Microbial activity measured in soils stored under different temperature and humidity conditions

Zelles, L.; Adrian, P.; Bai, Q.Y.; Stepper, K.; Adrian, M.V.; Fischer, K.; Maier, A.; Ziegler, A.

Microbial activity measured in soils stored under different temperature and humidity conditions

1991

Long-term experiments (1, 2 and 20 months) were made to measure the effect of storage on soil microbial activities. Five soils differing in texture and with different C-content: sandy 1.1%, loamy 1.4%, forest mineral layers 5.1%, peaty 11.9% and forest organic layers 34.1% were stored moist at 4, -18 or -140 degrees C or air-dry at 21 degrees C. Indicators for microbial activity included, ATP, heat output and fluorescein diacetate hydrolysis (FDA), showed different effects. The ATP-content in most cases decreased markedly, except in peaty soil and in forest organic layers stored for 20 months at -18, -140 or 21 degrees C. The heat output was enhanced extremely in peaty soil (except at 4 degrees C) and slightly in forest organic layers stored at 21 or -140 degrees C for 20 months. In the other soils storage caused a marked reduction of heat output. FDA-hydrolysis did not change during 2 months in most cases, except in peaty soil, forest mineral layers (-140 and 21 degrees C) and forest organic layers (21 degrees C) where it increased significantly during storage. In most cases, air drying caused a significant decrease in the quantity of these indicators of microbial activity. The differences between the effects on samples stored at 4, -18 or -140 degrees C were slight and in most cases insignificant. The adenylate energy charge (AEC) measured after 20 months of storage was markedly lower in samples of sandy soil and soils derived from forest stored air-dry, while in loamy soil and in peaty soil the results were less clear. The highest AEC values were obtained in loamy soil and forest organic layers stored at -18 degrees C. The signature indicators muramic acid, glucosamine and ergosterol increased after 20 months storage except for ergosterol in sandy soil, loamy soil, forest mineral layers and forest organic layers (21 degrees C), where it decreased rapidly.

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AGROVOC Keywords

adenosine triphosphate air drying biological activity in soil biomass carbon energy ergosterol forest soils germany glucosamine heat humidity hydrolysis layered soils loam soils measurement nitrogen peat soils sandy soils soil bacteria soil fungi soil organic matter soil temperature soil texture soil water content storage viability

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Published in

Soil biology & biochemistry

Volume 23 Issue 10 Pagination 955 - 962 ISSN 0038-0717

Other Subjects

Muramic acid; Heat output; Forest mineral layers soil; Temporal variation; Forest organic layers; Nutrient content; Long term experiments; Adenylate energy charge; Organic acids and salts; Fluorescein diacetate hydrolysis

Language

English

Type

Journal Article; Text

In AGRIS since: 2024-02-28

Format: MODS

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Microbial activity measured in soils stored under different temperature and humidity conditions

1991

AGROVOC Keywords

Bibliographic information