Insights into the role of protists in modulating soil organic carbon turnover and sequestration
ID:133 View Protection:ATTENDEE Updated Time:2024-04-13 17:00:05 Hits:616 Oral Presentation

Start Time:2024-04-13 17:20(Asia/Shanghai)

Duration:25min

Session: 专题九:The 3rd China-Australia Joint Workshop on Environmental Biogeochemistry » 9专题九:The 3rd China-Australia Joint Workshop on Environmental Biogeochemistry

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Abstract
Soil microorganisms play central roles in regulating soil organic carbon (SOC) turnover and sequestration. Protists, an integral component of the soil micro-food web, are an important biotic force driving microbial population dynamics and C biogeochemical cycling. However, how protists regulate microbially mediated soil carbon cycling remains largely unknown. This study investigated the roles of two major functional protistan groups, phototrophs and phagotrophs, in modulating soil carbon cycling. Our results showed that phototrophs played important roles in CO2 fixation, with up to 21% contribution of phototrophs to SOC storage in paddy soils but less than 15% in forest and upland soils. Phototrophic lineages such as Chlorophyceae and Trebouxiophyceae were better predictors of CO2 fixation in paddy soils. We further investigated the trophic interactions between phagotrophs, bacteria and fungi, and their impacts on C-cycling processes. Soil aggregate sizes significantly influenced the protistan community and microbial hierarchical interactions. Cercozoan taxa were consistently identified as the keystone species in SOM degradation-related ecological clusters in macroaggregates and silt + clay, indicating the critical roles of phagotrophs in SOM degradation by regulating bacterial and fungal taxa. Due to the limitation of soil pore size, microaggregates restrict the relative abundance of bacterivores and the trophic interactions between protists (especially Cercozoan lineages) and bacteria. Instead, omnivores play dominant roles in driving SOM turnover via influencing the fungal community in microaggregates. However, the associations between microbial trophic interactions and SOM decomposition are decoupled in microaggregates, leading to protection of soil organic carbon. Our findings highlight the importance of protists-driven soil C cycling.
Keywords
Soil organic matter, Carbon cycling, Soil protists, Trophic interactions
Speaker
HaoXiuli
副教授 Huazhong Agricultural University

Submission Author
郝秀丽 华中农业大学
廖浩 华中农业大学
黄巧云 华中农业大学
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Important Date
  • Conference Date

    Apr 12

    2024

    to

    Apr 14

    2024

  • Mar 28 2024

    Draft paper submission deadline

  • Apr 14 2024

    Registration deadline

Sponsored By
华中农业大学
中国微生物学会地质微生物学专业委员会
Organized By
华中农业大学资源与环境学院
土壤环境与污染修复湖北省重点实验室
农业微生物资源发掘与利用全国重点实验室
中国地质大学(武汉)
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