌Bacteroidete随深度的增加而增加，放线菌Actinobacteria、绿湾菌Chloroflexi、酸杆菌Acidobacteria等随深度的增加而减少；沉积物微生物群落结构的变化特征受多种环境要素共同影响，对微生物群落结构影响最大的是深度和酸碱度，其次是全盐量和总氮。

关键词(KeyWords)： 海(咸)水入侵;水文地质;沉积物;高通量测序;微生物群落

基金项目(Foundation): 国家自然科学基金项目(42202277);; 山东省自然科学基金项目(ZR2022QD024);; 山东省高等学校青创科技支持计划项目(2023KJ318);; 济南市“新高校20条”引进创新团队项目(2021GXRC070);; 济南大学科技计划项目(XBS2202)

作者(Author): 黄宪瑞,支传顺,胡晓农,陈宏帆,陈耿

DOI: 10.13349/j.cnki.jdxbn.20240412.002

参考文献(References)：

[1] 彭子成，韩岳，张巽，等.莱州湾地区10万年以来沉积环境变化[J].地质论评，1992,38(4):360.

[2] 刘森.莱州湾南岸地下咸水演化和咸水入侵过程机制研究[D].武汉：中国地质大学，2018.

[3] EILERS K G,DEBENPORT S,ANDERSON S,et al.Digging deeper to find unique microbial communities:the strong effect of depth on the structure of bacterial and archaeal communities in soil[J].Soil Biology and Biochemistry,2012,50:58.

[4] HAFEEZ F,SPOR A,BREUIL M C,et al.Distribution of bacteria and nitrogen-cycling microbial communities along constructed technosol depth-profiles[J].Journal of Hazardous Materials,2012,231/232:91.

[5] SAGOVA-MARECKOVA M,ZADOROVA T,PENIZEK V,et al.The structure of bacterial communities along two vertical profiles of a deep colluvial soil[J].Soil Biology and Biochemistry,2016,101:68.

[6] 孙梦瑶.潍坊市海(咸)水入侵趋势模拟与特征分析[D].泰安：山东农业大学，2019.

[7] 刘文全，卢芳，于洪军，等.莱州湾南岸重盐渍化区不同土壤盐分离子的分布特征[J].海洋科学进展，2018,36(4):591.

[8] 薛禹群，吴吉春，谢春红，等.莱州湾沿岸海水入侵与咸水入侵研究[J].科学通报，1997(22):2360.

[9] 高茂生，郑懿珉，刘森，等.莱州湾地下卤水形成的古地理条件分析[J].地质论评，2015,61(2):393.

[10] SANG S L,DAI H,HU B X,et al.Distribution characteristics and factors influencing microbial communities in the core soils of a seawater intrusion area in Longkou City,China[J].Hydrogeology Journal,2022,30(6):1833.

[11] YOUNG J M,SKVORTSOV T,KELLEHER B P,et al.Effect of soil horizon stratigraphy on the microbial ecology of alpine paleosols[J].Science of the Total Environment,2019,657:1183.

[12] WU J Q,WANG H Y,LI G,et al.Vegetation degradation impacts soil nutrients and enzyme activities in wet meadow on the Qinghai-Tibet Plateau[J].Scientific Reports,2020,10(1):21271.

[13] GTARI M,GHODHBANE-GTARI F,NOUIOUI I,et al.Phylogenetic perspectives of nitrogen-fixing actinobacteria[J].Archives of Microbiology,2012,194(1):8.

[14] 王红越，于景丽，李千雪，等.锡林河流域不同植被带土壤绿菌门微生物群落的空间分布特征[J].微生物学报，2021,61(6):1712.

[15] LIU J J,SUI Y Y,YU Z H,et al.Diversity and distribution patterns of acidobacterial communities in the black soil zone of Northeast China[J].Soil Biology and Biochemistry,2016,95:217.

[16] LING L,FU Y Y,JEEWANI P H,et al.Organic matter chemistry and bacterial community structure regulate decomposition processes in post-fire forest soils[J].Soil Biology and Biochemistry,2021,160:108311.

[17] HUA J F,FENG Y Z,JIANG Q,et al.Shift of bacterial community structure along different coastal reclamation histories in Jiangsu,Eastern China[J].Scientific Reports,2017,7(1):10096.

[18] 李卓然，张子怡，阮爱东，等.基于高通量测序技术的新疆哈密地区盐碱地土壤细菌群落结构分析[J].湖北农业科学，2022,61(11):58.

[19] HO J,ADEOLU M,KHADKA B,et al.Identification of distinctive molecular traits that are characteristic of the phylum “Deinococcus-Thermus” and distinguish its main constituent groups[J].Systematic and Applied Microbiology,2016,39(7):463.

[20] ZHANG G L,BAI J H,TEBBE C C,et al.Salinity controls soil microbial community structure and function in coastal estuarine wetlands[J].Environmental Microbiology,2021,23(2):1037.

[21] LIU J W,XUE C X,SUN H,et al.Carbohydrate catabolic capability of a Flavobacteriia bacterium isolated from hadal water[J].Systematic and Applied Microbiology,2019,42(3):270.

[22] CHEN L,HU B X,DAI H,et al.Characterizing microbial diversity and community composition of groundwater in a salt-freshwater transition zone[J].Science of the Total Environment,2019,678:574.

[23] UNNO T,KIM J,KIM Y,et al.Influence of seawater intrusion on microbial communities in groundwater[J].Science of the Total Environment,2015,532:343.

[24] LEE E,SHIN D,HYUN S P,et al.Periodic change in coastal microbial community structure associated with submarine groundwater discharge and tidal fluctuation:changes in coastal microbial community[J].Limnology and Oceanography,2017,62(2):445.

[25] TRUNG T T,BOTT N J,DAI L N,et al.The role of pseudomonas in heterotrophic nitrification:a case study on shrimp ponds (Litopenaeus vannamei) in Soc Trang Province[J].Micro-organisms,2019,7(6):155.

[26] 陈麟.咸淡水过渡区中地下水微生物群落结构与多样性特征研究[D].北京：中国地质大学(北京),2020.

[27] XIE H J,YANG Y X,LIU J H,et al.Enhanced triclosan and nutrient removal performance in vertical up-flow constructed wetlands with manganese oxides[J].Water Research,2018,143:460.