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Individual-based dynamic energy budget modelling of earthworm life-histories in the context of competition

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  • Rakel, Kim J.
  • Preuss, Thomas G.
  • Gergs, André

Abstract

In the environmental risk assessment of chemicals, ecological modelling can facilitate the quantification of specific protection goals, for instance by the extrapolation of untested situations from toxicity test results. In particular, individual-based models (IBMs) are gaining resonance in the regulatory community as a mean to predict how populations perform under environmental perturbation. In this regard, the hope is that standardised or general designs will increase the applicability and acceptance of model based risk assessments. Strong moves in the direction of generalised IBM designs have been made based on metabolic theories such as the dynamic energy budget (DEB) theory. Here, we parameterise the standard DEB model for the earthworm Eisenia fetida and test the individual-based DEB model by comparing predictions with published data on life-histories measured for individual worms and populations. Overall, the comparison showed good agreement between the simulations and the data, suggesting that the standard DEB model, more precisely DEBs ‘kappa-rule’, characterizing the energy partitioning between somatic and reproductive processes, is applicable to earthworms. The parametrized model is able to predict growth and reproduction for different food quality and availability.

Suggested Citation

  • Rakel, Kim J. & Preuss, Thomas G. & Gergs, André, 2020. "Individual-based dynamic energy budget modelling of earthworm life-histories in the context of competition," Ecological Modelling, Elsevier, vol. 432(C).
    • Handle: RePEc:eee:ecomod:v:432:y:2020:i:c:s0304380020302921
    DOI: 10.1016/j.ecolmodel.2020.109222
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    1. Johnston, A.S.A. & Hodson, M.E. & Thorbek, P. & Alvarez, T. & Sibly, R.M., 2014. "An energy budget agent-based model of earthworm populations and its application to study the effects of pesticides," Ecological Modelling, Elsevier, vol. 280(C), pages 5-17.
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