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Lessons learned from applying a forest gap model to understand ecosystem and carbon dynamics of complex tropical forests

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  • Fischer, Rico
  • Bohn, Friedrich
  • Dantas de Paula, Mateus
  • Dislich, Claudia
  • Groeneveld, Jürgen
  • Gutiérrez, Alvaro G.
  • Kazmierczak, Martin
  • Knapp, Nikolai
  • Lehmann, Sebastian
  • Paulick, Sebastian
  • Pütz, Sandro
  • Rödig, Edna
  • Taubert, Franziska
  • Köhler, Peter
  • Huth, Andreas

Abstract

Forests worldwide are threatened by various environmental and anthropogenic hazards, especially tropical forests. Knowledge on the impacts of these hazards on forest structure and dynamics has been compiled in empirical studies. However, the results of these studies are often not sufficient for long-term projections and extrapolations to large spatial scales especially for unprecedented environmental conditions, which require both the identification and understanding of key underlying processes. Forest models bridge this gap by incorporating multiple ecological processes in a dynamic framework (i.e. including a realistic model structure) and addressing the complexity of forest ecosystems. Here, we describe the evolution of the individual-based and process-based forest gap model FORMIND and its application to tropical forests. At its core, the model includes physiological processes on tree level (photosynthesis, respiration, tree growth, mortality, regeneration, competition). During the past two decades, FORMIND has been used to address various scientific questions arising from different forest types by continuously extending the model structure. The model applications thus provided understanding in three main aspects: (1) the grouping of single tree species into plant functional types is a successful approach to reduce complexity in vegetation models, (2) structural realism was necessary to analyze impacts of natural and anthropogenic disturbances such as logging, fragmentation, or drought, and (3) complex ecological processes such as carbon fluxes in tropical forests – starting from the individual tree level up to the entire forest ecosystem – can be explored as a function of forest structure, species composition and disturbance regime. Overall, this review shows how the evolution of long-term modelling projects not only provides scientific understanding of forest ecosystems, but also provides benefits for ecological theory and empirical study design.

Suggested Citation

  • Fischer, Rico & Bohn, Friedrich & Dantas de Paula, Mateus & Dislich, Claudia & Groeneveld, Jürgen & Gutiérrez, Alvaro G. & Kazmierczak, Martin & Knapp, Nikolai & Lehmann, Sebastian & Paulick, Sebastia, 2016. "Lessons learned from applying a forest gap model to understand ecosystem and carbon dynamics of complex tropical forests," Ecological Modelling, Elsevier, vol. 326(C), pages 124-133.
    • Handle: RePEc:eee:ecomod:v:326:y:2016:i:c:p:124-133
    DOI: 10.1016/j.ecolmodel.2015.11.018
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    3. Rau, E-Ping & Fischer, Fabian & Joetzjer, Émilie & Maréchaux, Isabelle & Sun, I Fang & Chave, Jérôme, 2022. "Transferability of an individual- and trait-based forest dynamics model: A test case across the tropics," Ecological Modelling, Elsevier, vol. 463(C).
    4. Maciel, Everton A. & Martins, Valeria F. & de Paula, Mateus D. & Huth, Andreas & Guilherme, Frederico A.G. & Fischer, Rico & Giles, André & Barbosa, Reinaldo I. & Cavassan, Osmar & Martins, Fernando R, 2021. "Defaunation and changes in climate and fire frequency have synergistic effects on aboveground biomass loss in the brazilian savanna," Ecological Modelling, Elsevier, vol. 454(C).
    5. Piponiot, Camille & Derroire, Géraldine & Descroix, Laurent & Mazzei, Lucas & Rutishauser, Ervan & Sist, Plinio & Hérault, Bruno, 2018. "Assessing timber volume recovery after disturbance in tropical forests – A new modelling framework," Ecological Modelling, Elsevier, vol. 384(C), pages 353-369.
    6. Wu, Mia M. & Liang, Yu & Taubert, Franziska & Huth, Andreas & Zhang, Min & Wang, Xugao, 2023. "Sensitivity of forest composition and productivity to climate change in mixed broadleaved-Korean pine forest of Northeastern China," Ecological Modelling, Elsevier, vol. 483(C).
    7. Petter, Gunnar & Kreft, Holger & Ong, Yongzhi & Zotz, Gerhard & Cabral, Juliano Sarmento, 2021. "Modelling the long-term dynamics of tropical forests: From leaf traits to whole-tree growth patterns," Ecological Modelling, Elsevier, vol. 460(C).
    8. Armstrong, A.H. & Huth, A. & Osmanoglu, B. & Sun, G. & Ranson, K.J. & Fischer, R., 2020. "A multi-scaled analysis of forest structure using individual-based modeling in a costa rican rainforest," Ecological Modelling, Elsevier, vol. 433(C).
    9. di Porcia e Brugnera, Manfredo & Fischer, Rico & Taubert, Franziska & Huth, Andreas & Verbeeck, Hans, 2020. "Lianas in silico, ecological insights from a model of structural parasitism," Ecological Modelling, Elsevier, vol. 431(C).
    10. Vacchiano, Giorgio & Ascoli, Davide & Berzaghi, Fabio & Lucas-Borja, Manuel Esteban & Caignard, Thomas & Collalti, Alessio & Mairota, Paola & Palaghianu, Ciprian & Reyer, Christopher P.O. & Sanders, T, 2018. "Reproducing reproduction: How to simulate mast seeding in forest models," Ecological Modelling, Elsevier, vol. 376(C), pages 40-53.
    11. Wirth, Stephen Björn & Taubert, Franziska & Tietjen, Britta & Müller, Christoph & Rolinski, Susanne, 2021. "Do details matter? Disentangling the processes related to plant species interactions in two grassland models of different complexity," Ecological Modelling, Elsevier, vol. 460(C).

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