Abstract
The minicontainer-method is a new method developed to study biological processes related to soil litter decomposition. An adaptation of the classical Baermann-funnel technique is described which can be used, in association with the minicontainer method, to investigate the role of Nematoda in litter decomposition. The use of the extraction method is illustrated in a study of the effects of different tillage systems on the decomposition of rye straw and on the nematode density in minicontainers with different mesh sizes of 20 µm, 500 µm and 2 mm. Three tilled plots (conventional deep plough, cultivator and two-layer plough) and an untilled control were compared after periods of 4 weeks and 38 weeks. On both sample dates there were significant main effects of treatment and mesh size on the nematode density, and additionally, after 38 weeks significant treatment x soil depth interactions. After 4 weeks, there were significant main effects of treatment and soil depth on the decomposition, but no mesh size effects, whereas after 38 weeks, all experimental factors had a significant effect on the decomposition of the straw. Due to the small volume of litter substrate used in the minicontainer method, the efficiency of nematode extraction is high and the lack of oxygen in the minicontainers presents no serious problem during the extraction process. The method also allows the simultaneous extraction of a large number of samples within a short period of time. Our results indicate that the method is suitable to study the microdistribution of nematode activity within the soil profile and improves the possible applications of the minicontainer-method.
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Lenz, R., Eisenbeis, G. An extraction method for nematodes in decomposition studies using the minicontainer-method. Plant and Soil 198, 109–116 (1998). https://doi.org/10.1023/A:1004372228844
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DOI: https://doi.org/10.1023/A:1004372228844