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PCLake+: A process-based ecological model to assess the trophic state of stratified and non-stratified freshwater lakes worldwide

Author

Listed:
  • Janssen, Annette B.G.
  • Teurlincx, Sven
  • Beusen, Arthur H.W.
  • Huijbregts, Mark A.J.
  • Rost, Jasmijn
  • Schipper, Aafke M.
  • Seelen, Laura M.S.
  • Mooij, Wolf M.
  • Janse, Jan H.

Abstract

The lake ecosystem model PCLake is a process-based model that was developed to simulate water quality based on ecological interactions in shallow, non-stratifying lakes in the temperate climate zone. Here we present PCLake+, which extends the PCLake model to cover a wide range of freshwater lakes that differ in stratification regime and climate-related processes. To this end, the model was extended with a hypolimnion layer that can be invoked and configured by forcing functions or by simple built-in empirical relationships that impose stratification. Further adjustments to the original PCLake model have been made with respect to the calculation of 1) light irradiation in the water column, 2) evaporation processes and 3) phenology of macrophytes. The simulation output of PCLake+ for different types of lakes complies well with generally accepted limnological knowledge, thus holding promise for future contributions to ecological theory and application to lakes around the globe.

Suggested Citation

  • Janssen, Annette B.G. & Teurlincx, Sven & Beusen, Arthur H.W. & Huijbregts, Mark A.J. & Rost, Jasmijn & Schipper, Aafke M. & Seelen, Laura M.S. & Mooij, Wolf M. & Janse, Jan H., 2019. "PCLake+: A process-based ecological model to assess the trophic state of stratified and non-stratified freshwater lakes worldwide," Ecological Modelling, Elsevier, vol. 396(C), pages 23-32.
    • Handle: RePEc:eee:ecomod:v:396:y:2019:i:c:p:23-32
    DOI: 10.1016/j.ecolmodel.2019.01.006
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    References listed on IDEAS

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    1. Jan J. Kuiper & Cassandra van Altena & Peter C. de Ruiter & Luuk P. A. van Gerven & Jan H. Janse & Wolf M. Mooij, 2015. "Food-web stability signals critical transitions in temperate shallow lakes," Nature Communications, Nature, vol. 6(1), pages 1-7, November.
    2. Johan Rockström & Will Steffen & Kevin Noone & Åsa Persson & F. Stuart Chapin & Eric F. Lambin & Timothy M. Lenton & Marten Scheffer & Carl Folke & Hans Joachim Schellnhuber & Björn Nykvist & Cynthia , 2009. "A safe operating space for humanity," Nature, Nature, vol. 461(7263), pages 472-475, September.
    3. Janse, J.H. & Scheffer, M. & Lijklema, L. & Van Liere, L. & Sloot, J.S. & Mooij, W.M., 2010. "Estimating the critical phosphorus loading of shallow lakes with the ecosystem model PCLake: Sensitivity, calibration and uncertainty," Ecological Modelling, Elsevier, vol. 221(4), pages 654-665.
    4. Li, Xiaolin & Janssen, Annette B.G. & de Klein, Jeroen J.M. & Kroeze, Carolien & Strokal, Maryna & Ma, Lin & Zheng, Yi, 2019. "Modeling nutrients in Lake Dianchi (China) and its watershed," Agricultural Water Management, Elsevier, vol. 212(C), pages 48-59.
    5. Mathis Loïc Messager & Bernhard Lehner & Günther Grill & Irena Nedeva & Oliver Schmitt, 2016. "Estimating the volume and age of water stored in global lakes using a geo-statistical approach," Nature Communications, Nature, vol. 7(1), pages 1-11, December.
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    Cited by:

    1. Ruichen Xu & Yong Pang & Zhibing Hu & Xiaoyan Hu, 2022. "The Spatiotemporal Characteristics of Water Quality and Main Controlling Factors of Algal Blooms in Tai Lake, China," Sustainability, MDPI, vol. 14(9), pages 1-17, May.
    2. Osakpolor, Stephen E. & Kattwinkel, Mira & Schirmel, Jens & Feckler, Alexander & Manfrin, Alessandro & Schäfer, Ralf B., 2021. "Mini-review of process-based food web models and their application in aquatic-terrestrial meta-ecosystems," Ecological Modelling, Elsevier, vol. 458(C).
    3. Adhurya, Sagar & Das, Suvendu & Ray, Santanu, 2021. "Simulating the effects of aquatic avifauna on the Phosphorus dynamics of aquatic systems," Ecological Modelling, Elsevier, vol. 445(C).

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