Deciphering agricultural and forest litter decomposition: Stage dependence of home-field advantage as affected by plant residue chemistry and bacterial community
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Abstract
Background and aims
The ‘home-field advantage’ (HFA) hypothesis posits that plant litters decompose faster in their native habitat than elsewhere. Uncovering the mechanisms of HFA effect during litter decomposition is crucial for understanding ecosystem nutrient cycling and carbon budgeting.
Methods
We investigated HFA effect in agricultural and forest ecosystems through a two-year reciprocal transplant field experiment in a temperate region, using post-harvest maize straw and mixed forest litter. We examined the temporal dynamics of HFA by analyzing the interplay influence of plant residue quality and soil microbial community composition.
Results
We observed that the presence and strength of HFA varied depending on the stage of litter decomposition, with the difference in initial chemistry between litters diminishing over time. Our findings indicate a variable HFA, ranging from neutral to positive, linked to the persistence of plant residue compounds (as inferred by Aromatic/Aliphatic ratio). In specific, we found a positive mean HFA effect for mixed litter and a negative effect for maize straw, highlighting that lower quality plant residues may enhance HFA. Moreover, we found that HFA was positively affected by dissimilarity in bacterial community between ‘home’ and ‘away’ soils in later stages of litter decomposition, which was indirectly impacted by bacterial regulation of N-related hydrolases activities, indicating a bacterial-driven rather than fungal-driven influence on HFA effect.
Conclusion
Our study underscores the importance of considering stage-dependence in HFA studies, emphasizing the influence of plant residue quality and highlighting the greater role of bacterial communities over fungi in affecting the dynamics of HFA effect.
期刊介绍:
Plant and Soil publishes original papers and review articles exploring the interface of plant biology and soil sciences, and that enhance our mechanistic understanding of plant-soil interactions. We focus on the interface of plant biology and soil sciences, and seek those manuscripts with a strong mechanistic component which develop and test hypotheses aimed at understanding underlying mechanisms of plant-soil interactions. Manuscripts can include both fundamental and applied aspects of mineral nutrition, plant water relations, symbiotic and pathogenic plant-microbe interactions, root anatomy and morphology, soil biology, ecology, agrochemistry and agrophysics, as long as they are hypothesis-driven and enhance our mechanistic understanding. Articles including a major molecular or modelling component also fall within the scope of the journal. All contributions appear in the English language, with consistent spelling, using either American or British English.
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