Microbial biomass and activity restrict soil function recovery of a post-mining land in eastern Loess Plateau

•Soil nutrient deficiency inhibited microbial activity in mined land.•Three tree types were investigated by field sampling in restored lands.•Vegetation restoration promoted soil microbial biomass and invertase.•Tree species had great impacts on soil microbial biomass.•Soil microbial biomass was a k...

Full description

Saved in:
Bibliographic Details
Published inCatena (Giessen) Vol. 199; p. 105107
Main Authors Yan, Meifang, Li, Tianhao, Li, Xiari, Liu, Yang, Zhang, Jianbiao
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2021
Subjects
Online AccessGet full text

Cover

Loading…
More Information
Summary:•Soil nutrient deficiency inhibited microbial activity in mined land.•Three tree types were investigated by field sampling in restored lands.•Vegetation restoration promoted soil microbial biomass and invertase.•Tree species had great impacts on soil microbial biomass.•Soil microbial biomass was a key driver in reclamation of degraded lands. Soil microbes play an important role in improving soil quality and enhancing carbon cycling, and consequently, are of great significance for the recovery of soil function of degraded lands. However, little is known about soil microbial properties of reconstructed ecosystems established on degraded lands. We investigated soil microbial biomass and enzyme activity for three restored tree types in post-mining lands by field sampling. The results showed that soil microbial biomass carbon increased averagely by 133.9% via planting Quercus liaotungens, Pinus tabuliformis and Rhus typhina. Invertase activity in restored site increased by 138.8% compared with that in the control site. Litter input and root exudate provided carbon sources for soil microbes during vegetation succession, and increases of soil nitrogen content and water-holding capacity were also beneficial to improve microbial growth and activity. Soil microbial biomass and invertase activity displayed significant differences due to tree species (P < 0.01), which could be explained mainly by differences in nutrition content and fine root biomass. However, soil microbial biomass and enzyme activity in restored lands were significantly lower than those in natural forests. Our results suggest that low soil microbial biomass might restrict the recovery of soil function during restoration of post-mining lands in semi-arid region.
ISSN:0341-8162
1872-6887
DOI:10.1016/j.catena.2020.105107