Microbial necromass in cropland soils: A global meta-analysis of management effects

Ranran Zhou, Yuan Liu, Jennifer A.J. Dungait, Amit Kumar, Jinsong Wang, Lisa K. Tiemann, Fusuo Zhang*, Yakov Kuzyakov, Jing Tian*

*Corresponding author for this work

    Research output: Contribution to journalArticlepeer-review

    62 Citations (Scopus)

    Abstract

    Microbial necromass is a large and persistent component of soil organic carbon (SOC), especially under croplands. The effects of cropland management on microbial necromass accumulation and its contribution to SOC have been measured in individual studies but have not yet been summarized on the global scale. We conducted a meta-analysis of 481-paired measurements from cropland soils to examine the management effects on microbial necromass and identify the optimal conditions for its accumulation. Nitrogen fertilization increased total microbial necromass C by 12%, cover crops by 14%, no or reduced tillage (NT/RT) by 20%, manure by 21%, and straw amendment by 21%. Microbial necromass accumulation was independent of biochar addition. NT/RT and straw amendment increased fungal necromass and its contribution to SOC more than bacterial necromass. Manure increased bacterial necromass higher than fungal, leading to decreased ratio of fungal-to-bacterial necromass. Greater microbial necromass increases after straw amendments were common under semi-arid and in cool climates in soils with pH <8, and were proportional to the amount of straw input. In contrast, NT/RT increased microbial necromass mainly under warm and humid climates. Manure application increased microbial necromass irrespective of soil properties and climate. Management effects were especially strong when applied during medium (3–10 years) to long (10+ years) periods to soils with larger initial SOC contents, but were absent in sandy soils. Close positive links between microbial biomass, necromass and SOC indicate the important role of stabilized microbial products for C accrual. Microbial necromass contribution to SOC increment (accumulation efficiency) under NT/RT, cover crops, manure and straw amendment ranged from 45% to 52%, which was 9%–16% larger than under N fertilization. In summary, long-term cropland management increases SOC by enhancing microbial necromass accumulation, and optimizing microbial necromass accumulation and its contribution to SOC sequestration requires site-specific management.

    Original languageEnglish
    Pages (from-to)1998-2014
    Number of pages17
    JournalGlobal Change Biology
    Volume29
    Issue number7
    Early online date7 Feb 2023
    DOIs
    Publication statusPrint publication - Apr 2023

    Bibliographical note

    Publisher Copyright:
    © 2023 John Wiley & Sons Ltd.

    Keywords

    • amino sugars
    • cropland management
    • land use
    • meta-analysis
    • microbial necromass
    • soil carbon sequestration
    • soil organic matter
    • Manure
    • Soil/chemistry
    • Nitrogen
    • Carbon
    • Agriculture
    • Crops, Agricultural

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