Standard litterbags underestimate early-stage lower-order root decomposition rate in a subtropical forest, China

Aims The standard litterbag method isolates soil or litter from decomposing roots by a dense nylon mesh that is likely to underestimate root decomposition rate. Thus, we evaluated the effect of direct contact between roots and soil or litter during root decomposition. Methods Schima superba and Cley...

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Bibliographic Details
Published in:Plant and soil 2021-12, Vol.469 (1/2), p.335-346
Main Authors: Chen, Guan-tao, Chen, Yu-qin, Peng, Yong, Hu, Hong-ling, Xie, Jiu-long, Chen, Gang, Xiao, Yin-long, Liu, Li, Tang, Yi, Tu, Li-hua
Format: Article
Language:English
Subjects:
Agriculture
Analysis
Biodegradation
Biomedical and Life Sciences
China
Cleyera japonica
Decomposing organic matter
Decomposition
direct contact
Ecology
Humus
Life Sciences
Litter
Methods
Nutrient dynamics
nylon
organic horizons
ORIGINAL ARTICLE
Plant Physiology
Plant Sciences
Plant-soil relationships
Regular Article
Roots
Roots (Botany)
Schima superba
Soil dynamics
Soil horizons
Soil layers
Soil Science & Conservation
Soils
Tropical forests
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Summary:Aims The standard litterbag method isolates soil or litter from decomposing roots by a dense nylon mesh that is likely to underestimate root decomposition rate. Thus, we evaluated the effect of direct contact between roots and soil or litter during root decomposition. Methods Schima superba and Cleyera japonica order 1–3, 4–5, and 6 roots were decomposed using two types of litterbags at two soil horizons: standard litterbags (R_O, pure root in O horizon; R_A, pure root in A horizon) and mixed litterbags (R + L_O, mixed root with semi-decomposed litter in O horizon; and R + HS_A, mixed root with humus soil in A horizon). The mass and nutrient dynamics were measured in one year of decomposition. Results After one year of decomposition, litterbag types and soil horizons significantly affected root mass and nutrient dynamics. Litterbags mixed with humus soil and litter increased 1–3 order root decomposition rate by 139–143% and 42–89%, respectively. Furthermore, 1–3 order roots had a significantly different decomposition rate than higher-order roots, but standard and mixed litterbags showed the opposite effect. The decomposition rate of 1–3 order roots appears to be more sensitive to litterbag type than higher-order roots. Conclusions Directly contact between root and soil or litter was important for root decomposition in corresponding soil layers. Standard litterbags significantly underestimate the decomposition rate of lower-order roots in the early stages of decomposition.
ISSN:0032-079X
1573-5036
DOI:10.1007/s11104-021-05098-2