Effect of acidified cattle slurry on a soil collembolan community: A mesocosmos study

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Effect of acidified cattle slurry on a soil collembolan community : A mesocosmos study. / D'Annibale, Alessandra; Labouriau, Rodrigo; Sørensen, Peter; Krogh, Paul Henning; Christensen, Bent Tolstrup; Eriksen, Jørgen.

In: European Journal of Soil Biology, Vol. 94, 103117, 09.2019.

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@article{50cebef7402b4b4c9c2ee1d798c9165e,
title = "Effect of acidified cattle slurry on a soil collembolan community: A mesocosmos study",
abstract = "The concept of soil health emphasizes the role of soil organisms in sustainable agriculture and relies on bioindicators to assess the impact of management options. This study employed Collembola, a key group of microarthropods with intimate links to soil microbial activity, as bioindicators to reveal the sustainability of using acidified cattle slurry. While environmental and plant production benefits of acidification are well known, effect of acidified slurry on Collembola is undocumented. We added Collembola to sandy soil mixed with untreated or acidified cattle slurry labelled with 15N and applied at two rates (corresponding to 30 and 90 Mg slurry ha−1). The collembolan community included two species for each vertical life-form: epedaphic (Sinella curviseta and Heteromurus nitidus), hemiedaphic (Proisotoma minuta and Hypogastrura assimilis) and euedaphic species (Folsomia fimetaria and Protaphorura fimata). Replicate mesocosmos were incubated for 28 or 56 days at 15 °C, 65{\%} WHC and a 12 h light-dark cycle. The epedaphic species strongly declined at the end of the experiment, whereas P. minuta and F. fimetaria were positively affected by high rates of untreated and acidified slurry, respectively. The hemiedaphic P. minuta showed the highest abundances and accumulation of slurry-15N, especially when high rate of untreated slurry was applied. We conclude that the impact on Collembola of low rates of untreated and acidified slurry applied to agricultural soils is marginal while higher rates of slurry may subsequently form a favourable habitat for euedaphic species.",
author = "Alessandra D'Annibale and Rodrigo Labouriau and Peter S{\o}rensen and Krogh, {Paul Henning} and Christensen, {Bent Tolstrup} and J{\o}rgen Eriksen",
year = "2019",
month = "9",
doi = "10.1016/j.ejsobi.2019.103117",
language = "English",
volume = "94",
journal = "European Journal of Soil Biology",
issn = "1164-5563",
publisher = "Elsevier Masson",

}

RIS

TY - JOUR

T1 - Effect of acidified cattle slurry on a soil collembolan community

T2 - A mesocosmos study

AU - D'Annibale, Alessandra

AU - Labouriau, Rodrigo

AU - Sørensen, Peter

AU - Krogh, Paul Henning

AU - Christensen, Bent Tolstrup

AU - Eriksen, Jørgen

PY - 2019/9

Y1 - 2019/9

N2 - The concept of soil health emphasizes the role of soil organisms in sustainable agriculture and relies on bioindicators to assess the impact of management options. This study employed Collembola, a key group of microarthropods with intimate links to soil microbial activity, as bioindicators to reveal the sustainability of using acidified cattle slurry. While environmental and plant production benefits of acidification are well known, effect of acidified slurry on Collembola is undocumented. We added Collembola to sandy soil mixed with untreated or acidified cattle slurry labelled with 15N and applied at two rates (corresponding to 30 and 90 Mg slurry ha−1). The collembolan community included two species for each vertical life-form: epedaphic (Sinella curviseta and Heteromurus nitidus), hemiedaphic (Proisotoma minuta and Hypogastrura assimilis) and euedaphic species (Folsomia fimetaria and Protaphorura fimata). Replicate mesocosmos were incubated for 28 or 56 days at 15 °C, 65% WHC and a 12 h light-dark cycle. The epedaphic species strongly declined at the end of the experiment, whereas P. minuta and F. fimetaria were positively affected by high rates of untreated and acidified slurry, respectively. The hemiedaphic P. minuta showed the highest abundances and accumulation of slurry-15N, especially when high rate of untreated slurry was applied. We conclude that the impact on Collembola of low rates of untreated and acidified slurry applied to agricultural soils is marginal while higher rates of slurry may subsequently form a favourable habitat for euedaphic species.

AB - The concept of soil health emphasizes the role of soil organisms in sustainable agriculture and relies on bioindicators to assess the impact of management options. This study employed Collembola, a key group of microarthropods with intimate links to soil microbial activity, as bioindicators to reveal the sustainability of using acidified cattle slurry. While environmental and plant production benefits of acidification are well known, effect of acidified slurry on Collembola is undocumented. We added Collembola to sandy soil mixed with untreated or acidified cattle slurry labelled with 15N and applied at two rates (corresponding to 30 and 90 Mg slurry ha−1). The collembolan community included two species for each vertical life-form: epedaphic (Sinella curviseta and Heteromurus nitidus), hemiedaphic (Proisotoma minuta and Hypogastrura assimilis) and euedaphic species (Folsomia fimetaria and Protaphorura fimata). Replicate mesocosmos were incubated for 28 or 56 days at 15 °C, 65% WHC and a 12 h light-dark cycle. The epedaphic species strongly declined at the end of the experiment, whereas P. minuta and F. fimetaria were positively affected by high rates of untreated and acidified slurry, respectively. The hemiedaphic P. minuta showed the highest abundances and accumulation of slurry-15N, especially when high rate of untreated slurry was applied. We conclude that the impact on Collembola of low rates of untreated and acidified slurry applied to agricultural soils is marginal while higher rates of slurry may subsequently form a favourable habitat for euedaphic species.

U2 - 10.1016/j.ejsobi.2019.103117

DO - 10.1016/j.ejsobi.2019.103117

M3 - Journal article

VL - 94

JO - European Journal of Soil Biology

JF - European Journal of Soil Biology

SN - 1164-5563

M1 - 103117

ER -