e-space
Manchester Metropolitan University's Research Repository

    Small-scale spatial variability of selected soil biological properties

    Stark, Christine H.E., Condron, Leo M., Stewart, Alison, Di, Hong Jie and O'Callaghan, Maureen (2004) Small-scale spatial variability of selected soil biological properties. Soil biology and biochemistry, 36 (4). pp. 601-608. ISSN 0038-0717

    [img]
    Preview

    Available under License In Copyright.

    Download (176kB) | Preview

    Abstract

    A strategy for sampling soil from intact monolith lysimeters was established based on measurements of spatial heterogeneity within the lysimeter area. This was part of an ongoing study to determine relationships between soil microbial diversity and nutrient loss by leaching. The sampling protocol had to allow for collection of soil on a regular basis (as opposed to destructive sampling) and ensure high spatial independence of subsamples. On each of two sites (one developed under organic crop management, the other under conventional crop management), ten 15-cm soil cores (sampling points) were taken from three areas (replicates) of 50-cm-diameter (lysimeter surface area) and separately analysed for biotic (microbial biomass carbon and nitrogen; arginine deaminase activity) and abiotic (total carbon and nitrogen) soil properties. The data was tested for variability, expressed as coefficient of variance (biotic and abiotic), and spatial heterogeneity using geostatistics (biotic properties). The biotic soil properties showed significant differences among sampling points, whereas the abiotic parameters were useful in differentiating on a larger scale, i.e. between sites. For all soil properties tested, the differences among the replicates were smaller than those between sites or among points indicating that, in the main experiment, all treatments can be sampled following the same pattern.Geostatistical analysis and fitting of an exponential model showed that a spatial structure exists in the biotic soil properties and that the samples are independent beyond separation distances of 25-30 cm. A revised sampling pattern consisting of 11 samples per lysimeter is described.

    Impact and Reach

    Statistics

    Activity Overview
    6 month trend
    226Downloads
    6 month trend
    264Hits

    Additional statistics for this dataset are available via IRStats2.

    Altmetric

    Repository staff only

    Edit record Edit record