Fencing-driven soil seed bank alterations: reduced precipitation sensitivity and hints of management-induced retrogressive succession in alpine grasslands
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Abstract
Background and aims
The degradation of the alpine grasslands on the Qinghai-Tibet Plateau has been mitigated in some regions, while it persists to varying degrees in others. Soil seed banks (SSBs), reflecting the past, present, and future potential of plant communities, are critical for restoration. This study assessed fencing, a nature-based solution, addressing regional biases and limited cross-regional synthesis in prior research.
Methods
Paired plots of free grazing and fenced grazing were established through field sampling. Community and SSB characteristics were compared between fenced and grazed areas using vegetation and seed bank surveys, seed germination experiments, and statistical analyses. Structural equation modeling (SEM) was employed to identify regulatory pathways influencing seed density under both management regimes.
Results
Fencing increased seed density (346–20,961 seeds/m2) compared to grazed areas (346–14,378 seeds/m2, p < 0.05). The Sørensen similarity index indicated altered community structure and retrogressive succession (fenced: 0.803; grazed: 0.766). Fencing raised the importance value (IV) of Poaceae by 8.70% but reduced non-grass species richness and IV by 8.13%. SEM explained 95.04% (fenced) and 97.30% (grazed) of seed density variation, with fencing weakening seed density response to precipitation.
Conclusions
Fencing significantly affects SSBs by altering seed density, community structure, composition, and diversity. These changes reduce the sensitivity of SSBs to precipitation and may contribute to retrogressive succession in alpine grasslands. This study provides theoretical support for utilizing SSBs as a target for nature based solution to restore degraded alpine grasslands on the Qinghai-Tibet Plateau.
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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