首页|土壤微生物群落结构及碳循环功能对高寒草甸退化和人工建植的响应

土壤微生物群落结构及碳循环功能对高寒草甸退化和人工建植的响应

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  • 国家科技期刊平台
  • NETL
  • NSTL
  • 万方数据
为了解土壤微生物群落及其碳循环功能对草地退化和人工建植的响应及驱动因素,本研究以青藏高原退化高寒草甸及人工建植草地为对象,借助宏基因组技术,分析退化和建植过程中微生物结构及碳循环功能基因的变化特征,并进一步探索微生物碳循环功能基因变化的驱动因素。结果表明:高寒草甸退化及人工建植过程显著改变了土壤和植被因子;在退化及建植过程中,土壤微生物丰富度及多样性的上升及优势种相对丰度的下降表明微生物群落趋于均质化分布;土壤碳循环功能基因多样性表现为显著上升-稳定-上升的趋势;微生物群落相对丰度前15的优势种对碳循环功能基因的贡献超过40%,但随退化和建植明显下降;单独的土壤或植被因子对土壤微生物群落结构的影响高于微生物碳循环功能基因的影响,但土壤和植被的互作对后者的影响要强于前者;土壤营养元素有效态(铵氮和硝氮)及植被因子(盖度、生物量及多样性)与碳循环功能基因多样性和丰度关系密切。研究结果有助于增强理解高寒草甸退化及人工建植过程中碳循环过程的微生物机制。
Responses of soil microbial structure and carbon cycling functions to degradation and artificial restoration of alpine meadows
We examined the impacts of degradation and artificial restoration of alpine grasslands on microbial com-munities and the related carbon cycling functions,with experiments being conducted on degraded alpine meadows and artificially restored grasslands in the Qinghai-Tibet Plateau.With metagenomic techniques,we analyzed the change of microbial structures and carbon cycling functions,and further explored the environmental factors driving the changes of carbon cycling functional genes.The results showed that degradation and artificial restoration of grasslands significantly altered soil and vegetation characteristics.The increase of soil microbial richness and diver-sity and the decrease of the relative abundance of dominant species indicated that microbial community tended to be homogeneous during degradation and artificial restoration of grasslands.The diversity of soil carbon cycling function-al genes showed a trend of increasing,stabilizing,and increasing.The top 15 dominant species contributed more than 40%to carbon cycle functional genes,and such contribution decreased significantly under degradation and restoration of grasslands.The effect of individual soil or vegetation on microbial community structure was greater than that on microbial carbon cycling functional genes,while soil and vegetation interaction had stronger effect on the latter than the former.Specifically,carbon cycling functional gene diversity and abundance were significantly related to soil available nitrogen(ammonium nitrogen and nitrate nitrogen)and vegetation factors(coverage,bio-mass,and diversity).Our results contribute to a better understanding of microbial mechanisms of carbon cycling during meadow degradation and artificial restoration.

Qinghai-Tibet PlateauThree-River Headwaters regionmetagenomicsdegraded alpine meadowarti-ficial restorationcarbon cycling functional genes

黄鹏、丁明军、张华、徐欢、邹天娥、张月菊、曾欢

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江西师范大学地理与环境学院,南昌 330022

江西师范大学鄱阳湖湿地与流域研究教育部重点实验室,南昌 330022

青藏高原 三江源 宏基因组 退化高寒草甸 人工建植 碳循环功能基因

青藏高原综合科学考察研究项目(第二次)国家自然科学基金

2019QZKK060342061018

2024

10.13292/j.1000-4890.202406.039

生态学杂志
中国生态学学会

生态学杂志

CSTPCD北大核心
影响因子:1.439
ISSN:1000-4890
年,卷(期):2024.43(6)
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