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Research Progress

Litter Decomposition Predominates Soil Dissolved Organic Carbon and Nitrogen in Xishuangbanna Forest

Dec 17, 2014

Soil dissolved organic carbon (DOC) and nitrogen (DN) are the most labile C and N fractions in biogeochemical cycling of forest soil. Litter, as the key link of nutrient cycle between soil and flora, is an important factor on the soil DOC and DN dynamics.  

Most studies in temperate and boreal forests indicated that surface soil DOC and DN may be controlled by litter mass, litter species, litter chemical fractions, soil and climate factors.  However, there has been no experiment conducted to examine soil DOC and DN dynamics during continuous litter decomposition in field. The relative importance of litter quality and quantity, environmental factors, and interacting effects related to these factors in controlling soil DOC and DN dynamics remain unclear. Moreover, no comparable studies in tropical rainforest have been published.    

Prof. ZHANG Yiping and his team of Xishuangbanna Tropical Botanical Garden (XTBG) of Chinese Academy of Sciences carried out a one-year in situ field litter decomposition experiment at the northern-most edge of Asian tropical rainforest in Xishuangbanna, SW China. Their aim was to clarify the dynamics and main factors affecting soil dissolved organic carbon (DOC) and nitrogen (DN) during litter degradation and decomposition in field settings in tropical rainforest.  

The researchers found that the soil DOC and DN concentrations under the litter bags decreased significantly after an initial peak with increasing degradation and decomposition of litter. They performed principal components analysis (PCA) and stepwise linear regression to reveal the main factors on surface soil DOC and DN dynamics during litter decomposition.  

The principal components together explained 67.4% of the variance of all parameters such as litter decomposition rate, litter remain mass, litter carbon content, litter nitrogen content, litter acid detergent fiber content and litter neutral detergent fiber content. Stepwise linear regression between DOC and DN concentrations and principal components showed that degraded litter quantity and quality explained 61.3% and 71.2% of the variation in DOC and DN concentrations, respectively.  

The results showed that the strongest limiting factor for DOC was litter carbon mass. In contrast, the limiting factor for soil DN was hemicellulose mass. The researchers concluded that DN dynamics was associated with variations in monosaccharide components.  

The study made it clear that litter decomposition was the predominant factor controlling surface-soil DOC and DN dynamics. The researchers proposed that more attention should be paid to the mechanisms controlling biogeochemical cycles of DOC and DN to clarify the role of DOC and DN in C and N cycles in future studies. 

The study entitledDirect effects of litter decomposition on soil dissolved organic carbon and nitrogen in a tropical rainforest” has been published on Soil Biology and Biochemistry.  

 

Figure: Tropical forest of Xishuangbanna (Image by ZHOU Wenjun)  

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