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Process-based modelling of invertebrate drift transport, net energy intake and reach carrying capacity for drift-feeding salmonids

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  • Hayes, John W.
  • Hughes, Nicholas F.
  • Kelly, Lon H.

Abstract

We present an overview of a process-based modelling approach for predicting how change in flow affects drift density, net rate of energy intake (NREI) and numbers of drift-feeding salmonids. It involves linking an existing two-dimensional flow model (River2D) with models of invertebrate drift transport and drift-foraging which we have developed. We describe, demonstrate and partially test our models in an application on a 80m×20m pool on a New Zealand river. We show how these models realistically capture hydraulic, drift dispersion and bioenergetics drift-foraging processes to predict the relationship between stream flow, habitat quality and quantity (in terms of NREI), and carrying capacity for drift-feeding salmonids. Overall, the 2D hydraulic model made good predictions of water levels, depths and water velocity at the calibration flow and a lower (validation) flow. The drift transport model made good predictions of the spatial distribution of invertebrate drift density throughout the pool at low flow after it was calibrated against observed drift density at the higher flow. The model correctly predicted that drift density would decline downstream and into the margins due to the process of settling dominating over entry from the stream bed, and that drift would be carried further downstream and laterally as flow increased. The foraging model made a reasonable prediction (6–7) of the numbers of 0.5m adult brown trout observed (5) in the pool. It accurately predicted that trout should be distributed down the thalweg where net rate of energy intake (NREI) was highest, but when NREI was adjusted for depletion by feeding fish the predicted drift-feeding locations were more closely spaced (bunched) than observed fish locations. Our process-based modelling approach has important implications for improving biological realism in predictions of the response of drift-feeding fishes to flow change within the context of the IFIM.

Suggested Citation

  • Hayes, John W. & Hughes, Nicholas F. & Kelly, Lon H., 2007. "Process-based modelling of invertebrate drift transport, net energy intake and reach carrying capacity for drift-feeding salmonids," Ecological Modelling, Elsevier, vol. 207(2), pages 171-188.
  • Handle: RePEc:eee:ecomod:v:207:y:2007:i:2:p:171-188
    DOI: 10.1016/j.ecolmodel.2007.04.032
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    Cited by:

    1. Anderson, Kurt E. & Harrison, Lee R. & Nisbet, Roger M. & Kolpas, Allison, 2013. "Modeling the influence of flow on invertebrate drift across spatial scales using a 2D hydraulic model and a 1D population model," Ecological Modelling, Elsevier, vol. 265(C), pages 207-220.
    2. Laplanche, Christophe & Leunda, Pedro M. & Boithias, Laurie & Ardaíz, José & Juanes, Francis, 2019. "Advantages and insights from a hierarchical Bayesian growth and dynamics model based on salmonid electrofishing removal data," Ecological Modelling, Elsevier, vol. 392(C), pages 8-21.
    3. Hafs, Andrew W. & Harrison, Lee R. & Utz, Ryan M. & Dunne, Thomas, 2014. "Quantifying the role of woody debris in providing bioenergetically favorable habitat for juvenile salmon," Ecological Modelling, Elsevier, vol. 285(C), pages 30-38.

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