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How might we model an ecosystem?

Author

Listed:
  • Caron-Lormier, Geoffrey
  • Bohan, David A.
  • Hawes, Cathy
  • Raybould, Alan
  • Haughton, Alison J.
  • Humphry, Roger W.

Abstract

Predicting ecosystem effects is of crucial importance in a world at threat from natural and human-mediated change. Here we propose an ecologically defensible representation of an ecosystem that facilitates predictive modelling. The representation has its roots in the early trophic and energetic theory of ecosystem dynamics and more recent functional ecology and network theory. Using the arable ecosystem of the UK as an example, we show that the representation allows simplification from the many interacting plant and invertebrate species, typically present in arable fields, to a more tractable number of trophic-functional types. Our compound hypothesis is that “trophic-functional types of plants and invertebrates can be used to explain the structure, diversity and dynamics of arable ecosystems”. The trophic-functional types act as containers for individuals, within an individual-based model, sharing similar trophic behaviour and traits of biomass transformation. Biomass, or energy, flows between the types and this allows the key ecological properties of individual abundance and body mass, at each trophic height, to be followed through simulations. Our preliminary simulation results suggest that the model shows great promise. The simulation output for simple ecosystems, populated with realistic parameter values, is consistent with current laboratory observations and provides exciting indications that it could reproduce field scale phenomena. The model also produces output that links the individual, population and community scales, and may be analysed and tested using community, network (food web) and population dynamic theory. We show that we can include management effects, as perturbations to parameter values, for modelling the effects of change and indicating management responses to change. This model will require robust analysis, testing and validation, and we discuss how we will achieve this in the future.

Suggested Citation

  • Caron-Lormier, Geoffrey & Bohan, David A. & Hawes, Cathy & Raybould, Alan & Haughton, Alison J. & Humphry, Roger W., 2009. "How might we model an ecosystem?," Ecological Modelling, Elsevier, vol. 220(17), pages 1935-1949.
  • Handle: RePEc:eee:ecomod:v:220:y:2009:i:17:p:1935-1949
    DOI: 10.1016/j.ecolmodel.2009.04.021
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    References listed on IDEAS

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    1. Caron-Lormier, Geoffrey & Humphry, Roger W. & Bohan, David A. & Hawes, Cathy & Thorbek, Pernille, 2008. "Asynchronous and synchronous updating in individual-based models," Ecological Modelling, Elsevier, vol. 212(3), pages 522-527.
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    Cited by:

    1. Caron-Lormier, Geoffrey & Bohan, David A. & Dye, Richard & Hawes, Cathy & Humphry, Roger W. & Raybould, Alan, 2011. "Modelling an ecosystem: The example of agro-ecosystems," Ecological Modelling, Elsevier, vol. 222(5), pages 1163-1173.
    2. Logsdon, Rebecca A. & Chaubey, Indrajeet, 2013. "A quantitative approach to evaluating ecosystem services," Ecological Modelling, Elsevier, vol. 257(C), pages 57-65.
    3. Smajgl, Alex & House, Alan P.N. & Butler, James R.A., 2011. "Implications of ecological data constraints for integrated policy and livelihoods modelling: An example from East Kalimantan, Indonesia," Ecological Modelling, Elsevier, vol. 222(3), pages 888-896.
    4. Duan, Yingying & Rong, Haina & Zhang, Gexiang & Gorbachev, Sergey & Qi, Dunwu & Valencia-Cabrera, Luis & Pérez-Jiménez, Mario J., 2024. "A review of computing models for studying population dynamics of giant panda ecosystems," Ecological Modelling, Elsevier, vol. 487(C).

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