The evolution of chemodiversity in plants—From verbal to quantitative models
Thon F, Müller C, Wittmann M (2024)
Ecology Letters 27(2): e14365.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Abstract / Bemerkung
**Abstract**
Plants harbour a greatchemodiversity, that is diversity of specialised metabolites (SMs), at different scales. For instance, individuals can produce a large number of SMs, and populations can differ in their metabolite composition. Given the ecological and economic importance of plant chemodiversity, it is important to understand how it arises and is maintained over evolutionary time. For other dimensions of biodiversity, that is species diversity and genetic diversity, quantitative models play an important role in addressing such questions. Here, we provide a synthesis of existing hypotheses and quantitative models, that is mathematical models and computer simulations, for the evolution of plant chemodiversity. We describe each model's ingredients, that is the biological processes that shape chemodiversity, the scales it considers and whether it has been formalized as a quantitative model. Although we identify several quantitative models, not all are dynamic and many influential models have remained verbal. To fill these gaps, we outline our vision for the future of chemodiversity modelling. We identify quantitative models used for genetic variation that may be adapted for chemodiversity, and we present a flexible framework for the creation of individual‐based models that address different scales of chemodiversity and combine different ingredients that bring this chemodiversity about.
Plants harbour a greatchemodiversity, that is diversity of specialised metabolites (SMs), at different scales. For instance, individuals can produce a large number of SMs, and populations can differ in their metabolite composition. Given the ecological and economic importance of plant chemodiversity, it is important to understand how it arises and is maintained over evolutionary time. For other dimensions of biodiversity, that is species diversity and genetic diversity, quantitative models play an important role in addressing such questions. Here, we provide a synthesis of existing hypotheses and quantitative models, that is mathematical models and computer simulations, for the evolution of plant chemodiversity. We describe each model's ingredients, that is the biological processes that shape chemodiversity, the scales it considers and whether it has been formalized as a quantitative model. Although we identify several quantitative models, not all are dynamic and many influential models have remained verbal. To fill these gaps, we outline our vision for the future of chemodiversity modelling. We identify quantitative models used for genetic variation that may be adapted for chemodiversity, and we present a flexible framework for the creation of individual‐based models that address different scales of chemodiversity and combine different ingredients that bring this chemodiversity about.
Stichworte
chemodiversity;
mathematical model;
phytochemical diversity;
secondary metabolites;
simulation
Erscheinungsjahr
2024
Zeitschriftentitel
Ecology Letters
Band
27
Ausgabe
2
Art.-Nr.
e14365
Urheberrecht / Lizenzen
ISSN
1461-023X
eISSN
1461-0248
Finanzierungs-Informationen
Open-Access-Publikationskosten wurden durch die Universität Bielefeld im Rahmen des DEAL-Vertrags gefördert.
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https://pub.uni-bielefeld.de/record/2987090
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Thon F, Müller C, Wittmann M. The evolution of chemodiversity in plants—From verbal to quantitative models. Ecology Letters. 2024;27(2): e14365.
Thon, F., Müller, C., & Wittmann, M. (2024). The evolution of chemodiversity in plants—From verbal to quantitative models. Ecology Letters, 27(2), e14365. https://doi.org/10.1111/ele.14365
Thon, Frans, Müller, Caroline, and Wittmann, Meike. 2024. “The evolution of chemodiversity in plants—From verbal to quantitative models”. Ecology Letters 27 (2): e14365.
Thon, F., Müller, C., and Wittmann, M. (2024). The evolution of chemodiversity in plants—From verbal to quantitative models. Ecology Letters 27:e14365.
Thon, F., Müller, C., & Wittmann, M., 2024. The evolution of chemodiversity in plants—From verbal to quantitative models. Ecology Letters, 27(2): e14365.
F. Thon, C. Müller, and M. Wittmann, “The evolution of chemodiversity in plants—From verbal to quantitative models”, Ecology Letters, vol. 27, 2024, : e14365.
Thon, F., Müller, C., Wittmann, M.: The evolution of chemodiversity in plants—From verbal to quantitative models. Ecology Letters. 27, : e14365 (2024).
Thon, Frans, Müller, Caroline, and Wittmann, Meike. “The evolution of chemodiversity in plants—From verbal to quantitative models”. Ecology Letters 27.2 (2024): e14365.
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