Soil bacterial community composition but not alpha diversity altered along a gradient of Spartina alterniflora invasion on the coast of Yellow Sea, China

IF 3 2区生物学 Q1 MARINE & FRESHWATER BIOLOGY Frontiers in Marine Science Pub Date : 2025-02-28 DOI:10.3389/fmars.2025.1531902

Li Yang, Yue Peng, Shuang Wang, Chenxuan Rong, Huice Dong, Hongshan Li, Baoming Ge

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Abstract

IntroductionSpartina alterniflora invasion may alter the characteristics and functions of the coastal wetland ecosystems. Previous studies have shown that invasion changes the biogeochemical processes and microbial diversity in marsh ecosystems; however, knowledge of the changes in bacterial communities and their function at different soil depths during invasion remains limited.MethodsIn the present study, we investigated S. alterniflora invasion on the dynamic changes of soil bacterial communities using Illumina MiSeq sequencing analyses of 16S rRNA at different soil depths (i.e., 0–10, 10–20, and 20–40 cm) during the invasive process (i.e., 1, 4, 7, and 12 years), as well as the potential correlations between soil physicochemical characteristics and enzyme activities.ResultsThe invasion of S. alterniflora did not significantly affect soil bacterial alpha diversity or the functional profiles at the first and second levels of the Kyoto Encyclopedia of Genes and Genomes (KEGG). Furthermore, no significant changes were observed across different soil depths. However, the relative abundances of Chloroplast and Alphaproteobacteria increased from 3.03% and 5.05% in bare mudflat to 13.61% and 8.95% in the 12-year-old S. alterniflora invaded soil, respectively, whereas those of Deltaproteobacteria, Acidimicrobiia, and Bacilli decreased after S. alterniflora invasion for approximately 12 years. The relative abundances of soil bacteria varied with soil depth. Total phosphorus, carbon-to-nitrogen ratio, total carbon, and catalase activity were the key factors affecting soil bacterial community composition.DiscussionThe soil physicochemical characteristics changes caused by invasion may temporarily enhance soil fertility, they can lead to long-term wetland degradation through changed biological community and altered nutrient dynamics. This study provides a comprehensive understanding of the dynamic changes in bacterial communities, soil physicochemical characteristics, and enzyme activities during S. alterniflora invasion on coastal wetlands.

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黄海沿岸互花米草入侵过程中土壤细菌群落组成而非α多样性的变化

互花米草的入侵可能改变滨海湿地生态系统的特征和功能。以往的研究表明，入侵改变了沼泽生态系统的生物地球化学过程和微生物多样性；然而，对入侵过程中细菌群落的变化及其在不同土壤深度下的功能的了解仍然有限。方法采用Illumina MiSeq测序技术，对互花紫苏入侵1、4、7、12年不同土壤深度（0 ~ 10、10 ~ 20、20 ~ 40 cm） 16S rRNA序列进行分析，研究互花紫苏入侵过程中（0 ~ 10、10 ~ 20、20 ~ 40 cm）土壤细菌群落的动态变化，以及土壤理化特征与酶活性之间的潜在相关性。结果互花葡萄球菌入侵对土壤细菌α多样性及京都基因与基因组百科全书（KEGG）一、二级功能谱无显著影响。此外，在不同的土壤深度上没有显著的变化。然而，绿体菌和α变形菌的相对丰度分别从裸地的3.03%和5.05%增加到12年交替花葡萄入侵土壤的13.61%和8.95%，而三角洲变形菌、酸性微生物和芽胞杆菌的相对丰度在交替花葡萄入侵土壤约12年后下降。土壤细菌的相对丰度随土壤深度的不同而不同。全磷、碳氮比、总碳和过氧化氢酶活性是影响土壤细菌群落组成的关键因素。入侵引起的土壤理化特征变化可能会暂时提高土壤肥力，但会通过改变生物群落和改变养分动态导致湿地长期退化。本研究旨在全面了解互花草入侵滨海湿地过程中细菌群落、土壤理化特征和酶活性的动态变化。

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来源期刊

Frontiers in Marine Science Agricultural and Biological Sciences-Aquatic Science

CiteScore

5.10

自引率

16.20%

发文量

2443

审稿时长

14 weeks

期刊介绍： Frontiers in Marine Science publishes rigorously peer-reviewed research that advances our understanding of all aspects of the environment, biology, ecosystem functioning and human interactions with the oceans. Field Chief Editor Carlos M. Duarte at King Abdullah University of Science and Technology Thuwal is supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, policy makers and the public worldwide. With the human population predicted to reach 9 billion people by 2050, it is clear that traditional land resources will not suffice to meet the demand for food or energy, required to support high-quality livelihoods. As a result, the oceans are emerging as a source of untapped assets, with new innovative industries, such as aquaculture, marine biotechnology, marine energy and deep-sea mining growing rapidly under a new era characterized by rapid growth of a blue, ocean-based economy. The sustainability of the blue economy is closely dependent on our knowledge about how to mitigate the impacts of the multiple pressures on the ocean ecosystem associated with the increased scale and diversification of industry operations in the ocean and global human pressures on the environment. Therefore, Frontiers in Marine Science particularly welcomes the communication of research outcomes addressing ocean-based solutions for the emerging challenges, including improved forecasting and observational capacities, understanding biodiversity and ecosystem problems, locally and globally, effective management strategies to maintain ocean health, and an improved capacity to sustainably derive resources from the oceans.