Soil Aggregation and Organic Carbon Dynamics in Poplar Plantations

• Published in: Forests Vol. 9; no. 9; p. 508
• Main Authors: Ge, Zhiwei, Fang, Shuiyuan, Chen, Han, Zhu, Rongwei, Peng, Sili, Ruan, Honghua
• Format: Journal Article
• Language: English
• Published: MDPI AG 23.08.2018
• Subjects: fine-root biomass; poplar plantation; soil macroaggregates; soil organic carbon; stand development
• ISSN: 1999-4907; 1999-4907
• DOI: 10.3390/f9090508

Soil resident water-stable macroaggregates (diameter (Ø) > 0.25 mm) play a critical role in organic carbon conservation and fertility. However, limited studies have investigated the direct effects of stand development on soil aggregation and its associated mechanisms. Here, we examined the dynamics of soil organic carbon, water-stable macroaggregates, litterfall production, fine-root (Ø < 1 mm) biomass, and soil microbial biomass carbon with stand development in poplar plantations (Populus deltoides L. ‘35’) in Eastern Coastal China, using an age sequence (i.e., five, nine, and 16 years since plantation establishment). We found that the quantity of water-stable macroaggregates and organic carbon content in topsoil (0–10 cm depth) increased significantly with stand age. With increasing stand age, annual aboveground litterfall production did not differ, while fine-root biomass sampled in June, August, and October increased. Further, microbial biomass carbon in the soil increased in June but decreased when sampled in October. Ridge regression analysis revealed that the weighted percentage of small (0.25 mm ≤ Ø < 2 mm) increased with soil microbial biomass carbon, while that of large aggregates (Ø ≥ 2 mm) increased with fine-root biomass as well as microbial biomass carbon. Our results reveal that soil microbial biomass carbon plays a critical role in the formation of both small and large aggregates, while fine roots enhance the formation of large aggregates.