LONG term management systems under semiarid conditions: Influence on labile organic matter, β-glucosidase activity and microbial efficiency

LONG term management systems under semiarid conditions: Influence on labile organic matter, β-glucosidase activity and microbial efficiency

•This study was conducted in a long-term experimental design located in semiarid Spain.•The effects of tillage practices on soil labile organic matter contents were investigated.•Microbial efficiency showed high seasonality during the studied period.•We selected several soil properties (MBC, DOC, qC...

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Bibliographic Details
Published in:Applied soil ecology : a section of Agriculture, ecosystems & environment Vol. 96; pp. 296 - 305
Main Authors: Martín-Lammerding, Diana, Navas, Mariela, Albarrán, María del Mar, Tenorio, José Luis, Walter, Ingrid
Format: Journal Article
Language:English
Published: Elsevier B.V 01-11-2015
Subjects:
Conservation Practices
Crop Rotation
Microbial activity
qCO2
Tillage
Microbial activity
qCO2
Crop Rotation
Conservation Practices
Tillage
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Summary:•This study was conducted in a long-term experimental design located in semiarid Spain.•The effects of tillage practices on soil labile organic matter contents were investigated.•Microbial efficiency showed high seasonality during the studied period.•We selected several soil properties (MBC, DOC, qCO2 and qCO2/SOC) as soil quality indicators for semiarid areas. Conservation agriculture (CA) practices have been widely applied on a variety of agro-ecosystems in order to prevent soil degradation and to improve fertility. We studied the long term influence of different management systems on soil properties in an experimental field located in semiarid central Spain. Soil organic carbon (SOC), dissolved organic carbon (DOC), soil basal respiration (CO2–C), microbial biomass carbon (MBC) and β-glucosidase activity have been measured during three cropping seasons. Results showed a high influence of date of sampling on the evaluated parameters and on the microbial status and activity, most likely due to variations in soil water content (SWC). Microbial efficiency and β-glucosidase activity were improved under CA, as SOC, DOC and MBC were accumulated in the surface. Microbial efficiency ratios, e.g., qR (qR=MBC/SOC), qCO2 (qCO2=CO2–C /MBC) and qCO2/SOC, were useful to explain the influence of sampling date and the management practices on the microbial status. A stepwise procedure reduced considerably our data set, allowing the selection of MBC, DOC and qCO2/SOC as reliable indicators to evaluate soil quality in semiarid areas.
ISSN:0929-1393
1873-0272
DOI:10.1016/j.apsoil.2015.08.021