Microbial biomass and activity in alkalized magnesic soils under arid conditions

The effects of salinity and Mg 2+ alkalinity on the size and activity of the soil microbial communities were investigated. The study was conducted along the border area of the alluvial fan of the Taolai River. Thirty soil samples were taken which had an electrical conductivity (EC) gradient of 0.93–...

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Published in:Soil biology & biochemistry 2007-12, Vol.39 (12), p.3004-3013
Main Authors: Yuan, Bing-Cheng, Xu, Xue-Gong, Li, Zi-Zhen, Gao, Tian-Peng, Gao, Meng, Fan, Xian-Wei, Deng, Jian-Ming
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
alluvial soils
Biochemistry and biology
Biological and medical sciences
biomass
calcium
Chemical, physicochemical, biochemical and biological properties
electrical conductivity
enzyme activity
Fundamental and applied biological sciences. Psychology
Hydrolase activity
hydrolases
magnesium
Magnesium alkalinity
Metabolic quotient
Microbial activity
Microbial biomass
Microbiology
Physics, chemistry, biochemistry and biology of agricultural and forest soils
Salinity
soil enzymes
soil microorganisms
soil pH
soil salinity
Soil science
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Summary:The effects of salinity and Mg 2+ alkalinity on the size and activity of the soil microbial communities were investigated. The study was conducted along the border area of the alluvial fan of the Taolai River. Thirty soil samples were taken which had an electrical conductivity (EC) gradient of 0.93–29.60 mS cm −1. Soil pH ranged from 8.60 to 9.33 and correlated positively with Mg 2+/Ca 2+ ratio, exchangeable Mg 2+ percentage and HCO 3 −+CO 3 2−. Mg 2+/Ca 2+ varied considerably from 3.04 to 61.31, with an average of 23.03. Exchangeable Mg 2+ percentage generally exceeded 60% and had a positive correlation with Mg 2+/Ca 2+. HCO 3 −+CO 3 2− averaged 1.63 cmol kg −1 and usually did not exceed 2.0 cmol kg −1. Microbial biomass, indices of microbial activity and the activities of the hydrolases negatively correlated with Mg 2+/Ca 2+ or exchangeable Mg 2+ percentage. Biomass C, biomass N, microbial quotient (the percentage of soil organic C present as biomass C), biomass N as a percentage of total N, potentially mineralizable N, FDA hydrolysis rate and arginine ammonification rate decreased exponentially with increasing EC. The biomass C/N tended to be lower in soils with higher salinity and Mg 2+ alkalinity, probably reflecting the bacterial dominance in microbial biomass in alkalized magnesic soils. The metabolic quotient ( qCO 2) positively correlated with salinity and Mg 2+ alkalinity, and showed a quadratic relationship with EC, indicating that increasing salinity and Mg 2+ alkalinity resulted in a progressively smaller, more stressed microbial communities which was less metabolically efficient. Consequently, our data suggest that salinity and Mg 2+ alkalinity are stressful environments for soil microorganisms.
ISSN:0038-0717
1879-3428
DOI:10.1016/j.soilbio.2007.05.034