Mixing litter from Larix kaempferi (lamb.) Carr. and broad-leaved trees enhances decomposition by different mechanisms in temperate and subtropical alpine regions of China

Aims Larix kaempferi planting with broad-leaved trees can increase production and alleviate soil degradation; however, the mechanism is unclear, especially on large scales and in different climate regions. This paper attempts to explain the underlying mechanism in a temperate region and northern sub...

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Bibliographic Details
Published in:Plant and soil 2020-07, Vol.452 (1-2), p.43-60
Main Authors: Niu, Xiao Yun, Sun, Xiao Mei, Chen, Dong Sheng, Zhang, Shou Gong
Format: Article
Language:English
Subjects:
Alpine regions
Biodegradation
Biomedical and Life Sciences
Community composition
Decomposition
Ecology
Enzymatic activity
Enzyme activity
Enzymes
Fungi
Larix kaempferi
Life Sciences
Litter
Microorganisms
Nutrient release
Nutrients
Plant Physiology
Plant Sciences
Regular Article
Soil degradation
Soil Science & Conservation
Synergistic effect
Trees
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Summary:Aims Larix kaempferi planting with broad-leaved trees can increase production and alleviate soil degradation; however, the mechanism is unclear, especially on large scales and in different climate regions. This paper attempts to explain the underlying mechanism in a temperate region and northern subtropical alpine region of China. Methods Litter decomposition rates, nutrient release, enzyme activity and microbial community composition were determined in conifer litter, broad-leaved litter and mixed litter by the litterbag method during about 500 days in the two regions. Results Decomposition rate was increased by 4.00% in temperate region and 3.38% in the subtropical region after litter mixing and the synergistic effect increased with decomposition progress. However, nutrients release was not always enhanced, and enzyme activities were enhanced at the most of decomposition time and higher in the subtropical region. After litter mixing, a few new dominant taxa emerged, and the microbial gene quantities were increased in the temperate region, but not in the subtropical region. The dominant bacterial taxa were similar, while most of the dominant fungal taxa shifted with decomposition. In addition, the dominant fungi completely differed between the two regions. The environmental variables with greater influence on microbial community were similar in the two regions, including C:N, C:P and pH. Conclusions After mixing with broad-leaved litter, the decomposition of Larix kaempferi was enhanced by increasing enzyme activities and microbial quantities in the temperate region, but the mechanisms were not clear in the subtropical region.
ISSN:0032-079X
1573-5036
DOI:10.1007/s11104-020-04527-y